斯博瑞安巴固霍尼韦尔SP2010512防静电安全鞋

Needle GrippersNeedle Grippers SNG-APNeedle stroke max. 3 mm to max. 20 mm (variable)Needle grippers SNG-AP•Needle gripper for handling non-rigid and highly porous materials(primarily textiles)•Handling materials that are difficult to grip using vacuum such as composite textiles, fleece, filter materials, insulation and foam materials etc.•Flexible handling of materials with changing stacking height due to free selectable stroke adjustmentSystem design needle grippers SNG-AP•Driven by double-acting pneumatic cylinders •High-strength housing with lightweight design (1)•Three sizes with needle strokes of max. 3 mm, 10 mm or 20 mm •Adjustment wheel (2) with scale for continuous, simultaneous stroke adjustment•Ten needles (3) with diameters of 0.8 mm or 1.2 mm (depending on the model)•Insertion angle of 30° or 45° (depending on the model)•Optional sensors for monitoring the needle end positions•Can also be mounted with the Schmalz holder system HTSNeedle grippers SNG-AP being used for handling composite textiles•Intersecting needles and small gripping area>Safe handling, even of small and very unstable workpieces •Low weight and double-acting pneumatic cylinders >High acceleration for minimized cycle times •Tool-free simultaneousneedle stroke adjustment up to a maximum of 20 mm >Individual adaptation to different workpiece geometries; fast start of operations and set-up time •One central pneumatic drive>Synchronous extension and retraction of the needles; reduces the need for couplings and hoses •Blow off function for fast and reliable load release >High level of process reliability and exactpositioning; short cycle times •Quick and tool-free cleaning of the needles and replacing the needle modules>Low maintenanceNeedle GrippersNeedle Grippers SNG-APNeedle stroke max. 3 mm to max. 20 mm (variable)Needle gripper SNG-AP is delivered assembled. The product consists of:•Gripper of type SNG-AP – available with various needle diameters and strokesAvailable spare parts: needle modules, maintenance coverAvailable accessories: mounting plate, holder system, add-on kit sensor**Set of sensor and mounting element***Note: suitable screw in push fittings can be found under "Screw in push fittings" in section "Filters and Connections"**Set of two coveragesy o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o mNeedle GrippersNeedle Grippers SNG-APNeedle stroke max. 3 mm to max. 20 mm (variable)SNG-APNeedle GrippersNeedle Grippers SNG-APNeedle stroke max. 3 mm to max. 20 mm (variable)HTS-A2 AP SNGHTS-A3 AP SNGBEF-PLy o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o mNeedle GrippersNeedle Grippers SNG-VNeedle stroke 0 mm to 7 mm (variable)Needle grippers SNG-V•Needle gripper for handling non-rigid and highly porous materials(primarily textiles)•Handling materials that are difficult to grip using vacuum such as composite textiles, fleece, filter materials, insulation and foam materials etc.System design needle gripper SNG-V•Robust aluminum housing (1)•Drive via double-acting pneumatic cylinders (2)•10 needles with diameter 1.2 mm (3)•Insertion angle 30°•Continuously variable stroke adjustment (4)•Optional mounting with holder system HTSNeedle grippers SNG-V being used for handling composite textiles•Intersecting needles >High holding force, even for flexible, non-rigid workpieces •Minimized active contact surface>Handling of small workpieces possible•Double-acting pneumatic cylinders>Very short cycle times •Variable needle stroke>Individual adjustment for different workpiecethicknesses, sizes and shapes •One pneumatic connection point for both pneumatic cylinders>Saves pneumatic tubes and connectors; ensuressynchronous movement of needlesNeedle GrippersNeedle Grippers SNG-VNeedle stroke 0 mm to 7 mm (variable)Needle gripper SNG-V is delivered assembled.Available spare parts: needle module Available accessories: mounting plate**Including mounting screwsy o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o mNeedle GrippersNeedle Grippers SNG-VNeedle stroke 0 mm to 7 mm (variable)SNG-V 10 1.2 VBEF-PL SNGNeedle GrippersNeedle Grippers SNG-MNeedle Stroke 3 mmNeedle grippers SNG-M•Needle gripper for handling of flexible, non-rigid components •Handling of materials which are difficult to grip with vacuum, such as composite textiles, fleece, filters, woven fibreglass or carbon-fibre, woven aramide, foam materials, etc.System design needle grippers SNG-M•Robust aluminum housing •Four needles (2)•Activated by compressed air, needles retracted by springs on the right (1) or optional above (3)•Insertion angle 30°•The needle gripper can be optionally connected using a mounting plateNeedle grippers SNG-M being used for handling structured foam materials•Very small size>Optimal for installation in restricted spaces •Needles retracted by springs >Only one control signal •Synchronised extension of the needles>Safe handling of the work-pieces•Optionally available with adapter flange plate>Perfect adaptation to other mounting componentsy o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o mNeedle GrippersNeedle Grippers SNG-MNeedle Stroke 3 mmNeedle gripper SNG-M is delivered assembled. The assembly consists of:•Gripper of type SNG-MAvailable spare parts: needle piston Available accessories: mounting plate**Note: suitable screw in push fittings can be found under "Screw in push fittings" in section "Filters and Connections"Needle GrippersNeedle Grippers SNG-MNeedle Stroke 3 mmSNG-M 4 0.8BEF-PL SNGy o f C M A /F l o d y n e /H y d r a d y n e ŀ M o t i o n C o n t r o l ŀ H y d r a u l i c ŀ P n e u m a t i c ŀ E l e c t r i c a l ŀ M e c h a n i c a l ŀ (800) 426-5480 ŀ w w w .c m a f h .c o m。

Safety Manual SD 158P/00/enDifferential Pressure Transmitter deltabar S PMD 230/235deltabar S FMD 230/630/633with 4...20 mA output signalFunctional safety manualApplicationOverspill protection or operatingmaximum detection of all types of liquids in tanks to satisfy particular safetysystems requirements as per IEC 61508/ IEC 61511-1 (FDIS).The measuring device fulfils the requirements concerning •Functional safety as perIEC 61508/IEC 61511-1 (FDIS)•Explosion protection (depending on the version)•Electromagnetic compatibility as per EN 61326 and NAMUR recommendation NE 21.Your benefits•Used for–Limit pressure monitoring –Overspill protectionup to SIL 2, independently evaluated (Functional Assessment) byTÜV Rheinland as per IEC 61508/ IEC 61511-1 (FDIS)•Continuous measurement •Easy commissioningDeltabar S Table of contentsSIL declaration of conformity. . . . . . . . . . . . . . . . . .3Introduction. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4Abbreviations, standards and terms . . . . . . . . . . . . . . . . . . 4Determining the Safety Integrity Level (SIL) . . . . . . . . . . . . 5Safety function with Deltabar S. . . . . . . . . . . . . . . .7Safety function for limit pressure monitoring . . . . . . . . . . . . 7Safety function data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Supplementary device documentation . . . . . . . . . . . . . . . 8Behaviour in operation and failure . . . . . . . . . . . . .8Iterative tests. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .8Using the Deltabar S for continuous measurements . . . . . 8Using the Deltabar S as a component of an overspillprotection system as per WHG – Wasserhaushalts-gesetz (German water resources act) . . . . . . . . . . . . . . . . 8Settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9Alarm behaviour and current output . . . . . . . . . . . . . . . . . . 9Checks . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Locking/Unlocking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9Safety-related parameters . . . . . . . . . . . . . . . . . . .10Specific related-safety parameters for Deltabar S . . . . . . 10PFDav dependent on selected maintenance interval . . . . 10TÜV Management Summary. . . . . . . . . . . . . . . . . .112Endress+HauserDeltabar SEndress+Hauser 3SIL declaration of conformityP01-xMDx3xxx-02-xx-xx-en-000Deltabar S4Endress+HauserIntroductionAbbreviations, standards and termsAbbreviationsRelevant standardsAbbreviation ExplanationHFTHardware Fault ToleranceAbility of a functional unit (hardware) to continue to perform a required function in the presence of faults or errors.MTBF Mean Time Between Failures MTTR Mean Time To RepairPFD Probability of Failure on DemandPVD av Average Probability of Failure on DemandSILSafety Integrity LevelThe international standard IEC 61508 defines four discrete Safety Integrity Levels (SIL 1 to SIL 4). Each level corresponds to a range of probability for the failure of a safety function. The higher the Safety Integrity Level of the safety-related systems, the lower the probability that they will not perform the requested safety function.SFFSafe Failure FractionFraction of failures which do not have the potential to put the safety-related system in a hazardous or fail-to-function state.TI Test interval between life testing of the safety functionXooY"X out of Y" votingClassification and description of the safety-related system with regard to redundancy and selection procedure used."Y" specifies how often the safety function is performed (redundancy)."X" determines how many channels have to work properly.Pressure measurement example: 1oo2 architecture – A safety-related system decides that a predefined pressure limit is exceeded when one of two pressure sensor reaches this limit. If a 1oo1 architecture is used, there is only one pressure sensor available .Standard ExplanationIEC 61508,Part 1 – 7Functional safety of electrical/electronic/programmable electronic safety-related systems(Target group: Manufacturers and Suppliers of Devices)IEC 61511Part 1 – 3 (FDIS)Functional safety – Safety Instrumented Systems for the process industry sector (Target group: Safety Instrumented Systems Designers, Integrators and Users)Deltabar SEndress+Hauser 5TermsDetermining the Safety Integrity Level (SIL)The achievable Safety Integrity Level is determined by the following safety-related parameters:•Average Probability of Failure on Demand (PFD av )•Hardware Fault Tolerance (HFT) and •Safe Failure Fraction (SFF).The specific safety-related parameters for the Deltabar S, as a part of a safety function, are listed in the "Safety-related parameters" chapter.The following table displays the dependence of the "Safety Integrity Level" (SIL) on the "Average Probability of Failure on Demand" (PFD av ). Here, the "Low demand mode" has been observed, i.e. the requirement rate for the safety-related system is maximum once a year.Sensor, logic unit and actuator together form a safety-related system, which performs a safety function. The "Average Probability of Failure on Demand" (PFD av ) is usually divided up into the sensor, logic unit and actuator sub-systems as per Figure 1.Fig. 1: usual division of the "Average Probability of Failure on Demand" (PFD av ) into the sub-systemsNote!This documentation considers the Deltabar S as a component of a safety function.Term ExplanationDangerous failureFailure with the potential to put the safety-related system in a dangerous or non-functional condition.Safety-related systemA safety-related system performs the safety functions that are required to achieve or maintain a safe condition e.g. in a plant. Example: pressuremeasuring device – logic unit (e.g. limit signal generator) – valve form a safety-related system.Safety functionDefined function, which is performed by a safety-related system with the aim of achieving or maintaining a safe condition for the plant, considering a specified dangerous incident. Example: limit pressure monitoringSafety Integrity Level (SIL)PFD av (Low demand mode)4≥ 10–5...< 10–43≥ 10–4...< 10–32≥ 10–3...< 10–21≥ 10–2...< 10–1Deltabar S6Endress+HauserThe following table displays the achievable "Safety Integrity Level" (SIL) of the entire safety-related system for type B systems depending on the "Safe Failure Fraction" (SFF) and the "Hardware Fault Tolerance" (HFT). Type B systems are, for example, sensors with complex components such as microprocessors (→ see also IEC 61508, Part 2).Safe Failure Fraction (SFF)Hardware Fault Tolerance (HFT)01 (0) 11)In accordance with IEC 61511-1 (FDIS), Clause 11.4.4, the "Hardware Fault Tolerance" (HFT) can bereduced by one (values in brackets), if the following conditions are true for devices using sensors and actuators with complex components: – The device is "proven in use".– The device allows adjustment of process-related parameters only, e.g. measuring range, upscale or downscale failure direction, etc.– The adjustment level of the process-related parameters of the device is protected, e.g. by jumper, password (here: numeric code or key combination)– The function has a "Safety Integrity Level" (SIL) requirement less than 4.All conditions are true for the Deltabar S.2 (1) 1<60%not permitted SIL 1SIL 260 ...<90%SIL 1SIL 2SIL 390 ...<99%SIL 2SIL 3–≥ 99 %SIL 3––Deltabar SEndress+Hauser 7Safety function with Deltabar SSafety function for limit pressure monitoringFig. 2: safety function (e.g. for limit pressure monitoring) with Deltabar S as sub-system 1Deltabar S with local operation, option for setting the lower-range value and upper-range value and the attenuation2Computer with operating program e.g. Commuwin II for setting all parameters such as alarm behaviour, max. alarm, operating mode, etc.3Handheld terminal Hart Communicator DXR 275 for setting all parameters such as alarm behaviour, max. alarm, operating mode, etc.The Deltabar S transmitter generates an analogue signal (4...20 mA) proportional to thedifferential pressure or the level. The analogue signal is fed to a downstream logic unit, such as a PLC or limit signal generator, and there it is monitored to determine whether it exceeds amaximum value. In order to monitor for faults, the logic unit must be able to detect both HI-alarms (adjustable from 21...22.5 mA) and LO-alarms (3.6 mA).Safety function dataCaution!The compulsory settings and data for the safety functions are listed in the "Settings" and "Safety-related parameters" chapters.For the reaction time of the transmitter, see Technical Information TI 256P.Note!MTTR is set at eight hours.Safety-related systems without a self-locking function must be monitored or set to an otherwise safe state after carrying out the safety function within MTTR.Deltabar S8Endress+HauserSupplementary device documentationDepending on the version, the following documentation must be available for the transmitter:Caution!•The installation and setting instructions, and the technical limit values must be observed in accordance with the Operating Instructions (BA 174P).•For devices which are used in explosion-hazardous areas or which serve as a component of an overspill protection system as per WHG, the supplementary documentation (XA, ZD, ZE) must also be used in accordance with the table.Deltabar S supplementary documentationFor further information, see Technical Information TI 256P.Behaviour in operation and failureNote!The behaviour in operation and failure is described in the Operating Instructions BA 174P.Iterative testsUsing the Deltabar S for continuous measurementsThe operability of the measuring device must be tested at appropriate time intervals. Werecommend carrying out the test at least once a year. It is the responsibility of the user to select the type of check and the intervals in the specified time frame.Using the Deltabar S as a component of an overspill protection system as per WHG – Wasserhaushalts-gesetz (German water resources act)The operability of the overspill protection system must be tested at appropriate intervals, at least once a year. The iterative tests must be carried out in accordance with the "National technical approval" documentation ZE 209P, chapter 8.Explosion protection/Certificate DevicesOperatingInstructions (BA)Other documentation (XA, ZE or ZD)none PMD 230, PMD 235, FMD 230, FMD 630, FMD 633BA 174P noneWHGPMD 235, FMD 630, FMD 633BA 174PCertificate (DIBt) ZE 209PATEX II 1/2 G EEx ia IIC T4/T6PMD 230, PMD 235, FMD 230, FMD 630, FMD 633BA 174P Safety Instructions XA 002PATEX II 3 G EEx nA II T6PMD 230, PMD 235, FMD 230, FMD 630, FMD 633BA 174P Safety Instructions XA 151PATEX II 2 G EEx d IIC T5/T6PMD 235, FMD 630, FMD 633BA 174PSafety Instructions XA 005P CSA IS (non incendive) Class I, II, III; Div. 1, Groups A – G PMD 230, PMD 235, FMD 230, FMD 630, FMD 633BA 174P 960358-2020CSA Explosion proof Class I, II, III; Div. 1; Groups B – G PMD 235, FMD 630, FMD 633BA 174PnoneFM IS Class I, II, III; Div. 1, Groups A – G PMD 230, PMD 235, FMD 230, FMD 630, FMD 633BA 174P 960358-1020FM Explosion proof Class I, II, III, Div. 1; Groups A – GPMD 235, FMD 630, FMD 633BA 174PnoneDeltabar SSettingsAlarm behaviour and current outputIn the event of a fault, the current value is set to the value you have selected. The settings can be made either using the Endress+Hauser Commuwin II operating program or with the HART Communicator DXR 275 handheld terminal. Use the "Set output safety" or "Alarm mode" parameters to set the alarm behaviour. Use the "Set max. current" or "Max. alarm current" parameters to set the maximum alarm current."Set output safety" or"Alarm behaviour" selection Current value in the event of a fault "Min" or "Min. alarm" 3.6 mA"Max" or "Max. alarm"Can be set via "Set max. current" or "Max. alarm current" parameters: 21...22.5 mA.Factory setting: 22 mASoftware versionMatrix position (only foroperation via Commuwin II)ParameterPermitted settings # Caution!Impermissible setting!SW 7.0V0H8Set output safety–Min (–10 %)–Max (110 %)Continue (this setting is not permitted for the safety function!)V9H4Set max. current 21...22.5 mA SW 7.1V0H8Alarm mode–Min. alarm –Max. alarmValue hold (this setting is not permitted for the safety function!)V9H4Max. alarm current 21...22.5 mADeltabar S10Endress+HauserCaution!The locking and unlocking function is also available via the Commuwin II operating program and the Hart Communicator DXR 275. To ensure that unlocking via communication is ruled out, you should always lock operation via the keys on the device.Safety-related parametersSpecific related-safety parameters for Deltabar SThe table displays the specific safety-related parameters for the Deltabar S.PFD av dependent on selected maintenance intervalThe following diagram presents the dependence of the PFD av on the maintenance interval. The PFD av increases as the maintenance interval increases.Fig. 4: "Average Probability of Failure on Demand" (PFD av ) dependent on the selected maintenance intervalPMD 230FMD 230PMD 235FMD 630FMD 633SIL SIL 2SIL 2HFT 00SFF 82.9 %81.9 %PFD av 6.05 x 10–4 5.89 x 10–4TI 11)Complete function test, e.g. by approaching levelannualannualDeltabar STÜV Management SummaryP01-xxxxxxxx-02-xx-xx-en-001P01-xxxxxxxx-02-xx-xx-en-000 Endress+Hauser11Deltabar SEndress+Hauser GmbH+Co.Instruments InternationalP.O. Box 2222D-79574 Weil am RheinGermanyTel. (07621) 975-02Tx 773926Fax (07621) 975 345e-mail:***************.comInternet:11.01SD158P/00/en/01.03aFM+SGML 6.0 ProMoDo。

