D17 1058-1997 材料与涂层5%NACI的盐雾试验和评级方法

RT8055®©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Featuresz High Efficiency : Up to 95%z Low R DS(ON) Internal Switches : 100m Ωz Programmable Frequency : 300kHz to 2MHz z No Schottky Diode Requiredz0.8V Reference Voltage Allows for Low Output Voltagez Forced Continuous Mode Operation z 100% Duty Cycle Operation z Input Over Voltage ProtectionzRoHS Compliant and Halogen FreeApplicationsz Portable Instrumentsz Battery-Powered Equipment z Notebook Computersz Distributed Power Systems z IP Phonesz Digital Cameras z3G/3.5G Data CardGeneral DescriptionThe RT8055 is a high efficiency synchronous, step-down DC/DC converter. Its input voltage range is from 2.6V to 5.5V and provides an adjustable regulated output voltage from 0.8V to 5V while delivering up to 3A of output current.The internal synchronous low on-resistance power switches increase efficiency and eliminate the need for an exter nal Schottky diode. The switching frequency is set by an external resistor. The 100% duty cycle provides low dropout operation extending battery life in portable systems. Current mode operation with external compensation allows the transient response to be optimized over a wide range of loads and output capacitors.The RT8055 is operated in forced continuous PWM Mode which minimizes ripple voltage and reduces the noise and RF interference.The RT8055 is available in the WDFN-10L 3x3 and SOP-8 (Exposed Pad) packages.Ordering InformationPin Configurations(TOP VIEW)WDFN-10L 3x33A, 2MHz, Synchronous Step-Down ConverterNote :Richtek products are :` RoHS compliant and compatible with the current require-ments of IPC/JEDEC J-STD-020.` Suitable for use in SnPb or Pb-free soldering processes.COMP FB VDD PVDDPVDDSHDN/RTGND LX PGNDCOMP FB PVDDVDD SOP-8 (Exposed Pad)G : Green (Halogen Free and Pb Free)Z : ECO (Ecological Element with Halogen Free and Pb free)RT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Typical Application CircuitTable 1. Recommended Component SelectionV OUT Marking InformationJN= : Product Code YMDNN : Date CodeRT8055GQWRT8055GSPRT8055GSP : Product NumberYMDNN : Date CodeJN : Product Code YMDNN : Date CodeRT8055ZQWRT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Function Block DiagramRT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Absolute Maximum Ratings (Note 1)zSupply Input Voltage, VDD, PVDD ----------------------------------------------------------------------------−0.3V to 6.5Vz LX Pin Switch Voltage --------------------------------------------------------------------------------------------−0.3V to (PVDD + 0.3V)<10ns ----------------------------------------------------------------------------------------------------------------−5V to 8.5V z Other I/O Pin Voltages -------------------------------------------------------------------------------------------−0.3V to 6.5V z LX Pin Switch Current --------------------------------------------------------------------------------------------4A z Power Dissipation, P D @ T A = 25°CWDFN-10L 3x3-----------------------------------------------------------------------------------------------------1.667W SOP-8 (Exposed Pad)-------------------------------------------------------------------------------------------1.333W z Package Thermal Resistance (Note 2)WDFN-10L 3x3, θJA -----------------------------------------------------------------------------------------------60°C/W WDFN-10L 3x3, θJC -----------------------------------------------------------------------------------------------7.8°C/W SOP-8 (Exposed Pad), θJA -------------------------------------------------------------------------------------75°C/W SOP-8 (Exposed Pad), θJC -------------------------------------------------------------------------------------15°C/W z Junction T emperature ---------------------------------------------------------------------------------------------150°C z Lead Temperature (Soldering, 10 sec.)-----------------------------------------------------------------------260°C z Storage T emperature Range ------------------------------------------------------------------------------------−65°C to 150°C z ESD Susceptibility (Note 3)HBM (Human Body Model)--------------------------------------------------------------------------------------2kVElectrical Characteristics(V DD = 3.3V, T A= 25°C, unless otherwise specified)Recommended Operating Conditions (Note 4)z Supply Input Voltage ----------------------------------------------------------------------------------------------2.6V to 5.5V z Junction T emperature Range ------------------------------------------------------------------------------------ −40°C to 125°C zAmbient T emperature Range ------------------------------------------------------------------------------------ −40°C to 85°CRT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Note 1. Stresses beyond those listed “Absolute Maximum Ratings ” may cause permanent damage to the device. These arestress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions may affect device reliability.Note 2. θJA is measured at T A = 25°C on a high effective thermal conductivity four-layer test board per JEDEC 51-7. θJC ismeasured at the exposed pad of the package.Note 3. Devices are ESD sensitive. Handling precaution is recommended.Note 4. The device is not guaranteed to function outside its operating conditions.Note 5. Guaranteed by design.RT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Typical Operating CharacteristicsOutput Voltage vs. Input Voltage3.303.313.323.333.343.353.363.53.73.94.14.34.54.74.95.15.35.5Input Voltage (V)O u t p u t V o l t a g e (V)Output Voltage vs. Output Current3.263.273.283.293.303.313.323.333.343.353.363.373.380.00.30.60.91.21.51.82.12.42.73.0Output Current (A)O u t p u t V o l t a g e (V)Efficiency vs. Output Current01020304050607080901000.00.30.60.91.21.51.82.12.42.73.0Output