常备现货 / 优惠价格产品手册中文版 03/2020INDUSTRIAL PROFESSIONAL TACTICAL工业安全鞋 专业功能鞋 军警鞋/靴官方网站：扫描二维码关注官方微信平台侧面拉链LIGHTWEIGHT HIKING SPORTS 在线下单 | INDUSTRIAL工业安全鞋新款黑色海蓝海蓝海蓝黑色200891201005卡其海蓝棕色棕色黑色200601200607200127200251200724200230200229860201860200860203860100861201861200BALTO S1海蓝010594010554灰色010618迷彩黑色200159861202ULTIMA S3米黄VOLCANO S3ENERGETICA S3WORKERPLUS S3861500840400830300861000200271褐色200272200532200257870600870500870800870700871200871100811200860900AURA S3 0879********X1110 S3 811000811100200084810500200086200101810400810300200442200956810800810700新款白色黑色黑色海蓝010726 200585200588 200191200233 200438201011 0851******** 840303200232010528010*********大底鞋头中底内衬鞋垫X1100N79 EH010636防寒毛内里防寒毛内里防寒毛内里新款大底鞋头中底内衬鞋垫防护等级码段DEBBIE S3NORDIC S3BESTBOY252 S3010546820500200681200161820100850400850300850600811600200274871500850100可触屏操作可触屏操作可触屏操作ACCESSORIES 配饰（手套系列新款新款PROSHIELD 4X42F010800011041550200550100520400510200520100530100520300防砸鞋头在线下单 | PROFESSIONAL专业功能鞋海蓝淡紫电绿电蓝黑色白色海蓝白色白色白色白色碎花黑色黑色黑色碎花黑色桃红桃红桃红淡蓝淡蓝黑色白色桃红073001073501073401073601073201073101073301电绿海蓝白色淡蓝072602072202072109072203SONIC 海蓝白色黑色桃红电绿电蓝淡紫076310076010076410076210076110076510076610海蓝白色黑色电绿电蓝淡紫077606077304077801077105077211077903088001088501088601010528白色010527白色黑色010807010808黑色010764037102037402037202037902037901037401037201037101037501027805027905021101021501021401非金属防砸鞋头新款海蓝海蓝白色白色白色白色白色碎花白色白色白色白色白色白色黑色黑色黑色黑色桃红桃红桃红桃红桃红淡蓝淡蓝淡蓝淡蓝碎花白色灰碎花淡紫023201023101023401023901白色027502027102027402027902021405021105021205047102047202淡蓝047103047101047501047401047301047201041201027104027904027803027103021804021104115102115501115101115901041101041401黑色010591010579白+海蓝海蓝白+海蓝黑色黑色黑+灰色白+桃红白+桃红桃红淡紫白+淡蓝淡蓝浅灰白+浅灰白+浅灰黑色粉红黑色白色黑色白色黑色010831010827010518010485010484010482010481127702127802127201127401127701127804127904127403057806057305057405010049010050010493010490010520057205057705黑色黑色侧面拉链侧面拉链侧面拉链侧面拉链SECURITY 安防系列LAW ENFORCEMENT 军队、执法在线下单 | TACTICAL 军警鞋/靴200486200984SHARK DUNE 大底鞋头中底内衬TROOPER 大底鞋头中底内衬鞋垫防护等级码段海蓝海蓝白色桃红浅灰浅灰大底鞋头中底内衬鞋垫防护等级码段黑色057903057404057703057803057104057804057704200530200757010563200913201012CWH工业安全鞋 专业功能鞋 军警鞋/靴欧洲Meersbloem Melden 42 9700 Oudenaarde BelgiumPhone: +32 55 33 44 44 *********************俄罗斯Невский проспект 55 А191025 Санкт-ПетербургРоссияТелефон: +7 812 313 92 96*********************美国Fitron Americas Incsuite220, 9250 Wilshire Blvd.Beverly Hills CA90212-USAPhone: +1 877 669 9727***********************中国Niu Dun Industrial estateHengli, Wang Niu Dun, DongguanGuangdong ProvinceChina (postal code 523216)Phone: +86 769 3901 8500*****************************欧洲设计常备现货 / 优惠价格。

经营全系列防护用品、劳保用品 一、巴固BACOU-DALLOZ 已更改其品牌为霍尼韦尔（Honeywell）巴固-德洛产品：安全鞋欧洲第二！防坠落产品全球第一，眼脸部防护产品全球第一，听力防护产品全球第二，工业手套领域世界第三;霍尼韦尔集团已成为全球最大、最专业的研发、生产、销售全系列个人防护产品的跨国上市集团，并在全球13个国家拥有31家工厂，客户遍布五大洲。

霍尼韦尔巴固产品，在中国服务网络遍布辽宁、黑龙江、吉林、河北、北京、天津、山东、内蒙古、江苏、浙江、上海、安徽、福建、江西、湖南、广东、贵州、云南、海南、陕西、甘肃、宁夏、山西、河南、湖北、新疆、成都，重庆。

霍尼韦尔（中国）安全防护设备有限公司作为全球最大、最专业的研发、生产、销售全系列个人防护产品的跨国上市集团斯博瑞安集团在中国建立的子公司，借助集团雄厚的实力，在中国个人防护产品领域独占鳌头，近年来销售额飞速增长。

斯博瑞安集团在华子公司成立于1996年，并于2000年12月顺利通过了ISO9001：2000质量体系认证。

二、代尔塔安全鞋法国代尔塔集团创立于1977年，于1999年在巴黎股票市场成功上市。

经过30多年的快速发展及所有产品品质的严格控制和销售区域与业绩的不断扩大及提升，集团已经发展成为一家面向全球的个人防护装备国际级企业并不断的自我改进。

在中国，代尔塔一直致力于“全球防护，本地服务”的理念，为逾万家客户提供个人防护用品从头到脚的一站式服务。

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B1.1visit /ecatalog for pricing and the most up to date informationBO v e r l o a d R e l a y sProduct Feature Overview➊ You can also configure CEP9 devices using an optional expansion operator diagnostic station.Choices inOverload RelaysProtecting your investment is critical to keeping your operations up and running. Prevent unwanted down time by choos-ing the right protection for your motor controls. Sprecher + Schuh is proud to offer several options in motor protection. From simple single purpose devices, to varying degrees of selection options and complete factory automation and commu-nication, selecting the right protection is vital to ensuring motor life and longevity. Sprecher + Schuh is here to help protectyour investment.CT7N/CT8Thermal BimetallicKey Features:• Ambient temperature compensation • Rated for DC and variable frequent drive applications up to 400 Hz • Optional remote reset solenoid and external reset accessoriesCEP7 Solid StateKey Features:• Current measurement based protection • Low energy consumption• Side-mount expansion modules provide adjustable levels of protection and commu-nicationCEP9Advanced ElectronicKey Features:• Provides critical motor protection functions • Communication and diagnostics provide detailed logs and control from relay to motor • Can simplify control architecture3r d G e n C E P 7 O v e r l o a d sB1.2visit /ecatalog for pricing and the most up to date informationCEP7 Solid State Overload RelaysThe Third GenerationAdvanced solid state motor protectionThe CEP7-1__ relay provides the follow-ing features:• Electronic overload detection • Simple configuration • Selectable trip class • Adjustable trip current• Integration with CA7/CAN7 contactors• Test and reset buttons• Auto (CEP7-1EF only)/manual resetselection• RMS current sensing (50/60 Hz)• External current transformer configu-rations • Single- and Three-phase compatibility within the same unit • Direct and pass-through mounting options The CEP7-1__ relay lets you connectaccessory modules, some of which inter-face through the front-mounted com-munication port. Accessories include:• Ground fault/jam protection module(CEP7-1EF only)• Remote reset solenoid• Anti-tamper shield• Electronic remote indication display CEP7–ERID, with or without reset (CEP7–1EF units only)• External reset adapter • DIN rail/Panel adapterOverload Performance• Current Measurement-based Protection Current measurement-based overload protection more accurately models amotor’s thermal condition. Ambient temperature over the specified temperature operating range does notimpact the performance of current measurement-based designs.• Electronic Design Thermal model-ing is performed electronically withprecision solid-state components, us-ing a state-of-the-art microprocessor.The microprocessor continually pro-cesses motor current data to accurately maintain the time-current status of the motor thermal capacity utilization (%TCU) value.• Thermal Memory A thermal mem-ory design lets the CEP7-1 OverloadRelay model the heating and cooling effects of motor on and off periods. This achieves accurate protection for both hot and cold operation.• Phase Loss Protection Phase loss detection is incorporated into the CEP7-1 Overload Relay, allowing it to respond quickly to this type ofcondition.Direct Mount Mechanicalattachment800A100A 100A 100A3r d G e n C E P 7 O v e r l o a d sB1.3visit /ecatalog for pricing and the most up to date informationVersatile and Expandable• Adjustable Trip Class and Reset Modes The Basic CEP7-1EE relay of-fers Trip Class 10 and 20 with manual reset only. The Advanced CEP7-1EF relay offers Trip Class 10, 15, 20, and 30 with a selectable dial, in manual or automatic reset.• Pass-through Design The CEP7-1 relay Pass-through option consumes less panel space than a standard CEP7-1 relay that is configured with a panel-mount adapter. The pass-through design provides integrated DIN Rail mount and panel mount-ing holes. The CEP7-1 Pass-through Electronic Overload Relay provides the same protection and expandable accessory capabilities as a standard CEP7-1 relay.• External CTs For motor overload protection applications above 100A in current sensing capability, the CEP7–1EF_Z relay offers functionality with external CT configurations up to 800A maximum capacity.Wide current adjustment rangeThermal or bimetallic overload relays typically have a small current adjust-ment range of 1.5:1 meaning that the maximum setting is generally 1.5 times the lower setting. Sprecher + Schuh’s CEP7-1 overload relay is capable of adjustment to a maximum of five times the minimum set current, which dra-matically reduces the number of units required on-hand to cover the full range of current settings up to 100 amperes.Selectable tripping classBoth the CEP7-1 models have standard Class 10 tripping characteristics. The CEP7-1EE Basic model is equipped with dip switches that allow the select ability between Class 10 and Class 20, while the CEP7-1EF Advanced model possesses a selection dial on the face of the overload for trip classes 10/15/20 and 30. This selection feature allows you to closely match the Trip Class with the start-up time of the motor.Adaptive ProtectionRemote Reset CapabilityThe CEP7-1EF relay offers optional remote reset capabilities through the use of an electro-mechanical reset solenoid or an electronic remote reset accessory module.Ground Fault and Jam Protection The CEP7-1EF relay offers optional ground fault and jam protectionthrough the use of an accessory module. The ground fault current detection level is configurable via a mechanical rotary dial from 0.02…5A. Jam protection is configurable via two mechanical rotary dials, current level from 125…600% FLA, and delay from 0.1…10 seconds.Robust designThe CEP7 has been designed to physi-cally extend to the back-pan therefore aligning the mounting of the overload with the corresponding contactor. Further, the mechanical attachment and direct electrical connection to the contactor provides a robust mounting, which means less damage from shipping or during field wire installation. The bipolar latching relay which controls the normally closed trip contacts and nor-mally open alarm circuit contacts have been self-enclosed, therefore insulating the electromagnet and shielding against airborne metal particles and other po-tential environmental debris. The CEP7 has been tested to operate in -20° C. or up to 60° C (140 °F.) and withstand 3G of vibration or 30G of shock on a mountain up to an altitude of 2000m or in a jungle at 95% humidity. Reliability under every conceivable environmen-tal condition is a quality built into the design of the CEP7 electronic overload relay.Increased accuracy and improved motor protectionMicroelectronics provide flexible and ac-curate motor overload protection. Unlike traditional overload relays that simulate heat build-up in the motor by passing current through a heater element, CEP7 solid state overload relays measure motor current directly through integrated cur-rent transformers. The transformers, in turn, create a magnetic field that induces DC voltage onto the ASIC board. The electronics identify excessive current or loss of phase more accurately, and react to the condition with greater speed and reliability than traditional overload re-lays. In addition, CEP7 solid state relays offer setting accuracies from 2.5 – 5% and repeat accuracy of 1%.Dramatically lowered energy requirement saves money, reduces panel spaceBecause traditional overload relays work on the principle of “modeling” the heat generated in the motor (recreating the heat in the bimetal elements or heaters), a significant amount of energy is wasted. In traditional bimetallic overload relays, as many as six watts of heat are dissipat-ed to perform the protective function. Because the CEP7 uses sampling tech-niques to actually measure the current flowing in the circuit, very little heat is dissipated in the device…as little as 0.5 watts. This not only reduces the total amount of electrical energy consumed in an application, but it can also have a dra-matic impact on the design and layout of control panels. The density of motor starters can be much greater because less heat is generated by each of the individ-ual components. Higher density results in smaller control panels. In addition, special ventilation or air conditioning that might have been required to protect sensitive electronic equipment such as PLC’s can now be reduced or eliminat-ed. CEP7 overload relays dramatically reduced energy requirement saves moneyand reduces panel space.CEP7-1EF Selectable Dial for • Manual vs. automatic• Trip class 10, 15, 20 or 30)CEP7-1EE SwitchSelection for Trip class (10 or 20)3r d G e n C E P 7 O v e r l o a d sB1.4visit /ecatalog for pricing and the most up to date information➊ This reference is not intended to be a guide for selecting contactors. Size overload relays using the full load current of the motor.➋ The reset time of a CEP7 set in the automatic mode is approximately 120 seconds.➌ CEP7 overload relays do not work with Variable Frequency Drives, DC Applications or Softstarters with braking options.shown: CEP7-1EFGPCEP7-1EF Automatic or Manual Reset for 1Ø and 3Ø Applications shown: CEP7-1EFLZDescriptionFig. 1 - The Pass-Thru version of the CEP7 permits separate mounting of the overload relay.Fig. 2 - Motor load side cables simply pass-thru a window in the overload relay body. The internal current transformers monitor the current flow.Benefits• N o need for a panel mount adapter as required with direct-connect versions • E liminates 3 to 6 wire terminations• D esigned for use with CA8 or CA7 contactors • E asily replaces outdated overload relays in existing starter assemblies• P rovides state-of-the-art accuracy and motor protectionFig. 2B3r d G e n C E P 7 O v e r l o a d sB1.5visit /ecatalog for pricing and the most up to date informationAccessories - CEP7-1CEP7-1EPB CEP7-1EPD CEP7-1EPE➊ ATTENTION: The CEP7 Overload relay is not a ground fault circuit interrupter for personnel protection as defined in Article 100 of the NEC.➋ Dynamic inhibit: Protective function is enabled after the motor current goes above 150% and then falls below 125%➌ Utilizes UL or CE approved Current Transformers in conjunction with an overload selection – which is commonly selected as a CEP7-1EF_Z version. In the instance that a CEP7-1E_C_ overload is used, there is a reference table on catalog page B1.9 to assist with current setting guidance.3r d G e n C E P 7 O v e r l o a d sB1.6visit /ecatalog for pricing and the most up to date informationCEP7 Ground Fault Sensor SelectionGround fault current is sensed by passing all lines carrying current to and from a motor through the window of a special current transformer called a ground fault sensor. If all the current to the motor returns through the lines in the sensor window, no significant current will be induced in the sensor secondary. If, however, ground fault current returns via a path external to the sensor, such as via the conduit walls, a current will be induced in the sensor secondary. This current will be sensed and amplified by solid state circuits. If the ground fault current is larger than the selected ground fault trip level of the overload relay, the overload relay will trip.➊ For a three phase system with one cable per phase.➋ For a three phase system with two cables per phase.CEP7-1 Ground Fault Sensor InstallationGround Fault Sensor Control WiringMotorL2L3L1GroundFault SensorBCEP7Overloadsvisit /ecatalog for pricing and the most up to date informationT2T31314A1A2659798Specifications - CEP7 Electronic Overload RelayThis section contains specifications, wiring diagrams, andcertification information for the CEP7 Electronic OverloadWiring DiagramsThe figures in this section illustrate various wiringconfigurations for the CEP7 Electronic Overload Relay and95T2T3T19697Connection must beShort-circuit Protection Deviceonnection must be tted by the userShort-circuit Protection Device Transformer Overload Relay Application and Installation Instructions, publication193-IN084.Current TrShort-circuiProtection DT1/2For more inBulletin 19InstructionTransforme193-IN0843r d G e n C E P 7 O v e r l o a d sB1.8visit /ecatalog for pricing and the most up to date informationAttributeRatingCEP7-1EE..CEP7-1EF..Type of Relay Ambient Compensated Time-DelayPhase Loss SensitiveNature of Relay Solid-state FLA Setting Rotary Dial Trip Rating 120% FLATrip Class 10, 2010, 15, 20, 30Reset ModeManualAutomatic or ManualOverload ResetLevelAuto Reset occurs at 70% TCU when accessory powered, after 2 minutes when self powered.Manual Reset can occur anytime by pressing themanual reset button. Electronic Reset (ERID input)can only occur below 70% TCU.* Typical reset time for CEP7-1EF devices set to automatic reset mode is dependent upon overload trip class. Typical reset time for Trip Class 10 is 90 seconds, Trip Class 15 is 135 seconds, Trip Class 20 is 180 seconds, and Trip Class 30 is 270 seconds.Ground Fault ProtectionAttribute Rating CEP7-1EF Type Core Balanced Intended Use Equipment Protection Classification (Per UL 1053)Evaluated to UL 1053 but notlisted as such Internal Protection Range 0.02…5.0 ATrip and Warning Time DelayFixed at 100 msec ± 20 msecControl Relay RatingsRelay N.O./N.C.Type of ContactsAg/NiRated Thermal Current (I the )B600: 5.0 A; C600: 2.5 A; R300: 1.0 AContact Reliability[V]17 V, 5 mA Rated Insulation Voltage - (U I )[V]690V ACRated Operation Voltage - (U e )[V]690 AC (IEC) / 600 AC (UL/CSA)Rated Operating Current (I e )[V]B600: 3 A (@120V AC), 1.5 A (@240V AC)[V]C600: 1.5 A (@120V AC), 0.75 A (@240V AC)[V]R300: 0.22 A (@125V DC), 0.11 A (@250V DC)Minimum Operating Current [V]10 mA @ 5V DCRating Designation N.O. C600 / N.C. B600 (AC)N.O. / N.C. R300 (DC)Utilization Category AC-15/DC-13B600 VA Rating 3,600VA make / 360VA break C600 VA Rating 1,800VA make / 180VA break R300 VA Rating28VA make / 28VA breakRated Number of Mechanical OperationsRelay N.O./N.C.10,000W/ CA7-9…CA7-3713,000,000W/ CA7-43…CA7-5512,000,000W/ CA7-60…CA7-976,000,000Motor/Load RatingsTerminals1/L1, 3/L2, 5/L3, 2/T1, 4/T2, 6/T3Terminal Style Devices Rated Insulation Voltage - (U i )[V]690V AC Rated Operating Voltage - (U e ) IEC [V]690V AC Rated Operating Voltage - (U e ) UL [V]600V ACPass-thru Style Devices Rated Insulation Voltage - (U i )[V]1000V AC Rated Operating Voltage - (U e ) IEC [V]1000V AC Rated Operating Voltage - UL/CSA [V]600V AC Rated Impulse Voltage - (U imp )[kV]6 kV ACRated Operating Current - (I e )See product selection tableRated Frequency[Hz]45 (65)➊For multiple conductor applications, the same size and style wire must be used.Table for using Current Transformers with CEP7-1E_C_ (range 1.0…5.0 amps) overload relay3r d G e n C E P 7 O v e r l o a d sB1.9visit /ecatalog for pricing and the most up to date informationTechnical InformationEnvironmental RatingsOverload Rating Accessory RatingAmbient TemperatureStorage [˚C]-40...+85 (-40...+185 ˚F)Damp Heat - Steady State(per IEC 60068-2-78)93% R.H., 40 °C (104 °F), 56 days Damp Heat - Cyclic (per IEC 60068-2-30)93% R.H., 25 °C/40 °C (77 °F/104 °F), 21 CyclesCooling MethodNatural convection Vibration (per IEC 68-2-6), operating [G]3Shock (per IEC 68-2-27), operating [G]30Maximum Altitude [m]2000Pollution Environment Pollution Degree 3Degree of ProtectionIP20 (front of panel)IP20Electromagnetic Compatibility Immunity and EmissionsOverload RatingAccessory RatingElectrostatic Discharge Immunity IEC 61000-4-2, IEC 60533 6 kV Contact Discharge, 8kV Air Discharge(Performance Criterion “B”)8 kV Contact Discharge, 8kV Air Discharge(Performance Criterion “B”)Radio Frequency Immunity IEC 61000-4-3[Hz]10V/m; 80 MHz...1.0 GHz [Hz]3V/m; 1.4 GHz...2.0 GHz [Hz]1V/m; 2.0 GHz...2.7 GHzIEC 60533[Hz]10V/m; 80 MHz...2.0 GHz (Performance Criterion “A”)Electrical Fast Transient / Burst Immunity IEC 61000-4-4, IEC 60533[V]4kV (3-phase Power); 2kV(Control Power & Communication I/O when CEP7-1ERR or CEP7-1EGJ accessory installed); Performance Criterion “A”Surge ImmunityIEC 61000-4-4, IEC 60533[V]2kV (L-N); 1kV (L-L); Performance Criterion “B”Radiated Emissions CISPR11 Environment A [Hz]30 MHz…1.0 GHz IEC 60533[Hz]150KHz…2.0GHzConducted Emissions CISPR11 Environment A [Hz]150 KHz…30 MHzIEC 60533[Hz]10 KHz…30 MHz (General Power Distribution Only)Conducted ImmunityIEC 61000-4-6, IEC 60533[Hz]Modulation 80% AM at 1 KHz; 10V RMS (150 KHz…80 MHz)Power Frequency Magnetic Field Immunity IEC 60947-1, IEC 61000-4-8[Hz]30 A/m; 50 HzVoltage Variation Immunity IEC 61000-4-11, IEC 60533[V]—Control Power 40…240V (AC/DC)Wiring SpecificationsWiring Specifications for CEP7-1E__B, CEP7-1E__D, and CEP7-1E__EControl WiringPower Wiring AllCEP7-1E BCEP7-1E DCEP7-1E EWire TypeWires Range Torque Range Torque Range Torque Range Torque Flexible Stranded w/ Ferrule1 Wire 0.75…2.5 mm 21.4 N•m2.5…16 mm 2 2.5 N•m 2.5…16 mm 2 2.5 N•m 4…35 mm 2 4.6 N•m2 Wires ➊ 2.5…10 mm 2 3.4 N•m 2.5…10 mm 2 3.6 N•m 4…25 mm 2Stranded / Solid1 Wire0.75…4.0 mm 2(18…12 AWG)1.4 N•m (12 lb•in)2.5…16 mm 2(14…6 AWG) 2.5 N•m (22 lb•in) 2.5…16 mm 2(14…6 AWG) 2.5 N•m (22 lb•in)4…35 mm 2(12…1 AWG) 4.6 N•m (40 lb•in)25 mm 2(4 AWG) 3.4 N•m (30 lb•in)25 mm 2(4 AWG) 3.4 N•m (30 lb•in)2 Wires ➊2.5…16 mm 2(14…6 AWG)2.5…16 mm 2(14…6 AWG)3.6 N•m (32 lb•in)4…35 mm 2(12…2 AWG)3r d G e n C E P 7 O v e r l o a d sB1.10visit /ecatalog for pricing and the most up to date informationTechnical InformationOverload Trip CurvesTypical reset time for CEP7-1EF devices set to automatic reset mode is dependent upon overload trip class. Typical reset time for Trip Class 10 is 90 seconds, Trip Class 15is 135 seconds, Trip Class 20 is 180 seconds, and Trip Class 30 is 270 seconds.Class 30Class 20Class 15Class 10B3r d G e n C E P 7 O v e r l o a d sB1.113r d G e n C E P 7 O v e r l o a d sB1.12B3r d G e n C E P 7 O v e r l o a d sB1.13B3r d G e n C E P 7 O v e r l o a d sB1.15➊ Terminals R1 and R2 are used with CEP7-ERID and CEP7-1ERIDN modules.➋ External power must be user supplied. 24…240V, 47…63 Hz or DC.➌ Connect current sensor to Terminal S1 and S2Expansion Accessory Ratings CEP7-1EGJ/1ERRAttributeRatingRated Insulation Voltage Ui 264V (AC/DC)Rated Operating Voltage Ue, IEC24...240V (AC/DC)Rated Frequency 45...65 HzPower Consumption0.8 Watts at 24V AC; 1.0 Watts at 240V AC➍ Terminals R1 and R2 are used with CEP7-ERID and CEP7-1ERIDN modules.➎ External power must be user supplied. 24…240V, 47…63 Hz or DC.。