Current (A)E f f i c i e n c y (%)Switching Frequency vs. Temperature1.51.61.71.81.92.02.1-50-25255075100125Temperature (°C)S w i t c h i n g F r e q u e n c y (M H z )Switching Frequency vs. Input Voltage1.51.61.71.81.92.02.13.53.73.94.14.34.54.74.95.15.35.5Input Voltage (V)S w i t c h i n g F r e q u e n c y (M H z )V IN UVLO vs. Temperature2.002.052.102.152.202.252.302.352.402.452.50-50-25255075100125Temperature (°C)V I N U V L O (V )RT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Output RippleTime (500ns/Div)V IN = 5V, V OUT = 3.3V I OUT = 0AV LX (5V/Div)V OUT (5mV/Div)Output Ripple Time (500ns/Div)V IN = 5V, V OUT = 3.3V I OUT = 3A V LX (5V/Div)V OUT(5mV/Div)Reference Voltage vs. Temperature0.7600.7680.7760.7840.7920.8000.8080.8160.8240.8320.840-50-25255075100125Temperature (°C)R e f e r e n c e V o l t a g e (V )Output Current Limit vs. Temperature2.02.53.03.54.04.55.05.56.0-50-25255075100125Temperature (°C)O u t p u t C u r r e n t L i m i t (A)Output Current Limit vs. Input Voltage2.02.53.03.54.04.55.05.56.03.53.73.94.14.34.54.74.95.15.35.5Input Voltage (V)O u t p u t C u r r e n t L i m i t (A)Output Voltage vs. Temperature3.203.223.243.263.283.303.323.343.363.383.40-50-25255075100125Temperature (°C)O u t p u t V o l t a g e (V)RT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Power On from V INTime (1ms/Div)V IN = 5V, V OUT = 3.3V I OUT = 0AV LX (5V/Div)V IN (2V/Div)V OUT (1V/Div)Load Transient ResponseTime (100μs/Div)I OUT (1A/Div)V OUT(200mV/Div)V IN = 5V, V OUT = 3.3V I OUT = 0A to 2ALoad Transient ResponseTime (100μs/Div)I OUT (1A/Div)V OUT(200mV/Div)V IN = 5V, V OUT = 3.3V I OUT = 0A to 3AUVP ShutdownTime (10μs/Div)V LX (5V/Div)V OUT (1V/Div)V IN = 5V, V OUT = 3.3VRT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Application InformationThe basic RT8055 application circuit is shown in TypicalApplication Circuit. External component selection is determined by the maximum load current and begins with the selection of the inductor value and operating frequency followed by C IN and C OUT .Output Voltage SettingThe output voltage is set by an external resistive divider according to the following equation :Figure 1. Setting the Output Voltage⎟⎠⎞⎜⎝⎛+×=R2R11V V REF OUT Soft-StartThe RT8055 contains an internal soft-start clamp that gradually raises the clamp on the COMP pin.Operating FrequencySelection of the operating frequency is a tradeoff between efficiency and component size. High frequency operation allows the use of smaller inductor and capacitor values.Operation at lower frequency improves efficiency by reducing internal gate charge and switching losses but requires larger inductance and/or capacitance to maintain low output ripple voltage.The operating frequency of the RT8055 is determined by an external resistor that is connected between the SHDN/RT pin and GND. The value of the resistor sets the ramp current that is used to charge and discharge an internal timing capacitor within the oscillator. The RT resistor value can be determined by examining the frequency vs. R RT curve. Although frequencies as high as 2MHz are possible,the minimum on-time of the RT8055 imposes a minimum limit on the operating duty cycle. The minimum on-time is typically 110ns. Therefore, the minimum duty cycle is equal to 100 x 110ns x f (Hz).Figure 2100% Duty Cycle OperationWhen the input supply voltage decreases toward the outputvoltage, the duty cycle increases toward the maximum on-time. Further reduction of the supply voltage forces the main switch to remain on for more than one cycle eventually reaching 100% duty cycle.The output voltage will then be determined by the input voltage minus the voltage drop across the internal P-MOSFET and the inductor.Low Supply OperationThe RT8055 is designed to operate down to an input supply voltage of 2.6V. One important consideration at low input supply voltages is that the R DS(ON) of the P-Channel and N-Channel power switches increases. The user should calculate the power dissipation when the RT8055 is used at 100% duty cycle with low input voltages to ensure that thermal limits are not exceeded.Slope Compensation and Inductor Peak Current Slope compensation provides stability in constant frequency architectures by preventing sub-harmonic oscillations at duty cycles greater than 50%. It is accomplished internally by adding a compensating ramp to the inductor current signal. Normally, the maximum inductor peak current is reduced when slope compensation is added. In the RT8055, however, separated inductor current signals are used to monitor over current condition.0.00.51.01.52.02.53.002004006008001000R OSC (K )S w i t c h i n g F r e q u e n c y (M H z )(k Ω)where V REF equals to 0.8V typical.The resistive divider allows the FB pin to sense a fraction of the output voltage as shown in Figure 1.RT8055©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.This formula has a maximum at V IN = 2V OUT , where I RMS = I OUT /2. This simple worst-case condition is commonly used for design because even significant deviations do not offer much relief. Choose a capacitor rated at a higher temperature than required.Several capacitors may also be paralleled to meet size or height requirements in the design.The selection of C OUT is determined by the effective series resistance (ESR) that is required to minimize voltage ripple and load step transients, as well as the amount of bulk capacitance that is necessary to ensure that the control loop is stable. Loop stability can be checked by viewing the load transient response as described in a later section.The output ripple, ΔV OUT , is determined by :1V V V V I I OUTININ OUT OUT(MAX)RMS −=⎦⎤⎢⎣⎡+Δ≤ΔOUT L OUT 8fC 1ESR I V This keeps the maximum output current relatively constant regardless of duty cycle.Short Circuit ProtectionWhen the output is shorted to ground, the inductor current decays very slowly during a single switching cycle. A current runaway detector is used to monitor inductor current. As current increasing beyond the control of current loop, switching cycles will be skipped to prevent current runaway from occurring.Inductor SelectionThe inductor value and operating frequency determine the ripple current according to a specific input and output voltage. The ripple current ΔI L increases with higher V IN and decreases with higher inductance.OUT OUT L IN V V I =1f L V ⎡⎤⎡⎤Δ×−⎢⎥⎢⎥×⎣⎦⎣⎦OUT OUT L(MAX)IN(MAX)V V L =1f I V ⎡⎤⎡⎤×−⎢⎥⎢×Δ⎣⎦⎣⎦Having a lower ripple current reduces not only the ESR losses in the output capacitors but also the output voltage ripple. However, it requires a large inductor to achieve this goal.For the ripple current selection, the val ue of ΔI L = 0.4(I MAX )will be a reasonable starting point. The large st ripple current occurs at the highest V IN . To guarantee that the ripple current stays below the specified maximum, the inductor value should be chosen according to the following equation :The inductor's current rating (caused a 40°C temperature rising from 25°C ambient) should be greater than the maximum load current and its saturation current should be greater than the short circuit peak current limit.C IN and C OUT SelectionThe input capacitance, C IN , is needed to filter the trapezoidal current at the source of the top MOSFET . To prevent large ripple voltage, a low ESR input capacitor sized for the maximum RMS current should be used. RMS current is given by :The output ripple is highest at maximum input voltagesince ΔI L increases with input voltage. Multiple capacitors placed in parallel may be needed to meet the ESR and RMS current handling requirements. Dry tantalum, special polymer, aluminum electrolytic and ceramic capacitors are all available in surface mount packages. Special polymer capacitors offer very low ESR but have lower capacitance density than other types. Tantalum capacitors have the highest capacitance density but it is important to only use types that have been surge tested for use in switching power supplies. Aluminum electrolytic capacitors have significantly higher ESR but can be used in cost-sensitive applications provided that consideration is given to ripple current ratings and long term reliability. Ceramic capacitors have excellent low ESR characteristics but can have a high voltage coefficient and audible piezoelectric effects.The high Q of ceramic capacitors with trace inductance can also lead to significant ringing.Using Ceramic Input and Output CapacitorsHigher values, lower cost ceramic capacitors are now becoming available in smaller case sizes. Their high ripple current, high voltage rating and low ESR make them ideal for switching regulator applications. However, care must be taken when these capacitors are used at the input and output. When a ceramic capacitor is used at the inputDS8055-05 November 2012©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.and the power is supplied by a wall adapter through long wires, a load step at the output can induce ringing at the input, V DD . At best, this ringing can couple to the output and be mistaken as loop instability. At worst, a sudden inrush of current through the long wires can potentially cause a voltage spike at V IN large enough to damage the part.Thermal ConsiderationsFor continuous operation, do not exceed absolute maximum junction temperature. The maximum power dissipation depends on the thermal resistance of the IC package, PCB layout, rate of surrounding airflow, and difference between junction and ambient temperature. The maximum power dissipation can be calculated by the following formula :P D(MAX) = (T J(MAX) − T A ) / θJAwhere T J(MAX) is the maximum junction temperature, T A is the ambient temperature, and θJA is the junction to ambient thermal resistance.For recommended operating condition specifications, the maximum junction temperature is 125°C. The junction to ambient thermal resistance, θJA , is layout dependent. For SOP-8 (Exposed Pad) packages, the thermal resistance,θJA , is 75°C/W on a standard JEDEC 51-7 four-layer thermal test board. For WDFN-10L 3x3 packages, the thermal resistance, θJA , is 70°C/W on a standard JEDEC 51-7 four-layer thermal test board. The maximum power dissipation at T A = 25°C can be calculated by the following formulas :P D(MAX) = (125°C − 25°C) / (75°C/W) = 1.333W for SOP-8 (Exposed Pad) packageP D(MAX) = (125°C − 25°C) / (70°C/W) = 1.429W for WDFN-10L 3x3 packageThe maximum power dissipation depends on the operating ambient temperature for fixed T J(MAX) and thermal resistance, θJA . The derating curves in Figure 3 allow the designer to see the effect of rising ambient temperature on the maximum power dissipation.Figure 3. Derating Curve of Maximum Power Dissipation Layout ConsiderationsFollow the PCB layout guidelines for optimal performance of RT8055.`A ground plane is recommended. If a ground plane layer is not used, the signal and power grounds should be segregated with all small-signal components returning to the GND pin at one point that is then connected to the PGND pin close to the IC. The exposed pad should be connected to GND.`Connect the terminal of the input capacitor(s), C IN , as close as possible to the PVDD pin. This capacitor provides the AC current into the internal power MOSFETs.`LX node is with high frequency voltage swing and should be kept within small area. Keep all sensitive small-signal nodes away from the LX node to prevent stray capacitive noise pick-up.`Flood all unused areas on all layers with copper.Flooding with copper will reduce the temperature rise of powercomponents.You can connect the copper areas to any DC net (PVDD,VDD, VOUT , PGND, GND, or any other DC rail in your system).