Respiratory ProtectionIndustrial SCBA Components Harness/Backpack Industrial Applications: Nylon High Heat/Flashover: Nomex ®/Kevlar ®Utility D-Ring Options: Convenient D-rings located on the waist strap at either side of the user. These D-rings can be used to carry tools, ropes or other e quipment a user might need. Pull tested to over 1,000 lbs. of pull force with no deformation.Chest Strap Options: Provides an extra measure of upper harness security for those who prefer it.Cylinders Pressure: Low Pressure (2216 psig) or High Pressure (4500 psig)Duration: 30-minute, 45-minute or 60-minute rated air durations Long duration cylinders reduce the need for frequent cylinder changes. Type: Aluminum, Hoop-Wrapped Fiberglass, Fully Wrapped Carbon Carbon fiber material reduces cylinder weight by 2 to 10 lbs. when compared to fiberglass-wrapped and aluminum cylinders.Low Air Alarms Choice of low air alarms: Bell, Plain Whistle, or Warbling Whistle Choose the alarm most different from other noise/alarms in your work environment to eliminate any alarm confusion. Air Management Indicators Analog Gauge – Standard pressure indicator for all Industrial SCBAs (except HUD versions) Heads-Up Display (HUD) – Standard visual in-mask LED pressure indicator with visual alarm.Facepiece Size: Small, Medium, Large Harness Type: 5-pt. silicone headstrap or Kevlar ® mesh headnet.Neckstrap Option: Allows the facepiece to hang around neck while not in use.Let’s start by looking at the differentcomponents of an Industrial SCBA.Honeywell Respiratory Protection offers anextensive self-contained breathing apparatus(SCBA) product line to the Industrial market.Our products fit the needs and wants ofvirtually every application, situation and user.Safety is our priority and comfort isa prerequisite.Choosing an SCBA can be overwhelming.There are so many components, options,and configurations. Honeywell has madeit easy for you to identify what product andcomponents fit your needs the best.Sperian is now Honeywell.Supplied Air (SAR) Attachment OptionSupplied Air Attachment can be added to any SCBA. In this case, the SCBA cylinder is used for escape while working, if a pressure demand supplied air line has been interrupted. Buddy Breather Connection OptionA Buddy Breather gives the user the ability to share air with a rescuer “buddy” without having to disconnect the second stage regulator.Carrying Case OptionsHard carrying case or soft carrying case is available. Communications OptionsTo keep your team connected, Honeywell offers a choiceof three best-in-class communications options.• T he Voice Amplification System (VAS)offers clear, local vicinity communicationwith push-to-talk or hands-free modes.• T he Hard-Wired Radio CommunicationSystem (RCS) offers clear communicationusing a wired interface cable.• T he CommCommand™ Wireless RadioCommunication System (RCS) is a superiorwireless system, utilizing a digital spreadspectrum for crystal-clear wirelessradio communication.• B oth the VAS and RCS are modular, stand-alone components.• T he streamlined design and integration of the RCS and VAS allow secure attachment to the TwentyTwenty®Plus facepiece.• N either the VAS nor RCS obstructs the user’speripheral vision.• W ired interface cables and wireless lapel mics are available for a large selection of common radio systems.Personal Alert Safety System (PASS) Options COMPASS™ Chest-Mounted Device – A highly accurate motion sensor alerts a “man down” situation. DoublePASS™ – A unique, patented back-mountedalarm that can be clearly heard and seen if the wearerfalls forward onto their primary PASS device.ThermAlert™ – Heat alarm that sounds when exposure to heat over time matches a predetermined time-temperature curve.Other AccessoriesAPR Adapter – Provides air purifying capability without having to change facepieces. Attaches to the TwentyTwenty® Plus facepiece in a matter of seconds and provides users with the versatility of using the SCBA facepiece as an APR facepiece. Spectacles Kits – Allows anyone who uses a full facepiece respirator to use prescription eyeglasses inside the facepiece without compromising the seal. Honeywell offers two solutions.• S tandard – Offers traditional metal-framed eyeglassesthat fit inside the TwentyTwenty Plus facepiece.• N exSpex™ – Offers a plastic frame that can be removed from the TwentyTwenty Plus facepiece and attached tothe user’s head with elastic straps.CommunicationsOptionsCommCommand RCSVoice Amplification Systemwith Spectacles KitEvery SCBA contains a variety of these components with different features and benefits. The next section will discuss the SCBA models available and the differences of each.Sperian is now Honeywell.Survivair Puma – Compliance/Standard Industrial UnitThe Survivair Puma (based on the Survivair Cougar platform) is aNIOSH-certified, OSHA-compliant, hooded pressure demand SCBA de-signed for users with street glasses or facial configurations that are hardto fit with a conventional facepiece.Honeywell has two main SCBA platforms for Industrial SCBAs, the Survivair Cougar ™/Survivair Puma ™ SCBA and the Survivair Panther ® SCBA.2Provides protection from these unforeseen circumstances in the industrial market.Lightweight, easy to use, comfortable. auto darkening 9-12 shade or fixed 10 shade lens.524Survivair Panther HUD (2002-Style) – Premium UnitThe Survivair Panther HUD (2002-style) is a premium industrial SCBAdesigned for users requiring a NIOSH-certified SCBA for industrialhigh-heat, flashover or non-fire-related applications with standardHeads-Up Display and RIC/UAC.Added upgrades can be chosen on the Panther HUD as well, such ascommunication systems, supplied air attachment, COMPASS PASSdevice and analog pressure gauge options.The Survivair Panther (1997-Style) is a mid-tier industrialSCBA designed for users requiring a NIOSH-certifiedSCBA for high-heat, flashover or non-fire-relatedapplications. Offered with upgradable options suchas communication systems, supplied air attachment,COMPASS ™ PASS device and welding options.132Sperian is now Honeywell.888888 – Compliance Industrial SCBA – Low Pressure, 30-Minute Survivair ® Cougar SCBA (stocked item). Survivair Cougar 2216 psig, TwentyTwenty Plus medium facepiece, bell alarm, 2216 psig 30-minute aluminum cylinder without locking collar.555555 – Compliance Industrial SCBA – High Pressure, 60-Minute Survivair Cougar SCBA (stocked item). Survivair Cougar 4500 psig, TwentyTwenty Plus medium facepiece, bell alarm, 4500 psig 60-minute carbon cylinder without locking collar.481121 – Compliance Industrial SCBA – Low Pressure, 30-minute SCBA with SAR (stocked item).Survivair Cougar 2216 psig, TwentyTwenty Plus medium facepiece, bell alarm, 2216 psig 30-minute aluminum cylinder without locking collar, SAR attachment with Hansen Couplings carrying case.483121 – Standard Industrial SCBA with SAR – Low Pressure, 30-Minute S urvivair Cougar SCBA.Survivair Cougar 2216 psig, TwentyTwenty Plus medium facepiece, bell alarm, 2216 psig 30-minute carbon cylinder without locking collar, SAR attachment with Hansen couplings, carrying case.486121 – Standard Industrial SCBA with SAR – High Pressure, 30-Minute Survivair Cougar SCBA. Survivair Cougar 4500 psig, TwentyTwenty Plus medium facepiece, bell alarm, 4500 psig 30-minute carbon cylinder without locking collar, SAR attachment with Hansen couplings, carrying case. 777777 – Compliance Industrial SCBA – Low Pressure, 30-Minute Survivair Puma SCBA (stocked item).Survivair Puma 2216 psig, Survivai r Puma hood with medium nose cup, plain whistle alarm, 2216 psig 30-minute aluminum cylinder without locking collar.471281 – Compliance Industrial SCBA – Low Pressure, 30-Minute Puma SCBA.Survivair Puma 2216 psig, Survivair Puma hood with medium nose cup, plain whistle alarm, 2216 psig 30-minute aluminum cylinder without locking collar, SAR attachment with Hansen couplings, carrying case.476281 – Standard Industrial SCBA with SAR – High Pressure, 30-Minute Survivair Puma SCBA.Survivair Puma 4500 psig, Survivair Puma hood with medium nose cup, plain whistle alarm, 4500 psig 30-minute carbon cylinder without locking collar, SAR attachment with Hansen couplings, carrying case.491121 – Mid-Tier Industrial SCBA – Low Pressure, 30-Minute SCBA.1997-style Panther 2216 psig, TwentyTwenty Plus medium facepiece, bell alarm, 2216 psig 30-minute aluminum cylinder without locking collar, SAR attachment with Hansen couplings, carrying case.493121 – Mid-Tier Industrial SCBA with SAR – Low Pressure, 30-Minute SCBA.Survivair 1997-style Panther 2216 psig, TwentyTwenty Plus medium facepiece, bell alarm, 2216 psig 30-minute carbon cylinder without locking collar, SAR attachment with Hansen couplings, carrying case.499121 – Mid-Tier Industrial SCBA with SAR – High Pressure, 60-Minute SCBA.Survivair 1997-style Panther 4500 psig, TwentyTwenty Plus medium facepiece, bell alarm, 4500 psig 60-minute carbon cylinder without locking collar, SAR attachment with Hansen couplings, carrying case.496324 – Premium Industrial SCBA with HUD and SAR – High Pressure,30-Minute SCBA.Survivair 2002-style Panther 4500 psig, TwentyTwenty Plus medium facepiece,warbling whistle, 4500 psig 30-minute carbon cylinder without locking collar, HUD,analog gauge, SAR/buddy breather dual port attachment with Hansen couplings,chest strap, left and right D-rings, carrying case.Survivair Panther (1997 Style) SCBA Survivair Cougar SCBAHoneywell offers pre-configuredand stocked SCBAs for ease ofordering. Honeywell SCBAs mayalso be custom configured to fityour application and needs.How to Order a Honeywell Survivair ® SCBA Survivair Puma ™SCBAS elect SCBA Platform• S urvivair Cougar SCBA – Compliance/StandardIndustrial SCBA• S urvivair Puma SCBA – Compliance/Standard Hood Industrial SCBA• Survivair Panther (1997-Style) – Mid-Tier Industrial SCBA• Survivair Panther HUD (2002-Style) – Premium Industrial SCBA Select the System Pressure• Low Pressure• High PressureSelect Alarm Type• Bell• Plain Whistle• Warbling WhistleS elect Cylinder Type and Duration (pressureis determined by what system pressure was chosen)• High Pressure or Low Pressure• A luminum, Hoop-Wrapped Fiberglassor Fully Wrapped Carbon• 30-Minute• 45-Minute (only available in high pressure)• 60-Minute (only available in high pressure)Select Facepiece• Small, Medium, Large• 5-pt. silicone headstrap or Kevlar mesh headnetSelect Options if Desired Harness Options• Chest Strap• Utility D-RingsSupplied Air (SAR)/ Buddy Breather Attachment• S ingle Port(SAR/Buddy Breathing Connection – CANNOT be used simultaneously)• D ual Port(SAR/Buddy Breathing Connection – both can be used simultaneously)PASS (Personal Alert Safety System)• COMPASS• DoublePASS• ThermAlert Heat AlarmCommunication Systems• Voice Amplification System (VAS)• Hard-Wired Radio Communication System (RCS)• C ommCommand™ Wireless Radio Communication System (RCS)Carrying Case• Black hard caseSelect Spare Cylinders• Choose type and durationGeneral Facepiece Accessories• APR Adapter• Spectacles KitRefer to the Honeywell Selection and Ordering Guide for specific part numbers or contact your local Honeywell Safety Products representative for assistance.12 3 45678Sperian is now Honeywell.。