`Connect the FB pin directly to the feedback resistors.The resistor divider must be connected between V OUT and GND.0.00.10.20.30.40.50.60.70.80.91.01.11.21.31.41.50255075100125Ambient Temperature (°C)M a x i m u m P o w e r D i s s i p a t i o n (W )©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Table 3. Capacitors for C and C Recommended component selection for Typical ApplicationFigure 4. PCB Layout GuideFand GND as closer as possibleLX should befrom this tracenear RT8055Connect the FB pin directly to feedback resistors. TheDS8055-05 November 2012©Copyright 2012 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.W-Type 10L DFN 3x3 PackageRichtek Technology Corporation5F, No. 20, Taiyuen Street, Chupei City Hsinchu, Taiwan, R.O.C.Tel: (8863)5526789Richtek products are sold by description only. Richtek reserves the right to change the circuitry and/or specifications without notice at any time. Customers shouldobtain the latest relevant information and data sheets before placing orders and should verify that such information is current and complete. Richtek cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Richtek product. Information furnished by Richtek is believed to be accurate and reliable. However, no responsibility is assumed by Richtek or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Richtek or its subsidiaries.HM(Bottom of Package)8-Lead SOP (Exposed Pad) Plastic Package。

富山HP-005伺服控制器安装维护手册本手册仅提供给技术支持、售后、维修使用。

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文中所提供的资料仅供参考，具体以实物的规格书为准！(仅供内部使用参考)目录0、主要技术数据： (4)1、安全注意事项： (5)1.1 使用范围： (5)1.2 工作环境： (5)1.3 安装： (5)1.4 保养维修的规定: (5)1.5危险提示 (6)1.6 其它安全规定: (6)2. 安装与调整： (6)2.1 电机的安装： (6)2.2 针位信号器及手轮的安装： (7)2.3 控制箱的安装： (7)2.4 停针位的调整： (8)3. 接线与接地： (8)3.1 电源线的接法： (8)3.2、控制器接线端子图： (9)4、操作面板的使用： (10)4.1、操作面板按键定义： (10)4.2、操作面板参数设定： (11)4.3、操作面板的组合操作及显示 (15)5、主控制箱面板操作说明书 (16)5.1、主控制箱面板的布局如下示意图， (16)5.2、待机状态： (16)5.3、缝纫模式及各段针数设置： (17)5.4 前固缝方式及针数设置： (18)5.5 后固缝方式及针数设置： (18)5.6 工艺参数设置： (19)6、针迹补偿调整方法 (20)6.1 调整前的准备 (20)6.2 调整步骤 (20)7、常用参数的修改示例 (21)7.0 参数修改状态的进入方法 (21)7.1 如何修改自由缝最高速度 (21)7.2 如何修改慢启动速度 (22)7.3 如何关掉上电找停针位 (22)7.4 如何修改剪线速度 (22)7.5 如何恢复出厂参数 (22)7.6 如何修改工艺参数密码 (22)7.7 如何修改底线总数 (22)8、控制箱硬件检测方法 (23)8.1 维护参数表 (23)8.2、历史故障查询功能 (25)8.3、控制箱外围部件检测 (25)1、电机码盘的检测 (25)2、手动倒缝开关的检测 (25)3、立式脚踏的检测 (25)4、脚踏的检测 (25)9、故障分析 (26)9.1、故障代码表内故障的解决办法 (26)9.2、电磁铁故障分析 (28)1、剪线电磁铁故障的分析 (28)2、扫（挑）线电磁铁故障的分析 (28)3、倒缝电磁铁故障的分析 (28)4、手动倒缝故障的分析 (28)5、抬压脚电磁铁故障的分析 (28)9.3、部分故障问答 (29)10、出厂及维护时使用的特殊操作 (29)10.1 密码清除 (29)10.2 主控箱软件版本查询 (30)10.3 存储器数据复位 (30)10.4 机头工作时间清除 (30)10.5、厂家出厂参数的修改 (30)10.6、出厂机型参数的修改 (31)10. ７、特殊机型参数的修改 (31)11. 七段数码管显示值与实际数值对照表 (32)0、主要技术数据：供电电压范围：AC220V ±15% 供电电源频率：50Hz/60Hz 整机最大功率：700W电机额定功率：550W 电机额定转速：4500rpm 电机额定转矩：1.0Nm 电机最大转矩：3.0Nm感谢您选用本公司工业平缝机伺服控制器。

Multi Function TribometerTribology and Mechanical Tester withIntegrated 3D ProfilometerMultiple ASTM, DIN, ISO Standards CompliantMFT-50003D Imaging Mechanical Tests Industry Standard PlatformHigh precision multiple Z stages tomove load cell, profilometer, etc., each independently in Z axis.Tribometer ConfigurationInterchangeable load cell across a wide range from mN to 12,000N Interchangeable test modules to perform several tests on the same platform (rotary, reciprocating,block on ring, fretting, scratch, etc.). The modules are mounted using fast-exchange with automatic recog-nition on top of the xy stage.Closed-loop multi-channel tempera-ture and humidity controller. For -120 to 1200°C temperature control.Enclosure to reduce acousticinterference and fumes. Acts as an additional safety guard during test.In-line universal 3D Profilometer to image test area automatically with nm resolution. The Lambda pro-filometer has four imaging modes on same head (confocal + interfer-ometer + dark field + bright field).The 130 x 270mm high precision XY stage moves test modules between test and image positions. The stage can also be used for slow speed reciprocating tests, scratch test, custom motion test, etc.Advanced high speed, low noise, fast feedback, high data acquisi-tion rate controllers up to 200 kHz, and up to 64 channel expandable capabilities.Upper Z StageForce SensorInterchangeable Test ModulesOn top of XY StageTemperature,Humidity ControllerEnvironmental IsolationIn-line ProfilometerXY StageData Acquisition,Motion ControllerA B C DEFG HHDGCF BAETribology And Mechanical Tester With Integrated Profilometer 05Open Platform U channel design, high Zaccess provides large working area.Tribology And Mechanical TesterWith Integrated 3D Profilometer04Steep SlopesPatented In-line Profilometer With Automatic Stitching Technology Optimized for Tribology Testing(US 20180024035 A1)Auto Stitch Entire SamplesRough, Dark, Smooth SurfacesImage with LiquidsUniversal profilometer capable of imaging wear tracks with steep slopesHigh precision XY stage that allows to scan and stitch entire wear track automatically.The universal profilometer can scan any mate-rial (transparent, dark, corroded, flat, curved).Confocal microscopy can image samples under liquid media.Sub nm 3D Image of Wear Mark Progression During TestTest Results100 Cycle120 Cycle300 Cycle400 CycleTribology And Mechanical Tester With Integrated Profilometer 070 Minutes10 Minutes20 Minutes30 Minutes40 Minutes50 Minutes60 Minutes70 Minutes80 Minutes90 Minutes100 Minutes110 Minutes120 Minutes 130 Minutes 140 Minutes 150 MinutesA Tribometer ThatComprehensively Characterizes Surface Change vs Time Interferometer Bright Field Dark Field 06Rtec instruments Universal Tribometer + In-line ImagingWide Range Of Sensors With Patented TechnologyThe tester can mount various interchange force sensors easily. Each sensor has an automatic recognition feature, calibration file to maintain optimized performance on testing parameters.• Low Floor Noise• Highest Resolution • Fast Exchange • Automatic Recognition Based on the application, a sensor from various types of load cells can be selected.• Capacitive Load Cells - Highest resolution load cells with negligible thermal drift.• Piezo Load Cells - Sensors to measure data at highest frequency.• Strain Gauge Load Cells - Sensors with widest load range - mN to 12,000N.Choice Depends On ApplicationCapacitive Sensor Strain Gauge Sensor Piezo SensorTorque Sensors / 1D, 2D, 6D Sensors / In-line Dynamic Torque Sensors Patent # 1017938GB2Other TypesTribology And Mechanical Tester With Integrated Profilometer09The tester comes with several environmental chambers op-tions. The chambers are typically mounted on top of room temperature drives. Using interchangeable chambers, a wide range of -120 to 1200°C, controlled humidity, and vacuum up to 10-7 torr are achievable. Some setups also allow the MFT-5000 to heat both upper and lower sample separately to simulate real life situations.The advanced control system allows temperature measure-ment at multiple points simultaneously. All the chambers are closed-loop controlled, and the requested conditions are con-trolled using the software automatically. The PID for different ranges of chambers are automatically loaded once an options is mounted.Environmental Chambers-120°C to 1200°C Tribo-Corrosion,Vacuum,High Pressure,and More• Automatic Recognition • Ease of Use • Same Software • Future Field Add-ons •Cost EffectiveMFT-5000 runs tests across a wide range of forces and applications using its modular concept. Various interchangeable modules can be added on the same platform based on the intended application. The modular na-ture of this tester allows it to test coatings, bulk materials, lubricants, real components, etc.Modular Drives With Fast ExchangeThe test modules are quickly swapped. The testing modules, load cells, and lower test drives come with a fast exchange mechanism that allows the user to easily change test configurations.The software and hardware automatically recognize the test module and runs each test with ease.Modular DesignFor MaximumVersatilitySturdy Design• Lubricant Recirculation • High Speed Containers• Temperature Control • All Regimes • Automatic Stribeck• Up to 12,000 N Force • Real Components• Low FrictionMeasurement at High Loads • Ultra High Torque Motors• Certified Reference Calibration Oil, SamplesThe Universal Tribometer is ideally suited for Industrial Tribology involving lubricants, additives, oils, metal working fluids, and many more. The sturdy design includes various lubricant dispensing systems, speeds rang-ing from 0.001 RPM to 30,000 RPM, and temperature control. This allows the MFT-5000 to precisely develop, characterise, and quality control. Few of the common tribology tests and features are described below.The High Frequency Reciprocating module HFRR is used for evaluating diesel fuel lubricity. The ball slides against a disk with a 1mm stroke at a frequency of 50 Hz. ASTM D6079, D7688, CEC F-06-A-96, ISO 12156-1, IP450, BS-EC590HFRRThe standard test determines extreme pressure, friction wear properties of greases, solid bonded films, gear/hydraulic fluids, and lubricant oils. All tests are done in oscillation mode under controlled environmental conditions. ASTM G119, G174, G133, G203, G204, G206, D5706, D5707, D6425,D7217, D7420, D7594, D7421, DIN 51834 and more.Linear Oscillating/Fast Reciprocating Test, SRV TestThe block on ring module istypically used to evaluate friction, wear of materials or lubricant/grease where a ring/bearing/shaft is rotated under axialload. ASTM G77, D2509, D2714, D2782, D2981, D3704 and more.Block on Ring, Timken EP4 ball wear module is used to mea-sure wear-preventing properties of lubricants and greases in sliding and rolling applications; 4 Ball EP is to measure lubricant extreme pres-sure properties. The test involves rotating one ball on three station-ary balls at controlled environmen-tal conditions. ASTM D-2266,D-4172,D-5183D-2596, D-2783 and DIN 51350, IP 239,300.4 Ball Wear, 4 Ball EP, KRL Shear TestTapping Torque, Twist CompressionTapping torque module characterizes friction, wear, torque, etc., during form-ing and machining. The test involves tapping/drilling using taps of various standard sizes on materials of choice. Twist compression is designed to measure friction and adhesion in metal forming. Test involves slowly rotating a ring on top of material of choice.Piston Ring/Cylinder LinerThis test evaluates friction and wear parameters of piston ring and cylinder liner mate-rial in presence of engine oils. ASTM G181, G206 etc.Thrust WasherThis test assess friction and wear parameters of self-lubricated materials in thrust washers, ASTM D3702 etc.Pin, Ball on DiskThe module measures fric-tion during sliding using pin/ball on disk setup. ASTM G99, G132, DIN 50324 and more.Stribeck CurveStribeck curve displays the evolution of the coefficient of friction as a function of load, velocity and viscosity, users can change the load and velocity to automatically plot Stribeck Curves with ease in all modulesOil, Lubricant Tests, and More• Multiple ASTM, DIN, ISO •Stribeck CurvesIndustrial TribologyHFRRCryogenicBlock on RingRotary Torque Tapping TorquePiston Ring Cylinder Liner Bearings 4 BallBrake Testing Timken, Ok, Grease Tribo CorrosionSRV Low COF, Superlubricity Variable Rolling SlidingReciprocating Scratch Test High TemperatureCutting Tools Fretting 1200°C Hot HardnessScratch, Hot Hardness, Adhesion• ASTM• ISO• DIN Compliant The tribometer measures and monitors forces and displacement in all axis. The multi-axis force measurement allows it to run several standard mechanical tests such as hardness, 3-4 point bending, tensile, compres-sion, fatigue, torsion, fretting, etc., tests with ease. All these tests can be done using any of the environmental chambers.Mechanical Tests - Hot Hardness, 3-4 Point BendingThe scratch test requires applying a load on the sample that needs to be tested with a spherical or custom tip. During