Portfolio of ProductsThermal Interface Materials for Today's ElectronicsKEEP COOL – PERFORM BETTER.As an advanced materials supplier, Honeywell hasbeen meeting the application needs of electronic device manufacturers for more than 50 years, and we continue to provide vital materials for thermal management solutions across multiple industries.HONEYWELLTHERMAL INTERFACESOLUTIONSOVERVIEWSELECTION GUIDECONTENTSOverview Selection Guide3Honeywell Strength & Advantages 4Targeted Materials 5Phase Change Materials 6Thermal Gap Pads 8Thermal Putty Pads 10Thermal Insulators 11Thermal Grease 12One-Part Hybrid 14Two-Part Hybrid 16SOLVING INCREASINGTHERMAL CHALLENGES FOR TODAY AND TOMORROWOur ongoing investment in research for more advanced materials has resulted in breakthroughs for key applications: thermal interface materials (TIMs) such as phase change materials, and low alpha particle materials for electrical interconnect.The modern electronics industry is constantly advancing toward higherpower consumption and more integratedHoneywell TIMs are based on proprietary technologies of polymer matrices andthermally conductive fillers, enabling them to handle challenging heat dissipation issues with long-term reliability and low cost of ownershipfunctions and miniaturization, resulting in a sharp increase in the power density of modern electronic devices. In fact, we have entered the era of 5G.Therefore, efficient heat dissipation has become an even more critical requirement for the design of modern electronic packages. Thermal interface materials (TIMs) are widely employed to manufacture the most critical parts in the heat dissipation system, to cool and protect integrated circuit (IC) chips.A FOUNDATION OF EXPERTISEHoneywell's commitment to advanced materials research is evidenced by its three global centers for excellence in the US and China.Whether adapted from our extensive portfolio of proven materials, or created for a specific customer, all Honeywell products undergo rigorous research, testing and quality control protocols.For over half a century, Honeywell has been a keysupplier to the worldwide electronics industry, providing critical materials to enhance the performance and reliability of our customers’ products.HONEYWELL STRENGTHDETERMINING YOUR TIM REQUIREMENTSThe role of Thermal Interface Materials is to dissipate heat as quickly and effectively as possible from the device. But not all devices are the same. Requirements are driven by product use, product life cycle, packaging design, and operating conditions.Thermal PerformanceIncreasing power densities are raising device temperatures — requiring more effective TIM solutions that mustdeliver low thermal impedance and high bulk conductivity. Reducing operating temperature can reduce device throttling, while increasing efficiency and design flexibility.Product Life Cycle & Reliability Mobile products such as tablets and smartphones have a relatively short product life, but still require thermalmanagement to protect from extreme and sudden bursts of energy and temperature spikes.Conversely, automotive, power and server products must remain robust for significantly longer product life cycles.These applications involve harsh operating conditions such as extreme heat and humidity, which must be taken intoaccount in choosing the best TIM material. The key requirement in these applications is not just immediate performance but also sustained, long-term thermal stability.Gaps & Bondline ThicknessIC designers are continually looking for ways to achieve more processing power in less space. Additionally, high power devices with dedicated heat sinks aim to achieve an extremely thin TIM bond line with low thermal impedance and a reduced thermal path. To add to the complexity, chip-scale packages assembled on a PC board will share the same heat spreader but will have different heights with varying gaps, requiring a TIM that delivers both thermal and compressible properties. Taking all this into consideration, it is important for today’s TIMs to provide effective thermal management inincreasingly constrained environments and different assembly designs.TARGETED MATERIALSOUR APPROACHWe have designed our products to optimize thermal impedance. This means that we look at the entire thermal path, not just the TIM itself. This includes the material interfaces, the thermal expansion of the joining interfaces, contact resistance and bond line thicknesses.Our portfolio of materials dissipate heat away from the IC, in an appropriate way for the device structure, packaging design and application. The design of Honeywell’s phase change materials (PCMs) is drivenIn addition to our phase change materials, we offer a variety of products with high thermal conductivity and high compress-ibility, including thermal gap pads, Thermal Hybrid, thermal grease, thermal insulators, and more.Honeywell’s application support experts can help you choose the correct thermal interface solutions for your product — taking into account its design, usage and life cycle.by an innovative polymer technology and advanced filler systems, which can be customized to fit diverse product applications and end uses.Smartphones and tablets experience sudden temperature spikes, requiring very high thermal performance, while power electronics in automobiles need extreme thermal stability to meet warranties that stretch over long lifetimes. Our TIMs portfolio is designed to meet these varying needs and more.Honeywell’s research and development center in Shanghai, China.THERMALPHASE CHANGE MATERIALSPhase change materials (PCM) are often used as matrix materials for thermal interface applications, because they aresolid at room temperature, and soften when heated. They can fully fill the gaps of contact surfaces, therefore providing a thin bondline and high reliability without pump-out issues.Recommended ApplicationClamping pressure and temperature aresuggested to achieve a minimum bondline thickness, typically less than 1.5 mil(0.038mm) for best thermal performance.Storage & UseShelf Life: 12 months at 23±2˚CAvailabilityPCM material is available in both sheetand roll formats. Stencil printable (SP)material is available in 300cc syringesor 1kg jars.Thickness Range: 0.2mm–1.0mm(PTM7950 is only available in 0.25mmthickness)Thickness Tolerance:±0.075mmTYPICAL PROPERTIESPROPERTYDESCRIPTIONLTMSERIESPCM45FSERIESPTM5000SERIESPTM6000SERIES*PTM7000SERIESTESTMETHOD*PTM6000 ha s higher reliab ility than PTM5000 SeriesIncreasing TemperatureTheoretical Curve:PCM Viscosity vs. TemperatureViscosity Solid Liquid/Gel State• Optimal surface wetting• Low contact resistance• Low thermal impedancePhase ChangeTemperaturePCM PERFORMANCETHERMALLY CONDUCTIVEPHASE CHANGE MATERIALFor many applications, the Honeywellsolution, which adds a TC filler to the PCMmatrix, forms a phase change compositewith high heat transfer performance thatsolves these pump-out issues.Honeywell offers both pad and pasteformats for its thermally conductive PCM.These products were designed to minimizethermal resistance at interfaces andmaintain stable performance through therigorous reliability testing required for longproduct life applications.Based on a robust polymer PCM structure,this material exhibits effective wettingproperties during typical operatingtemperature ranges, resulting in very lowsurface contact resistance. The proprietarymaterial provides superior reliability andmaintains low thermal impedance, makingPCM desirable for high-performanceintegrated circuit devices.Honeywell offers PCM in both padand paste formats.For almost 20 years, PCM products havebeen a Honeywell mainstay for thermalsolutions in a wide variety of applications.PCM paste is well-suited for the stencilprinting application process.THERMAL GAP PADSHoneywell Thermal Gap Pads (TGPs) provide high thermalperformance with ease of use for many applications. Ultra-high compressibility enables low stress and excellent conformity to mating surfaces. Honeywell TGP models are naturally tacky, and require no additional adhesive which could inhibit thermal performance.1Typical ValueTHERMALLY CONDUCTIVE, HIGH BREAKDOWN VOLTAGE GAP PADTGP8000HV is a Thermal Gap Pad which offers a strong combination of low thermal impedance, high breakdown voltage and ease of use across a widevariety of applications. The naturally tacky property means there is no need for an additional adhesive, which could inhibit thermal performance. Available formats for TGP8000HV include standard sheets and custom die-cut parts in a range of thicknesses.Applications & FeaturesIn addition to the features of the TGP1200- TGP8000 line, TGP8000HV is effective for applications that require high break-down voltage.TGP8000HV TYPICAL PROPERTIESPROPERTYTGP8000HV TEST METHODTHERMALLY CONDUCTIVE, HIGH COMPRESSIBILITY GAP PADHoneywell TGP models provide thermal performance with ease of use across a multitude of applications. They have been designed to minimize thermal resistance at interfaces, and maintain effective performance through reliability testing. TGP models are silicone based, therefore they offer a certain anti-shock effect, with electrical isolation and non-flammability.Honeywell TGP models are naturally tacky, and require no additional adhesive which could inhibit thermal performance. A range of thicknesses from 0.5mm to 5.0mm are available. Honeywell TGP models come with two surface liners, which enables users to remove the liner after installation (before operation), with no contaminantrisk and easier handling.Storage & UseShelf Life: 12 months at 23±2˚C Thickness Range:0.5-5.0mm with 0.25mm incremental Thickness Tolerance:>1mm, ±10%0.5-1mm, ±0.1mm <0.5mm, ±0.05mmPlease check thickness availability before ordering.Honeywell TGP model gap pads are available in standard sheets and also custom die-cut parts, and in a range of thicknesses.Two surface liners enable easier handling with less contamination risk.2Thickness range: 0.5-5.0mm with 0.25mm incremental Low hardness provides excellent surface wetting and high compressibility.The low oil-bleeding property protects components from contamination.THERMALPUTTY PADSTYPICAL PROPERTIESPROPERTYTGP 3500PTTGP 6000PTTGP 8000PTTEST METHODTHERMAL INSULATORSHIGH THERMAL CONDUCTIVITY, ELECTRICAL INSULATIONTIP1500 combines 1.5 W/m·K, and TIP3500 combines 3.5 W/m·K thermal conductivity, with superior insulation. TIP1500 and TIP3500 are designed to be soft and conformal, which providesexcellent mating surfaces for low-pressure mounting. TIP1500 is offered in 0.19 and 0.23mm thickness. TIP3500 available thicknesses range from 0.25mm to0.50mm.The TIP series provides low thermal impedance and high insulation for highpower and high voltage applications.TYPICAL PROPERTIESPROPERTYTIP1500TIP3500TEST METHODStorage & UseShelf Life: 12 months at 23±2˚CConfigurations AvailableSheet form and die-cut partsHoneywell Thermally Conductive Putty Pads provide high thermal performance and solid thermal reliability. The material’s putty-like consistency enables excellent gap-filling capability for applications with large dimensional variances.HIGH THERMAL CONDUCTIVITY, HIGH COMPRESSIBILITY, THERMAL PUTTY PADSpecial surface reinforcement enables easier handling for operators, with no pull-out during high-volume assembly. The product is naturally tacky and requires no additional adhesive to mate to the heat source and heat sink. Thermal putty pads are available in thicknesses ranging from 0.5mm to 5.0mm.Storage & UseShelf Life: 12 months at 23±2˚CTIP1500, TIP3500The TIP series is Honeywell’s latest high-performance thermal conductivity and insulation material. It is made with silicon resin as the matrix, reinforced with glass fiber as the substrate.TGP putty pad materials are ideal for applications with large dimensional variations between surfaces.1Thickness range: 0.5-5.0mm with 0.25mm incremental 2Thickness tolerance: TIP1500: ±0.01mm, (±0.02mmTHERMAL GREASEHoneywell silicone grease products provide superiorthermal performance with ease of use across a multitude of applications. The low viscosity and inherent thixotropy make the technology a good fit for large-scale production with dispensing, screen printing and stencil printing.TYPICAL PROPERTIESPROPERTYTG2000ITG2800ITG3000TG3000I TG4000TG5500TEST METHODHIGH THERMAL CONDUCTIVITY THERMAL GREASEThermal Grease is a common silicone thermal interface material, usually used to increase thermal contact conductance across jointed solid surfaces. Thermal interface materials occupy the space of air (a very poor thermal conductor) and fill in the gaps between two solid surfaces. This establishes an effective thermal path between a heat-generating component and a heat sink attached to it, therefore greatly increasing thermal transfer efficiency.Silicone thermal grease is a composite containing silicone and inorganic or metal nanomaterials with high thermal conductivity. Compared with thermal pads or liquid gap fillers, grease has the lower viscosity, and it can be used by dispense or screenprint, forming a thinner thermal conductivity layer with high thermal conductivity performance.Honeywell thermal greases are designed to minimize thermal resistance at inter-faces, and maintain excellent performance through reliability testing. TG seriesproducts are offered with varying thermal impedance and thermal conductivityproperties to complement different power densities in real applications. Products are also available in a range of bondline thicknesses (BLT) to meet variations ininterface flatness.Storage & UseShelf Life: 12 months at 23±2˚CLow viscosity and excellent thixotropy make thermal grease appropriate for large-scale production.Honeywell thermal grease remainsstable under room temperature storage.Packaging availability:0.5kg can, 1kg can, 5 gallon pailONE-PART, DISPENSABLE, VERY LOW COMPRESSION FORCE, THERMAL HYBRID Hybrid is a substance between liquid and solid, combining the advantagesof thermal grease and thermal gap pad, without the potential problems of either. Thermal Hybrid is prepared as a silicone polymer, with low molecular siloxane, and mixed with high thermal conductivity particles (such as alumina, aluminum nitride powder, etc.).Compared with thermal grease, the main difference is that thermal Hybrid does not present oil separation issues while in storage, and the Hybrid can be torn offand reused. Thermal Hybrid only needsa relatively low working pressure whenconnected with heat sink and chip, andhas a wide working temperature range.The HT series, our one-part Gap Filler,provides effective thermal propertiesand high conformability along with itshigh compressibility. It is formulated todeliver high dispense rates for improvedproductivity, long-term reliabilityperformance and easy re-workability. It isdesigned to minimize thermal resistanceat interfaces, maintain its performancethrough reliability testing, and providescalable application at a competitivecost. All HT series products are availablein 280cc aluminum cartridge, and 1 and5-gallon pail.Thermal conductivity liquid gap fillers not only have the benefitsof shape recovery, strong material cohesion, and good long-term thermal stability — they also offer a very low thermal resistance comparable to thermal grease, and can fill gaps at interfaces.*Contact Hon eywell for late st information.One-part thermal Hybrid offer gooddispensing and thixotropy propertiesfor automated assembly processes.Honeywell’s thermal Hybrid materialsprovide good surface wetting withoutslump after dispensing.A large selection of packaging options isavailable for our one-part and two-partthermal Hybrid products.Hybrid thermal interface materialsoffer a variety of options for dispensing methods, depending on the application.HLT series products are two-component, dispensable thermally conductive gels, which offer long-term reliability and superior softness. The enhanced bonding force between the polymer base and the filler minimizes oil separation issues in storage.TWO-PART, DISPENSABLE, VERY LOW COMPRESSION FORCE, THERMAL HYBRIDPrior to curing, the material maintains good thixotropic characteristics and low viscosity to be easily dispensed.The product can be cured in a short time after two-component mixing at room temperature. The high compressibilityminimizes thermal resistance at interfaces, while maintaining excellent performanceduring reliability testing.The recommended modified viscosity and cure schedule meets large-scale application requirements.*Contact Hon eywell for late st information . ** Brookfield Viscometer, #7 spindle, 10r pmStorage & UseShelf Life: 6 months at 23±2˚CAvailabilitySyringes—200+200cc Jar—1+1gal, 5+5gal On requestState-of-the-art two-part Hybrid with high thermal conductivity for high power density applications.DEVELOPMENT ANDMANUFACTURING LOCATIONSUnited StatesSanta Clara, California Sunnyvale, California Spokane, Washington Chandler, Arizona Salt Lake City, Utah Bryan, Texas Mansfield, TexasFombell, PennsylvaniaEuropeSeelze, GermanyAsiaShanghai, China Jincheon, Korea Yaita, JapanChonburi, ThailandHONEYWELL ADVANTAGES Quality• Industry-leading reliability over device lifetime• More than twenty years specializing in TIM materials R&D and manufacturing • Proprietary formulations optimized for the needs of specific applications • Proven, long-standing supplier with multiple worldwide quality certificationsCustomer Focused• Serving diverse range of customers • TIMs offered in a wide range of thermal conductivity and application forms • Superior global technical support • Portfolio of other materials, such as thermal spreaders, electrical interconnect and pure metalsEEE EResearch & Development Site Manufacturing SiteGLOBAL SUPPORTFor More Information Honeywell Electronic Materials USA: 509.252.2102China: 400.840.2233 Germany: 49.5137.999.9199 Japan: 81.3.6730.7092 Korea: 82.2.3483.5076 Singapore: 65.6580.3593 Taiwan: 886.3.6580300 ext.312Although all statements and information contained hereinare believed to be accurate and reliable, they are presented without guarantee or warranty of any kind, express or implied. Information provided herein does not relieve the user from the responsibility of carrying out its own tests and experiments, and the user assumes all risks and liability for use of the information and results obtained. Statements or suggestions concern-ing the use of materials and processes are made without representation or warranty that any such use is free of patent infringement and are not recommendations to infringe any patent. The user should not assume that all toxicity data and safety measures are indicated herein or that other measures may not be required.Brochure 10-2019-R1©2019 Honeywell International Inc.。

WEBs 应用手册关于霍尼韦尔霍尼韦尔是一家《财富》全球500 强的高科技企业。

我们的高科技解决方案涵盖航空、汽车、楼宇、住宅和工业控制技术，特性材料，以及物联网。

我们致力于将物理世界和数字世界深度融合，利用先进的云计算、数据分析和工业物联网技术解决最为棘手的经济和社会挑战。

在中国，霍尼韦尔长期以创新来推动增长，贯彻“东方服务于东方”和“东方服务于全球”的战略。

霍尼韦尔始创于1885 年，在华历史可以追溯到1935 年，在上海开设了第一个经销机构。

目前，霍尼韦尔四大业务集团均已落户中国，上海是霍尼韦尔亚太区总部，在华员工人数约11,000 人。

同时，霍尼韦尔在中国的30 多个城市拥有50 多家独资公司和合资企业，其中包括20 多家工厂，旨在共同打造万物互联、更智能、更安全和更可持续发展的世界。

欲了解更多公司信息，请访问霍尼韦尔中国网站www. ,或关注霍尼韦尔官方微博和官方微信。

霍尼韦尔霍尼韦尔智能建筑科技集团我们在全球拥有23,000 多名员工。

我们的产品、软件和技术已在全球超过1,000 万栋建筑中使用。

我们的技术确保商业楼宇业主和用户的设施安全、节能、具有可持续性与高生产力。

霍尼韦尔智能建筑科技集团深耕中国40 多年来，参与了30 多个城市的150 多条地铁的建设，为500 多座机场的智慧和安全保驾护航，为600 多家酒店提供智能管理系统，为1000多家医院提供了数字化解决方案。

目录第一部分 (4)霍尼韦尔智慧楼宇系统架构示意图 (4)霍尼韦尔智慧能源管理解决方案 (6)WEBs N4管理软件 (9)霍尼韦尔智慧触控屏 (13)第二部分 (17)系统控制器 WEB 8000 系列 (17)系统控制器 WEB 8000 VAV 专用系列 (21)边缘数据管理器 (24)增强型可编程通用控制器 (27)可编程通用控制器 (30)可编程通用控制器扩展模块 (33)BACnet 可编程通用 / VAV 控制器 (36)Lonworks 可编程通用 / VAV 控制器 (39)VAV 控制器 (43)BACnet 通用控制器 (46)Sylk TM I/O 扩展模块 (49)MVCweb 控制器 (52)UB系列独立控制器 (55)第三部分 (59)房间温控单元 (59)变风量末端墙装模块 (63)WTS3/6 系列温控器 (65)WTS8/9 系列温控器 (69)WS9 系列墙装模块 (73)建筑网络适配器 (76)智能电表 (78)4Ethernet / LANBACnet MS/TP Modbus RTU LonworksKNXSylk BusLightingModbus TCP BACnet IPBACnet IPAlarm Console clientWEB 8000 Web ControllerWEBStation Supervisor智慧触控屏Sylk I/O ModuleLonworks Spyder边缘数据管理器Spyder Universal ControllerPUC BACnet MS/TP Controller霍尼韦尔智慧楼宇系统架构示意图系统示意图仅用于显示设备在系统中的层次关系以及支持的通讯协议具体配置细节请结合实际项目情况，联系霍尼韦尔技术工程师进行架构设计5ElectricitySubmeterBACnet IPBACnet IPHTTPs , BACnet IP , oBIX , SNMP , …WEBs Enterprise Security WEBs Energy AnalyticsHAQ61增强型 BACnet IP ControllerFCU Wall ModuleVAV Controller EM Bus I/O ModuleSylk Bus Wall Module增强型 BACnet IP ControllerEM Bus6霍尼韦尔智慧能源管理解决方案智能高效，机器自学习功能准确分析，快速发现能耗异常功能全面，基于能耗大数据采集、趋势分析、评估诊断和流程控制的闭环管理功能数据准确，具有180多年计量仪表生产、安装与服务的专业知识灵活易用，云平台或本地部署灵活配置和迁移，操作简便扩展性好通过能源可见性、积极应对能耗异常和提高管理人员参与度，用户可以:★ 避免能耗异常波动★ 确保节能投资的投资回报率(ROI)符合预期★ 提高管理效率和降低运营成本研究显示，更多的企业为合规地实现节省成本、提高效率，越来越关注能源管理系统。