the process of applying the load the sample is moved at a constant velocity and several parameters such as Friction (Fx), Down force (Fz), Coefficient of friction (COF), dis-placement (Z), acoustic emission (AE), temperature, etc., are measuredin-situ.Scratch Module Spherical Indents Vicker’s IndentWear Mark Hydrogels - Contact AreaChange vs ForceThe scratch test quantifies adhesion and scratch hardness of coatings. With the advent of new deposition methods and technologies, thinner coatings are finding their way in every aspect of our life. Coatings are present on LCD displays, phones, cutting tools, gems, glass, automobiles, medical devices, etc. The quantitative coating adhesion scratch test is a simple practical test that has been around for a long time. But reliable, reproducible, and comprehensive tests require precise control of the test system configuration and its testing parameters.Coatings Adhesion, Scratch, and Mar ResistanceScratch nm to mmThick CoatingsHigh Temperature• Hard Coatings• Polymer Coatings• Paints• Soft Coatings• Optical Lenses• Decorative Coatings• Real Components• 2D Materials•Thermal Spray CoatingsCoatings and MaterialsFrettingUnmatched PerformancePrecision At BestThe tribometer uses decoupled capacitive load cells to measure friction at a COF 0.001 level even at high down forces (1N, 10N etc.). The unique design, controlled en-vironmental condition, and high resolution sensors measure friction for 2D materials, and superlubricity with ease.SuperlubricityIn-situ Confocal Raman SpectroscopyTouch Screen, Display, and GlassContact Area vs ForceIn-line confocal Raman spectrosco-py can be added to the tribometer. The confocal mode allows to image the chemical property of locations within the wear mark with high resolutions. The XY stage allows stitching of the Raman maps across the entire wear track. The test can be performed in air, inert gas, or in a vacuum chamber.The tribometer uses a 6D sensor and closed-loop XY stage to cre-ate customized motions, such as butterfly, circular, and zig-zag that simulate any kind of profile. The test is used to simulate finger mo-tion on touch screens accurately to quantify perception.The surface adhesion module can be added to the tribometer to ana-lyze real time contact area vs force using and imaging system that is placed under the sample. This cal-culates surface adhesion and alsoobserves the interface in real time.Ball on disk setup for nano tribology agglomerated particles on a coating.Vacuum chamber with in-line Raman and profiler Raman spectrometer data on a wear mark.A test showing hydrogel against a coated glass slide. Real time contact area analysis vs force.Nano Tribology• 2D Materials • Polymers • Soft Coatings • Paints • Lens• Optical Coatings • DisplaysThe nano tribometer modules allows for a comprehensive friction, wear, adhesion, etc. characterization over nano to micro scale. Ultra sensitive capacitive load cells, combined with low floor noise, and a robust design provide quantita-tive tribology characterization of interfaces, thin films, 2D materials, superlubricity, and much more. The tests can be done in air, vacuum chamber, or in a controlled inert gas atmosphere. The wear mark can be easily imaged using in-line profilometer and Raman spectrometer to characterise roughness, wear and chemical property across the track au-tomatically.Ultra Low Friction,nm to Micron Films, CoatingsSoftwareThe tester comes with a powerful operation, statistical and image analysis software. All software is Win-dows based and is very easy to learn and operate. The software runs the tool in advanced mode for ex-perienced users, or simple mode for new users or operators. The data can be saved in proprietary format or in ASCII format.XY Stage• Floor standing- Micro, Macro • Bench top- Nano, Micro • Data Acquisition 200 kHz• Range: 130x270mm• Motion resolution: 0.1µm • Maximum speed: 50mm/sMultiple Z StagesComputer ConsoleFacilities RequirementEnvironmental Chambers (Optional)Various Imaging ModulesAdditional SensorsVarious Mechanical HeadsLower DrivesRotary DriveFast Reciprocating DriveLong StrokeFast ReciprocatingFretting DriveBlock On Ring Drive• Max speed: 10mm/s, 500um/s• Motion resolution: 0.25um, 10nm• Latest Windows OS • LCD monitor• Power Requirements:110 VAC/ 240 VAC /480VAC• -120°C up to 1200°C • 5 to 90% RH • Vacuum • Liquid • Inert gas • Corrosion • Salt Spray •High Pressure• White light interferometer • 3D Confocal microscope • Variable Focus• Raman spectrometer • High mag. microscope •Atomic force microscope• Potentiostats • Acoustic emission • Electrical resistance •pH probes• Tribometer • Indentation • Scratch •MechanicalAll drives are in addition to drives mentioned in platform specification• Range 360°• Max speed up to 30000 RPM • Min speed 0.001 RPM (low speed drive)• Speed up to 80Hz• Stroke 0.1mm to 30mm• Speed 35Hz• Stroke 40mm at 40Hz• Speed up to 500Hz • Stroke 5 µm to 4mm • Range 360°• Speed up to 7000 RPMPlatform SpecificationSurface InspectionTest ModulesWide ApplicationsThe versatility of tester allows the tribometer to play an important role for several applications. It canbe used for thin or thick films, lubricants, materials, soft materials, hydrogels, bio materials, smooth or rough surfaces, flat or rough surfaces, transparent or opaque surfaces, nano or macro scale, coating or bulk materials, and more.High Temperature• Hot hardness Tester (up to 1200°C)• High Temperature Tribology (up to 1200°C)Lubricants, Grease• Block on Ring, Timken OK • 4-Ball EP and Wear • HFRR• Twist Compression • SRV• Tapping Torque, Cutting, Drilling •Piston Ring Cylinder LinerMechanical• Hot Hardness • 3, 4 Point Bending • AdhesionCryogenic• Low temperature Tribology (from -120°C)Corrosion Testing• Tribo Corrosion • Salt SprayFriction Wear• Rotary Pin on Disk Tribometer, Ball on Disk • Reciprocating• Brake