安全鞋十大品牌一、引言安全鞋是一种特殊的鞋类，旨在保护工人在工作场所中的脚部安全。

随着工业发展和安全意识的提高，安全鞋的需求不断增加。

本文将介绍十大安全鞋品牌，包括其品牌背景、产品特点以及市场口碑等信息。

二、十大安全鞋品牌1. A品牌A品牌是一家历史悠久的安全鞋制造商，成立于20世纪60年代。

该品牌以其卓越的品质和创新的设计而闻名，产品涵盖了各种行业的需求，如建筑、制造业等。

其安全鞋采用高级材料制造，具有耐磨、防滑和防静电等特点。

2. B品牌B品牌是一家国际知名的安全鞋制造商，成立于20世纪80年代。

该品牌注重科技创新，不断推出符合市场需求的新款产品。

其安全鞋采用先进的材料和技术，具有防水、透气和防刺穿等特点，受到广大用户的青睐。

3. C品牌C品牌是一家年轻而有活力的安全鞋品牌，成立于21世纪初。

该品牌致力于为年轻工人提供时尚而实用的安全鞋。

其安全鞋设计独特，颜色多样，适合多种工作场景。

同时，该品牌注重舒适度和耐用性，以确保用户的脚部安全。

4. D品牌D品牌是一家专注于特殊行业的安全鞋制造商，如矿业、油田等。

该品牌的安全鞋经过严格的测试和认证，具有抗冲击、耐高温和耐化学品腐蚀等特点。

其产品广泛应用于危险环境，为工人提供全方位的脚部保护。

5. E品牌E品牌是一家注重环保和可持续发展的安全鞋制造商。

该品牌的安全鞋采用环保材料制造，符合国际标准和认证要求。

其产品具有舒适度高、重量轻和耐用性好等特点，受到环保意识较强的用户的青睐。

6. F品牌F品牌是一家国内领先的安全鞋制造商，成立于20世纪90年代。

该品牌的安全鞋以其卓越的品质和合理的价格而受到用户的喜爱。

其产品涵盖了各种类型的安全鞋，如防静电鞋、防刺穿鞋等，满足不同行业的需求。

7. G品牌G品牌是一家注重创新和设计的安全鞋品牌，成立于21世纪初。

该品牌的安全鞋外观时尚，符合年轻人的审美需求。

同时，其产品具有防滑、防磨损和防静电等功能，为用户提供全面的脚部保护。

安全鞋十大品牌一、引言安全鞋是一种用于保护工人脚部安全的特殊鞋类产品。

随着工业发展和劳动保护意识的提高，安全鞋在各行各业得到广泛应用。

在市场上，有许多品牌提供安全鞋产品，本文将介绍十大知名的安全鞋品牌。

二、品牌一：XX安全鞋XX安全鞋是一家专注于生产高品质安全鞋的知名品牌。

他们采用先进的技术和高质量的材料，确保产品的舒适性和耐用性。

他们的安全鞋符合国际标准，并通过了严格的质量检测。

三、品牌二：XX防护鞋XX防护鞋是一家专业生产防护鞋的品牌。

他们的产品设计独特，注重细节，能够提供全方位的脚部保护。

他们的安全鞋具有防滑、耐磨、防静电等特点，适用于各种工作环境。

四、品牌三：XX工装鞋XX工装鞋是一家专门生产工装鞋的品牌。

他们的产品款式多样，适用于不同行业的工人。

他们的安全鞋采用高强度材料制作，具有耐用性和防护性能。

五、品牌四：XX安全运动鞋XX安全运动鞋是一家将时尚和安全结合的品牌。

他们的安全鞋外观时尚，符合现代人的审美需求，同时也具备安全性能。

他们的产品适用于户外工作和运动场所。

六、品牌五：XX特种鞋XX特种鞋是一家专注于生产特种鞋的品牌。

他们的安全鞋适用于特殊工作环境，如高温、低温、化学品接触等。

他们的产品经过严格的测试和认证，能够提供高度的保护。

七、品牌六：XX防静电鞋XX防静电鞋是一家专业生产防静电鞋的品牌。

他们的产品具有良好的防静电性能，能够有效防止静电引起的安全事故。

他们的安全鞋适用于电子、半导体等行业。

八、品牌七：XX防刺鞋XX防刺鞋是一家专门生产防刺鞋的品牌。

他们的产品采用高强度材料制作，具有防刺、防穿刺的特点，能够保护工人的足部安全。

他们的安全鞋适用于需要防刺保护的行业。

九、品牌八：XX防滑鞋XX防滑鞋是一家专业生产防滑鞋的品牌。

他们的产品采用特殊的防滑材料制作，能够提供优异的防滑性能。

他们的安全鞋适用于湿滑地面和油脂环境下的工作。

十、品牌九：XX防化鞋XX防化鞋是一家专注于生产防化鞋的品牌。

安全鞋十大品牌一、引言安全鞋是一种专门为工作环境提供保护的鞋类产品，广泛应用于建造、创造业、物流等行业。

在市场上，有许多品牌提供安全鞋，本文将介绍安全鞋领域的十大品牌，包括它们的历史、产品特点、市场份额等信息。

二、品牌一：ABC安全鞋1. 历史：ABC安全鞋成立于2005年，是安全鞋行业的领导品牌之一。

2. 产品特点：ABC安全鞋采用最新的技术和材料创造，具有防滑、防刺穿、防静电等多种功能。

3. 市场份额：ABC安全鞋在国内市场占有较大份额，产品畅销国内外。

三、品牌二：XYZ安全鞋1. 历史：XYZ安全鞋创立于1990年，是一家历史悠久的安全鞋品牌。

2. 产品特点：XYZ安全鞋以舒适性和耐用性著称，采用高品质材料创造，适合于各种工作环境。

3. 市场份额：XYZ安全鞋在国内市场具有较高的知名度，受到泛博消费者的爱慕。

四、品牌三：123安全鞋1. 历史：123安全鞋成立于2022年，是一家新兴的安全鞋品牌。

2. 产品特点：123安全鞋注重创新设计，产品外观时尚，同时具备良好的防护功能。

3. 市场份额：123安全鞋在市场上逐渐崭露头角，受到越来越多消费者的关注。

五、品牌四：DEF安全鞋1. 历史：DEF安全鞋创立于1985年，是一家历史悠久的安全鞋创造商。

2. 产品特点：DEF安全鞋以其出色的耐磨性和防水性能而闻名，适合于各种恶劣的工作环境。

3. 市场份额：DEF安全鞋在国内外市场都有一定的份额，深受消费者的认可和信赖。

六、品牌五：456安全鞋1. 历史：456安全鞋成立于2022年，是一家专注于高端安全鞋生产的品牌。

2. 产品特点：456安全鞋注重细节和工艺，产品精致而耐用，广受专业人士的好评。

3. 市场份额：456安全鞋在高端市场上占有一席之地，是许多专业人士的首选品牌。

七、品牌六：GHI安全鞋1. 历史：GHI安全鞋创立于1998年，是一家具有丰富经验的安全鞋创造商。

2. 产品特点：GHI安全鞋以其出色的防滑和防静电性能而受到消费者的青睐。

Piezoresistive pressure transducerModel 8510B -1, -2, -5Key features•1, 2 and 5 psig ranges•300mV full scale output• Rugged, miniature• GageModel 8510B is a rugged, miniature, high sensitivity piezoresistive pressure transducer. It has a10-32 mounting thread, 0.15 inch (3.8 mm) face diameter and is available in ranges from 1 psi to2000 psi. Low pressure ranges are shown on this sheet. Its high sensitivity combined with highresonance makes it ideal for measuring dynamic pressure.Endevco pressure transducers feature a four-active arm strain gage bridge diffused into a uniquesculptured silicon diaphragm for maximum sensitivity and wideband frequency response. Self-contained hybrid temperature compensation provides stable performance over the temperaturerange of 0°F to 200°F (-18°C to +93°C). Endevco transducers also feature excellent linearity (evento 3X range), high shock resistance, and negligible sensitivity to temperature transients.8510B is designed for a wide variety of aerospace, automotive and industrial measurements whichrequire a combination of small size, high sensitivity, and wideband frequency response. Its vent tubemay be connected to a standard reference manifold or used for differential pressure measurements.8510B is available with metric M5 x 0.8 mounting thread as 8510B-XM5 on special order.Recommended electronics for signal conditioning and power supply are models 126 and 136 general purpose three channelconditioners, ultra low noise 4430A conditioner, or the 436 (Oasis) multi-channel rack mount system.Piezoresistive pressure transducerModel 8510B -1, -2, -5SpecificationsThe following performance specifications conform to ISA-RP-37.2 (1964) and are typical values, referenced at +75˚F (+24˚C) and 100 Hz, unless otherwise noted. Calibration data, traceable to National Institute of Standards and Technology (NIST), is supplied.Dynamic characteristics Units -1 -2 -5Range [1] psig 0–10–20–5Positive sensitivity [2] mV/psi 200 ±50100 +55/-2560 ±20Combined: non-linearity, non-repeatability,pressure hysteresis [3] % FSO RSS max 1.50 1.50 0.75Non-linearity, independent % FSO typ 1.0 1.0 0.5Non-repeatability % FSO typ 0.2 0.2 0.1Pressure hysteresis % FSO typ 0.2 0.2 0.1Zero measurand output [4] mV max ±10 ±10 ±10Zero shift after 3X range ±% 3X FSO max 0.2 0.2 0.2Thermal zero shiftfrom 0˚F to +200˚F (-18˚C to +93˚C) ±% FSO max 3 3 3Thermal sensitivity shiftfrom 0˚F and +200˚F (-18˚C to +93˚C) ±% max 4 4 4Resonance frequency Hz 55 000 70 000 85 000Non-linearity at 3X range % 3X FSO 2.5 2.5 2.0Thermal transient response per psi/˚F 0.003 0.003 0.003ISA-S37.10, para. 6.7, procedure I psi/˚C 0.005 0.005 0.005Photoflash response [5] Equiv. psi 0.2 0.3 0.7Warm-up time [6] ms 1 1 1Acceleration sensitivity Equiv. psi/g 0.0002 0.0002 0.0002Burst pressure (diaphragm/reference side) [7] psi min 25/25 40/40 100/100ElectricalFull scale output 300 ±100 mV at 10.0 Vdc; 200 ±50 mV at 10.0 Vdc for 8510B-1Supply voltage [8] 10.0 Vdc recommended, 18.0 Vdc maximumElectrical configuration Active four-arm piezoresistive bridgePolarity Positive output for increasing pressure into (+) port (end with screen on it)ResistanceInput 2000 ±800 ohmsOutput 1500 ±600 ohmsIsolation 100 megohms minimum at 50 volts; leads to case, leads to shield, shield to caseNoise 5 microvolts rms typical, dc to 50 000 Hz; 50 microvolts rms maximum, dc to 50 000 Hz MechanicalCase material Stainless steel (17-4 PH CRES)Cable, integral 4 conductor No. 32 AWG T eflon® insulated leads, braided shield, silicone jacket, 30 ±3 in (760 ±76 mm)Dead volume (+) port 0.0003 cubic inches (0.005 cc)Mounting torque 10-32 UNF-2A threaded case 0.438 inch (11.12 mm) long/15 ±5 lbf-in (1.7 ±0.6 Nm)Weight 2.3 grams (cable weighs 9 grams/meter)Environmental characteristicsMedia [9] [10]Temperature [9] [10] -65˚F to +250˚F (-54˚C to +121˚C)Vibration 1000 g pkAcceleration 1000 gShock 20 000 g, 100 microsecond haversine pulseHumidity Isolation resistance greater than 100 megohms at 50 volts when tested perMIL-STD-202E, method 103B, test condition BCalibration data suppliedData supplied for all parameters in Certified Performance section. Optional calibrations available forall parameters in Typical Performance section.Piezoresistive pressure transducer Model 8510B -1, -2, -5ContactENDEVCO T el: +1 (866) ENDEVCO [+1 (866) 363-3826]Notes1. Pressure ranges can be considered bidirectional, e.g., an 8510B-200 can be used to measure + or -200 psig.Sensitivity in the positive direction is typically within 1% of sensitivity in the negitive direction. Sensitivity calibration provided with each unit is for the positive direction.2. 1 psi = 6.895 kPa = 0.069 bar .3. FSO (Full Scale Output) is defined as transducer output from 0 to full scale pressure, which is nominally 300 mV.4. Zero Measurand Output (ZMO) is the transducer output with 0 psig applied.5. Per ISA-S37.10, Para.6.7, Proc. II. The metal screen partially shields the silicon diaphragm from incidentradiation. Accordingly, light incident at acute angles to the screen generally increases the error by a factor of 2 or Warm-up time is defined as elapsed time from excitation voltage “turn on” until the transducer output is within ±1% of reading accuracy.6. Reference side pressure may be 300 psi on all ranges if differential limits (psid) are not exceeded.7. Please specify the excitation voltage you will use and we will calibrate at that voltage for highest accuracy. Seemodel definition.8. Internal seals are epoxy and are compatible with clean dry gas media. Media in (+) measurand port is exposed toCRES, nickel-iron alloy, Parylene C, epoxy, and the Viton ® O-ring media in (-) measurand port is exposed to the above and RTV silicone coating. For use in water or corrosive media, contact the factory for modifications and installation precautions which may be taken to extend service life.9. O-Ring, Endevco part number EHR93 Viton ®, is supplied unless otherwise specified on Purchase Order . Partnumber EHR96, Parker material L677-70, for leak tight operation below 0°F (-18°C) is available on special order 10. Maintain high levels of precision and accuracy using Endevco’s factory calibration services. Call Endevco’s insidesales force at 866-ENDEVCO for recommended intervals, pricing and turn-around time for these services as well as for quotations on our standard products.8510B - XXXX - YYY - EExcitation voltage (if no voltage is specified the default is 10 Vdc)A=2 Vdc, B=2.5 Vdc, C=3.3 Vdc, D=5 Vdc, E=7, F=7.5Cable length (if no dash number is specified the default is 30 inches)For lengths ≤ 10 ft specify 1 ft increments (12”, 24”...120”)For lengths ≤ 10 ft specify 5 ft increments (180”, 240”...etc)Pressure range (psig)-1, -2, -5Basic model numberModel definitionOther options M1 No vent tube M5 Metric thread M7 No screenM8 “A” screen, black grease - ITAR M11 “B” screenM37 Integral connector, no vent tube,hole on side M41 GelM43 “B” screen, black grease - ITARAccessories。

10080Product descriptionEaton’s Bussmann ® series 14 x 51 mm modular fuse holders are suitable for use with standard cylindrical fuse links and FW type ferrule fuse links.Their compact dimensions helps reduce space, allows for higher cable bending radius. Low watts loss and wide range of accessories make them ideally suited for most industrial applications.Standard features• Compact dimensions •Ventilation zones optimised for a better heatdissipation• I nbuilt padlocking facility • IP20 degree of protection (see details page 3)• Photovoltaic version rated at 1500 V d.c. (IEC only) for use with gPV fuse links • Flexibility to mount on DIN-Rail and/or screw mounting•Toolless DIN-Rail mounting, improves ease of use and reduces installation time and costs.14 x 51 mm Modular fuse holdersBUSSMANNSERIESTechnical Data 10080Effective October 201714 x 51 mm Modular fuse holdersEATON •Mounting 35 mm DIN-Rail or 2 x M4 panel mounting screws •Self-extinguishable UL 94-V0 rated polyester material •Storage & operating temperature rangeCH14D range:•Storage temperature -40ºC to +80ºC•Operating temperature -20ºC to +70ºCCHPV14 range - storage and operating temperature:• -20o C to +90o C (indicating)• -20o C to +120o C (non indicating)•RoHS compliant.Standards/Approvals• IEC 60269-1 and 60269-2• UL listed: file numbers E14853 for general purpose only;E348242 for photovoltaic gPV CHPV14 modular fuse holders • CCCPackaging• 1-pole: 6 per pack / 2-pole: 3 per pack• 3-pole: 2 per pack / 4-pole: 1 per packCatalogue symbol• CH14 (# of poles)DU: standard fuse holder• CH141D NXU: neutral fuse holder• CH14(#ofpoles)DNU: standard fuse holder and neutral• CH14(#ofpoles)DIU: fuse holder with neon indicator• CH14(#ofpoles)DNIU: fuse holder with neutral and neon indicator• CH14(#ofpoles)DMSU-F: fuse holder with microswitch (pre-breaking/fuse operation)• CH14(#ofpoles)DNMSU-F: fuse holder with neutral and microswitch (pre-breaking/fuse operation)• CH141DI-48U: fuse holder with LED Indicator• CH PV14(# of poles)U: suitable for photovoltaic fuse links Compatible fuse links• C14G and C14M: 14 x 51 mm fuse links• PV-(amp rating)A14F: Photovoltaic gPV Fuse links• FW Ferrule fuse linksT able 1. FW Ferrule fuse linksCatalogue number Maximumcontinuous fusecurrentCataloguenumberMaximumcontinuous fusecurrentFWH-5A14F 5 A FWP-5A14F 5 A FWH-10A14F10 A FWP-10A14F10 A FWH-15A14F15 A FWP-15A14F15 A FWH-20A14F20 A FWP-20A14F20 A FWH-25A14F25 A FWP-25A14F25 A FWH-30A14F24 A FWP-30A14F30 A FWX-5A14F 5 A FWP-32A14F32 A FWX-10A14F10 A FWP-40A14F40 A FWX-15A14F15 A FWP-50A14F49 A FWX-20A14F20 AFWX-25A14F25 AFWX-30A14F30 AT echnical data• Number of poles: 1 to 4• Rated voltageIEC ULCH14DU690 V a.c / 750 V d.c.700 V a.c.CHPV14U1500 V d.c.1500 V d.c.•Rated current•IEC: 50 A (a.c. and d.c.)•UL: 50 A•Rated power acceptance: 5 W to IEC 60269-2•Maximum power acceptance: 6.2 W •Protection index: IP20•Rated impulse withstand voltage (Uimp): 6 kV •SCCR Rating: 120 kA ac, 10 kA dc for CHPV14U •Cable size: 1.5 - 50 mm2•Torque settings:•Recommended torque setting 3.5 N•m •Maximum torque setting: 3.5 N•m23Technical Data 10080Effective October 201714 x 51 mm Modular fuse holdersEATON T able 2. T echnical DataOldCatalogue number NewCatalogue numberNumberof poles DescriptionNeutral onlyCH141BNX CH141DNXU 1Neutral cylindrical fuse holder Fuse holder onlyCH141B CH141DU 11-pole cylindrical fuse holder CH142B CH142DU 22-pole cylindrical fuse holder CH143B CH143DU 33-pole cylindrical fuse holder CH144B CH144DU 44-pole cylindrical fuse holder Fuse holder and neutralCH141BN CH141DNU 21-pole + neutral cylindrical fuse holderCH143BNCH143DNU42-pole + neutral cylindrical fuse holderFuse holder with neon indicatorCH141BI CH141DIU 11-pole cylindrical fuse holder with neon indicatorCH142BI CH142DIU 22-pole cylindrical fuse holder with neon indicatorCH143BI CH143DIU 33-pole indicator fuse holder with neon indicatorCH144BICH144DIU44-pole indicator fuse holder with neon indicatorFuse holder with neon indicator and neutralCH141BNI CH141DNIU 21-pole + neutral cylindrical fuse holder with neon indicatorCH143BNICH143DNIU43-pole + neutral cylindrical fuse holder with neon indicator Fuse holder with microswitchCH141BMS & CH141BMS-F CH141DMSU-F 11-pole cylindrical fuse holder with microswitch for remote fuse indication operationCH143BMS CH143BMS-FCH143DMSU-F33-pole cylindrical fuse holder with microswitch for remote fuse indication operationFuse holder with microswitch and neutralCH143BNMS-F &CH143BNMSCH143DNMSU-F 43-pole + neutral cylindrical fuse holder with microswitch for remote fuse indication operation Fuse holder with LED IndicatorN/A CHPV141DI-48U 11-pole cylindrical fuse holder with LED indicatorFuse holder for Photovoltaic applicationsCH141D-PV CHPV141U 11-pole cylindrical fuse holderN/A CHPV141IU 11-pole cylindrical fuse holder with neon indicatorN/A CHPV142U 22-pole cylindrical fuse holderN/ACHPV142IU22-pole cylindrical fuse holder with neon indicatorT able 3. AccessoriesCatalogue number DescriptionUnitpackingJV-LMulti-pole connector kit. One kit will gang up to 4-poles together 12CH14-SPS Microswitch to work on CH141D(I)U , 1 n/o + 1 n/c changeover type 3CH14-TPS Microswitch to work on CH143D(I)U , 1 n/o + 1 n/c changeover type3CH14-CTP IP20 Protection accessory, provides IP20 protection to terminals with 10mm 2 or less cable 12Technical Data 10080Effective October 201714 x 51 mm Modular fuse holdersEatonEMEA HeadquartersRoute de la Longeraie 71110 Morges, SwitzerlandEaton Electrical Products LimitedMelton RoadBurton-on-the-WoldsLeicestershire, LE12 5THUnited Kingdom© 2017 EatonAll Rights Reserved PDF Only Publication No. 10080 October 2017Eaton is a registered trademark. All other trademarks are property of their respective owners.Dimensional data - mmChanges to the products, to the informationcontained in this document, and to pricesare reserved; so are errors and omissions.Only order confirmations and technicaldocumentation by Eaton is binding. Photosand pictures also do not warrant a specificlayout or functionality. Their use in whateverform is subject to prior approval by Eaton.The same applies to Trademarks (especiallyEaton, Moeller, and Cutler-Hammer). TheTerms and Conditions of Eaton apply, asreferenced on Eaton Internet pages andEaton order confirmations.。

安全鞋十大品牌一、引言安全鞋是一种专门为保护工人在工作中避免受伤而设计的鞋类产品。

在各行各业中，安全鞋的需求量越来越大，因此市场上浮现了许多不同品牌的安全鞋。

本文将介绍十大知名的安全鞋品牌，包括它们的特点、产品系列以及用户评价等信息，以匡助消费者了解并选择适合自己的安全鞋品牌。

二、十大安全鞋品牌1. ABC安全鞋ABC安全鞋是一家国际知名的安全鞋品牌，以其高品质和创新设计而闻名。

其产品系列包括运动型安全鞋、防滑型安全鞋和防静电型安全鞋等。

ABC安全鞋采用高级材料创造，具有抗压、耐磨、防滑等特点，广受工人们的好评。

2. XYZ安全鞋XYZ安全鞋是一家专注于工业安全鞋的品牌。

其产品系列包括防刺穿型安全鞋、防化学品型安全鞋和防火型安全鞋等。

XYZ安全鞋以其卓越的安全性能和舒适度而备受推崇，成为许多工人的首选品牌。

3. DEF安全鞋DEF安全鞋是一家具有悠久历史的安全鞋品牌，专注于生产防护型安全鞋。

其产品系列包括防油型安全鞋、防撞型安全鞋和防静电型安全鞋等。

DEF安全鞋以其耐用性和经济实惠而受到泛博消费者的爱慕。

4. GHI安全鞋GHI安全鞋是一家国内率先的安全鞋品牌，致力于为工人提供高品质的安全鞋产品。

其产品系列包括防滑型安全鞋、防刺穿型安全鞋和防火型安全鞋等。

GHI安全鞋以其卓越的性能和合理的价格而备受青睐。

5. JKL安全鞋JKL安全鞋是一家以创新设计著称的安全鞋品牌，其产品系列包括运动型安全鞋、防滑型安全鞋和防静电型安全鞋等。

JKL安全鞋注重产品的舒适度和时尚感，深受年轻工人的爱慕。

6. MNO安全鞋MNO安全鞋是一家注重研发的安全鞋品牌，其产品系列包括防刺穿型安全鞋、防化学品型安全鞋和防火型安全鞋等。

MNO安全鞋以其先进的技术和高品质的材料而备受赞誉，被泛博用户认可。

7. PQR安全鞋PQR安全鞋是一家专注于舒适度的安全鞋品牌，其产品系列包括防滑型安全鞋、防刺穿型安全鞋和防静电型安全鞋等。

PQR安全鞋采用柔软的材料和人体工学设计，为工人提供了极佳的穿着体验。

United KingdomIndustryReference Number1788005Product TypeRespiratory ProtectionRangeReusable APRBrand HoneywellBrand formerly known asFERNEZ by WillsonIndustryProduct Use• For use with full-face mask and half-mask equipped with an RD40 connector• For protection against organics gasses and vapours with a boiling point greater than 65°C and solid and liquid particlesOverviewFeature• Light and resistant plastic casing.Feature• Suitable for use in specific zone as free-metal zone and/or nuclear industryFeature• Performance requirements for gas and particles significantly above standard for excellent filtration efficiency over extensive period of time.Feature• Canister made of high-grade charcoal, additionally treated for optimal gas absorption.Features & BenefitsRD40 Plastic Filters A2P3PRODUCT NUMBER: 1788005Honeywell offers a broad choice of plastic canisters. Itsplastic filter range covers many hazardous gases, vapors and/or particulates in many applications.The Honeywell plastic filter range provides a cost-effectiveprotection, without compromise on its quality.This plastic filter is tested according to the EN14387 and theEN143 standard.Feature• Specific canister structure for low breathing resistance and more comfort for the userFeature• Low profile so as not to obstruct the field of visionFeature• Multipurpose and can be used with existing respirators.Feature• Safe storage between periods of use (plastic cover)Filters CartridgesStandardParticle filters efficiency (EN143) EN14387 (Gas/vapours and combined filters for respiratory with negative pressure) -Conformed to the requirements of the European Community Directive 89/686/EEC (Personnal Protective Equipment), belongs to the EC Category III and is CE marked, followed by the identification of the certification body (0194), which assure the quality control (according to the article 11B).Protection TypeCombinationConnection TypeRD40MaterialABS material with plastic cover High Activated charcoal Ø106mm - 285grE.C. Declaration of ConformityEC Category PPE3Quality AssuranceISO 9001 / 2000EC Certificate Number0070-236-079-03-03-0027EC AttestationEC AttestationEC Attestation Number0070-236-079-03-03-0027Declaration of conformity APAVE - 1788005/supplementary/documents_and_downloads/secured/pic_sku_-_certificates/4294989352/1033.aspx1788005 A2P3 tested substances/supplementary/documents_and_downloads/respiratory_protection/reusable_respirators/4294974294/1033.aspxPIC SKU - Pictures/assets/0/324/500/51887/06368eb7e1b74b558a1fc0a53876b865.jpgUser ManualUser Manual FiltersLife CycleDepends on absorption capacity, concentration of contaminant, humidity and user breathingStorage Information5 years after date of manufacturing6 months after opening- Store the filters in a cool, dry, location with the caps attached- The maximum permissible storage period is specified on the filter- Storage temperature range: -20°C / +50°C- Maximum humidity during storage: 80%Care InstructionsControls before useUsers must• Ensure that the level of protection offered by the respirator is sufficient for the type and concentration of contaminant(s) in the work area• Respect the shelf life figuring on the filter• Check the seal pointsLimitations of use• For use only by trained and qualified personal• Do not use where the oxygen level or the atmosphere is less than 17%• Do not use with organic gases and vapours with a boiling point below 65°C• After use, an opened canister must be repacked properly with its caps if it is likely to be re-used. It must be replaced no later than within 6 months after opening.• If a user identifies the break through of the canister by the smell or taste of a gas, the canister must bereplaced immediately• If the breathing resistance of the canister increased significantly, it must be changed.• Filter with a mass over 300 g may not be used fitted directly onto half-masksDisposal• Canister must be disposed in accordance with the local waste disposal regulationsEAN Code7312557880053Packaging Specs Individual Box31 x 26 x 12cmUnit of MeasureCMQuantity per Box/Pack/CaseSales unit per boX of 5 units of 1,580kg© Honeywell International Inc.。

安全鞋十大品牌标准格式文本：安全鞋十大品牌一、引言安全鞋是一种用于保护工人脚部安全的专业鞋类产品。

在工业生产和建造施工等行业中，安全鞋的需求量日益增加。

为了匡助消费者选择高质量和可靠的安全鞋品牌，本文将介绍安全鞋领域的十大品牌。

二、品牌一：ABC安全鞋ABC安全鞋是一家历史悠久的知名品牌，成立于1990年。

他们致力于生产高品质的安全鞋，采用先进的技术和材料，确保产品的舒适性和耐用性。

他们的安全鞋符合国际标准，通过了多项认证，深受消费者的信赖。

三、品牌二：XYZ安全鞋XYZ安全鞋是一家以创新著称的品牌，他们不断引入新的科技和设计理念，为消费者提供更好的产品体验。

他们的安全鞋具有出色的防滑性能和耐磨性，适合于各种工作环境。

XYZ安全鞋注重细节和质量控制，以确保每双鞋都符合高标准。

四、品牌三：123安全鞋123安全鞋是一家专注于研发和生产安全鞋的公司。

他们的产品采用环保材料，符合人体工程学设计，为用户提供舒适的穿着体验。

123安全鞋在市场上享有很高的声誉，他们的产品被广泛应用于建造、创造业等领域。

五、品牌四：DEF安全鞋DEF安全鞋是一家国际知名品牌，他们在全球范围内销售他们的产品。

他们的安全鞋采用高科技材料和先进的创造工艺，具有出色的防护性能和舒适度。

DEF安全鞋不仅关注产品的功能性，还注重时尚设计，使消费者在工作中既能保持安全，又能展现个人风格。

六、品牌五：GHI安全鞋GHI安全鞋是一家致力于生产高端安全鞋的品牌。

他们的产品采用优质材料和精湛工艺，确保产品的质量和耐用性。

GHI安全鞋注重创新和研发，不断推出适应市场需求的新款产品。

他们的安全鞋在专业领域中备受赞誉。

七、品牌六：JKL安全鞋JKL安全鞋是一家本土率先的安全鞋品牌，他们的产品在国内市场上非常受欢迎。

他们的安全鞋采用优质材料，经过严格的质量检测，确保产品的可靠性和耐用性。

JKL安全鞋注重与用户的沟通和反馈，不断改进产品，满足不同用户的需求。

经营全系列防护用品、劳保用品
霍尼韦尔SP2013T1003 电绝缘安全鞋
1、后跟处加强耐磨‘内衬更经久耐磨
2、防踢鞋头设计‘保护鞋面脚趾区域’防刺穿钢制中底
3、发泡EVA中底’减震、吸汗、舒适、耐用
4、双密度PU鞋底‘防滑，耐油，防酸碱
5、优质头层牛皮’柔软、舒适、透气、耐用
6、符合欧洲最高防滑标准SRC，EN ISO 20334:2004/ A1:2007 ，只有两种测试环境均通过，则为防滑最高标准SRC
同系列产品：
货号尺码产品名称
SP2013T1001 35~47 T1防静电、保护足趾安全鞋
SP2013T1002 35~47 T1防静电、保护足趾、防刺穿安全鞋
SP2013T1003 35~47 T1电绝缘安全鞋
经营全系列防护用品、劳保用品。