Materials Tribology • Fretting• Low Friction, Nano Tribology •Bio TribologyCoatings• Scratch Test, Adhesion, Hardness • 2D Materials, Low Friction Coatings • Fretting• Pin on Disk, Ball on Disk • Reciprocating• Fracture Toughness• High Temperature Tribology up to 1200°C •Scratch and Mar ResistanceIndustrial• Brake Materials Screening • Optical lens• Cutting Tools, Hard Coatings • Piston Ring Cylinder Liner • High Pressure Chamber • Aerospace Tribology • Textile • Bearings•Additive ManufacturingHigh Pressure• CompressorAbout usRtec-Instruments develops and manufactures advanced imaging and surface mechanical property measurement solutions for research and industrial applications. Based in Silicon Valley, we are the leading provider of testing instrumentation such as tribometer, optical profilometer, 3D scratch tester and micro/nano hardness tester.We share a philosophy that embraces collaboration and partnership with customers, leaders in academia and industry, to ensure that our prod u cts answer real needs with innovative solutions.2020 Rtec Instruments Product Catalogue. All rights reserved.All specifications are typical and subject to change without notice.Rtec Instruments, US1810 Oakland Road, Ste B San Jose, CA, 95131, USA Phone: +1 408 708 9226Rtec Instruments, SA Rue Galilée 6,1400 Yverdon-les-Bains, Switzerland Phone: +41 24 552 0260Rtec Instruments, CNRoom 1002-2, Building 1, #69 Olympic St Jianye District, Nanjing, China, 210019Phone:+862583210072,+86180****2749。

59170Portable Crimp Tools, Premium Crimp Tooling, Not Releasable, Not Adjustable,Fixed In Tool, MIL Spec / TE Product Specification (114-)08/31/2020 04:08PM | Page 1 For support call+1 800 522 6752Application Tooling>Portable Crimp ToolsCertification:Upon Request for FeeSpecification Type:MIL Spec, TE Product Specification (114-)Die Sets Type:Fixed In ToolRatchet Configuration:Not Releasable, Not AdjustableTool Grade:Premium Crimp ToolingFeaturesOtherCrimp Form-Wire Barrel Type Closed Barrel - Confined CrescentTool Grade Premium Crimp ToolingRatchet Configuration Not Releasable, Not AdjustableDie Sets Type Fixed In ToolSpecification Type MIL Spec, TE Product Specification (114-)Certification Upon Request for FeePower Type Battery, ManualTool Type T Head Hand ToolProduct ComplianceFor compliance documentation, visit the product page on >EU RoHS Directive 2011/65/EU Out of ScopeEU ELV Directive 2000/53/EC Out of ScopeChina RoHS 2 Directive MIIT Order No 32, 2016Not reviewed for China RoHS complianceEU REACH Regulation (EC) No. 1907/2006Current ECHA Candidate List: JUN 2020(209)Candidate List Declared Against: JUN 2016(169)Does not contain REACH SVHCHalogen Content Not Yet Reviewed for halogen content59170 ACTIVEAMPTE Internal #:59170Portable Crimp Tools, Premium Crimp Tooling, Not Releasable,Not Adjustable, Fixed In Tool, MIL Spec / TE Product Specification(114-)View on >08/31/2020 04:08PM | Page 2For support call+1 800 522 6752Halogen Content Not Yet Reviewed for halogen content Solder Process CapabilityNot applicable for solder process capabilityProduct Compliance DisclaimerThis information is provided based on reasonable inquiry of our suppliers and represents our current actual knowledge based on the information they provided. This information is subject to change. The part numbers that TE has identified as EU RoHS compliant have a maximum concentration of 0.1% by weight in homogenous materials for lead, hexavalent chromium, mercury, PBB, PBDE, DBP, BBP, DEHP, DIBP, and 0.01% for cadmium, or qualify for an exemption to these limits as defined in the Annexes of Directive 2011/65/EU (RoHS2). Finished electrical and electronic equipment products will be CE marked as required by Directive 2011/65/EU. Components may not be CE marked.Additionally, the part numbers that TE has identified as EU ELV compliant have a maximum concentration of 0.1% by weight in homogenous materials for lead, hexavalent chromium, and mercury, and 0.01% for cadmium, or qualify for an exemption to these limits as defined in the Annexes of Directive 2000/53/EC (ELV). Regarding the REACH Regulations, TE’s information on SVHC in articles for this part number is still based on the European Chemical Agency (ECHA) ‘Guidance on requirements for substances in articles’(Version: 2, April 2011), applying the 0.1% weight on weight concentration threshold at the finished product level. TE is aware of the European Court of Justice ruling of September 10th, 2015 also known as O5A (Once An Article Always An Article) stating that, in case of ‘complex object’, the threshold for a SVHC must be applied to both the product as a whole and simultaneously to each of the articles forming part of its composition. TE has evaluated this ruling based on the new ECHA “Guidance on requirements for substances in articles” (June 2017, version 4.0) and will be updating its statements accordingly.TE Model / Part #342102-122-16 F.E.P.G. RING TONGUE NO.TE Model / Part #8-34148-1PG R 22-16 COMM 22-18 MIL 8TE Model / Part #34140PG R 22-16 COMM 22-18 MIL 2TE Model / Part #342104-122-16 F.E.P.G.RING TONGUE'0BA'TE Model / Part #32944PG R 22-16 COMM 22-18 MIL 4TE Model / Part #32952PG R 22-16 COMM 22-18 MIL 10TE Model / Part #8-34162-1TERMINAL,PG R 16-14 1/4TE Model / Part #342117-122-16 F.E.P.G. SPADE 4BA STUDTE Model / Part #34164TERMINAL,PG R 16-14 3/8TE Model / Part #342105-122-16 F.E.P.G. RING TONGUE NO.TE Model / Part #CAT-P592-R472PIDG RADIATION REST/150 C RINGS /SPADESTE Model / Part #CAT-P592-R472A PIDG RING TONGUE TERMINALSCompatible Parts08/31/2020 04:08PM | Page 3For support call+1 800 522 6752TE Model / Part #1616028-2B138XAH=RELAYTE Model / Part #2-5329452-2BNC JACK KITTE Model / Part #063567-000D-146-60-0TE Model / Part #160887-000D-106-6025TE Model / Part #000989-000D-106-6021TE Model / Part #69272-1SAHT SPARE WIRE CAP .036-.138TE Model / Part #3-1616058-3A770N=RELAYTE Model / Part #DTS24W11-35SA RECP ASSYTE Model / Part #45730SADAHT PO INSUL STRATOTHERMTE Model / Part #1901600-2CCII, STRATOTHERM, 18-16, SHRTTE Model / Part #34163TERMINAL,PG R 16-14 5/16TE Model / Part #342101-122-16 F.E.P.G.RING TONGUE NO.6TE Model / Part #8-34150-1PG R 22-16 COMM 22-18 MIL 1/4TE Model / Part #328308SPARE WIRE CAP,BLU, 16-14 AWGTE Model / Part #328307SPARE WIRE CAP,RED 22-18 AWGTE Model / Part #34152PG R 22-16 COMM 22-18 MIL 3/8TE Model / Part #32950PG R 22-16 COMM 22-18 MIL 6TE Model / Part #2-34161-2TERMINAL,PG R 16-14 10Customers Also BoughtDocumentsProduct DrawingsProduct DrawingsT-HD HT, SH PIDG 22-14EnglishDatasheets & Catalog PagesCERTI-CRIMPII-Premium-August-1-1773864-7EnglishCrimp Term Whitepaper-Use the Right Tool 1-1773953-1EnglishCRIMPING WHERE FORM MEETS FUNCTIONEnglishBottoming DiesEnglishInstruction SheetsInstruction Sheet (U.S.)EnglishInstruction Sheet (U.S.)English08/31/2020 04:08PM | Page 4 For support call+1 800 522 6752。

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21060631130103040107倒置荧光显微镜1X71-F22FL/PH-241012007876903030706液相色谱-质谱联用仪LCMS-2010A 41010105710203030903核酸蛋白纯化分析VDS-CL 41010430950203030976快速蛋白纯化系统AKTAEXPLORER 10S 41012007312303030623气相色谱仪QP-2010S 41012012353603030973荧光定量PCR仪CFX96 41012011139003040107全自动倒置DIC显微系统IX81 41012009275404400111组织培养室* 41012007949703170318磷屏幕成像系统PERSONAL MOLECULAR 41012012432103061700落地式高速离心机J-26XP 41010265170203060900人工气候室系统27m2 41010504080204171114温室大棚* 41012011139103060507真空冷冻干燥机CHIRST ALPHA 2-4/L 1702010119150203100500食品测试仪器TAXTII 1702032009029803030714气质联用仪GCMS-GP2010 1702032009020803031225分子蒸馏装置VKL70 1702032009020603030623高效液相色谱仪LC-20A 1702032009020403030623气相色谱仪GC2010 1702062010179603030429全自动原子荧光光谱仪PF6-3领用单位号仪器编号分类号仪器名称型号18062009567403190301宽带采样示波器EYE-110C-001-FA 18062010497503190733信号质量分析仪MT1810A 18062007550203190711频谱分析仪E4407B 18060574460103190602信号发生器及附件E8257C 18060481690103040823电动LD藕合系统ES5200 1802028800320103030502全自动Ｘ射线衍射仪D/MAX-3C 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HCI3102007-2-12007-2-1 *253869.12日立公司51600682002-9-12002-10-1214792011-6-12011-8-1 *235500Brookhaven Instrumen12213聂朝胤聂朝胤YDL 12213陈志谦陈志谦* 12213何洪** 12213李庆** 12213李庆李庆* 1D213孙玉川孙玉川* 12213孙玉川孙玉川YDL 12213王勇王勇* 12213孙玉川孙玉川* 12213孙玉川孙玉川YDL 12213孙玉川孙玉川YDL 11213杨琰杨琰YDL 11213李廷勇李廷勇YDL 12213彭远义彭远义YDL 12213陈亚兰陈亚兰* 12213魏学良魏学良* 12213王鲜忠王鲜忠* 12213何小令加工组* 12213王雪峰病毒组* 12213周彦病毒组* 12213凌丽俐脐橙组* 12213孙志高加工组* 12213黄学根加工组* 12213冯锦英资源组* 12213赵其阳质检中心* 12213凌利丽脐橙组* 12213易时来高产组* 12213黄学根加工组* 12213黄学根加工组* 12213何小令加工组* 12213凌丽俐脐橙组* 12213郑永强高产组* 12213易时来高产组* 11213刘昌华罗玲* 12213马学兵马学兵* 12213彭云贵彭云贵* 12213彭云贵彭云贵* 12213袁若** 12213黄承志黄承志* 12213黄承志黄承志* 12213周光明周光明YDL 12213柴雅琴柴雅琴* 12213黄玉明黄玉明* 12213黄玉明** 12213黄玉明黄玉明*12213黄玉明黄玉明* 12213郑鹄志郑鹄志* 12213郑鹄志郑鹄志* 12213陈福南郑鹄志* 12213黄玉明** 12213黄玉明黄玉明* 11213黄玉明黄玉明* 12213黄玉明黄玉明YDL 1D213黄承志黄承志*1D213黄承志黄承志YDL 12213孔玲** 12213黄承志黄承志YDL 12213黄承志黄承志* 12213黄承志黄承志* 12213黄承志黄承志* 12213黄承志** 12213黄承志黄承志* 12213黄承志黄承志* 12213黄承志黄承志* 12213黄承志黄承志YDL 12213黄承志黄承志* 12213周光明周光明*1D213程道军程道军*1D213刘春刘春*1D213刘春刘春*1D213李春峰李春峰*1D213li刘春li刘春*1D213刘春刘春* 12213程道军程道军*1D213何宁佳何宁佳YDL 1D213刘春刘春* 12213赵爱普赵爱普YDL 1D213徐新福徐新福* 12213*YDL 12213柴友荣柴友荣* 12213吕俊吕俊wwww 12213罗凌飞罗凌飞* 12213罗凌飞罗凌飞* 12213罗凌飞罗凌飞YDL 12213罗凌飞罗凌飞YDL 12213罗凌飞罗凌飞* 12213罗凌飞罗凌飞YDL 12213罗凌飞罗凌飞* 12213罗凌飞罗凌飞* 12213罗凌飞罗凌飞*12213罗凌飞罗凌飞YDL12213罗凌飞罗凌飞*12213杨春贤杨春贤*12213杨春贤杨春贤*12213朱海燕**12213朱海燕**1D213朱海燕朱海燕YDL12213罗克明罗克明*12213罗克明罗克明*12213周启贵**15213徐耀波唐云明*12233黄红辉黄红辉*11213蒲德永蒲德永*12213王德寿王德寿*12213张志升张志升*12213王德寿王德寿YDL12213蒲德永**12213张其中张其中YDL12213谢建平**15213罗小英罗小英*12213杨星勇杨星勇*12213杨星勇杨星勇*1D213杨星勇杨星勇*1D213李德谋李德谋*12213李德谋李德谋*12213*YDL1D213李德谋李德谋YDL1D213张觅张觅*12213侯磊侯磊*12213侯磊侯磊*11213李德谋李德谋*12213童华荣候大军*12213郑炯郑炯*12213郑炯郑炯YDL12213郑炯郑炯YDL12213郑炯郑炯YDL1D213郑炯郑炯YDL存放地名称现状经费科目使用方向设备来源采购形式领用人经手人记帐人12213吴正茂吴正茂YDL12213吴正茂吴正茂*12213吴正茂吴正茂*12213吴正茂吴正茂*12213吴正茂吴正茂*15213王跃王跃*12213王俊忠王俊忠*12213熊祖洪熊祖洪YDL 12213陈鹏陈鹏* 12213陈洪陈洪* 12213熊祖洪熊祖洪* 12213陈洪陈洪* 12213袁绥华袁绥华* 12213熊祖洪熊祖洪* 12213陈洪陈洪* 12213邱晓燕邱晓燕* 12213熊祖洪熊祖洪* 12213邱晓燕邱晓燕YDL 12213熊祖洪熊祖洪* 12213熊祖洪** 12213熊祖洪熊祖洪YDL 12213刘光远刘光远YDL 12213阮昆良** 12213** 12213刘强刘强* 12213袁红** 11213袁宏袁宏YDL 1D213袁宏刘强YDL 1D213刘强刘强YDL 11213袁宏袁宏YDL 11213袁宏袁宏YDL 12213凤四海** 11213杨瑜杨瑜* 11213刘强刘强YDL 11213刘强刘强YDL 12213张继芬张继芬YDL 12213张继芬张继芬* 12213付克锋付克锋* 12213陈宗英陈宗英* 12213张保顺张保顺* 11213何桥何桥* 11213何桥何桥* 1D213刘世尧刘世尧* 1D213刘世尧刘世尧* 1D213刘世尧刘世尧* 1D213刘世尧刘世尧* 11213苏承刚苏承刚YDL 12213眭顺照眭顺照YDL 1D213邓新平邓新平* 15213吴仕源吴仕源YDL 12213王进军王进军YDL 12213豆威豆威*12213黄建国黄建国* 11213王定勇王定勇YDL 12213王定勇王定勇* 12213王定勇王定勇* 11213林锋林锋* 1D213魏朝富** 12213杨剑虹杨剑虹* 1D213李航李航*2007-10-31745108金属材料磨损试验机2003-4-30745103万能试验机2005-4-30743104金相显微镜2005-4-30743408紫外可见近红外分光光度计2008-9-25071316研磨机744623色谱质谱联用仪2011-12-31 其中含水电2008-12-17744199其他电化学分析仪器2004-12-31744499其他光学式分析仪器2004-12-31744199其他电化学分析仪器2008-12-17744629其他色谱仪2008-12-17744629其他色谱仪2010-6-28744619其他质谱仪2008-4-30743404光谱分析仪2008-12-26其中含配套744900其他分析仪器2007-7-31743101生物显微镜2001-12-28743199其他显微镜2012-4-28744900其他分析仪器2010-4-9389000其他饮料加工机械2007-8-14744900其他分析仪器2007-8-14746401试验用离心机2008-12-31743499其他物理光学仪器2010-12-2375203灭菌器2006-12-31462202物理、化学处理设备2007-8-13741129其他温度仪表2006-12-31744621气相色谱仪2008-8-31744900其他分析仪器2009-12-31744401光电比色分析仪器2006-12-31744621气相色谱仪2006-12-31744621气相色谱仪2008-8-31746900其他实验仪器及装置2009-12-31761104活体叶绿素仪2010-7-28744900其他分析仪器2010-12-30743101生物显微镜1997-9-1764115数学用化学分析及化工仪器2007-6-30744629其他色谱仪2004-12-31743416旋光仪2005-12-22744629其他色谱仪2001-6-18744199其他电化学分析仪器2011-11-30746900其他实验仪器及装置2011-11-30743602扫描电子显微镜2008-4-30744629其他色谱仪2005-12-26744199其他电化学分析仪器2004-9-30744623色谱质谱联用仪2001-12-31744199其他电化学分析仪器2010-9-292011.03.07744199其他电化学分析仪器2002-12-31743199其他显微镜2000-12-31743412荧光分光光度计2000-6-30744609其他波谱仪2005-12-14744629其他色谱仪2006-12-27744199其他电化学分析仪器2011-12-13743410原子吸收分光光度计2009-11-12744629其他色谱仪2007-5-31743601透射电子显微镜2008-12-9744499其他光学式分析仪器2005-7-31743199其他显微镜2010-6-24全名：转盘744624离子色谱仪2006-4-30744499其他光学式分析仪器2004-12-20744199其他电化学分析仪器2005-6-30744900其他分析仪器2006-10-31743404光谱分析仪2004-12-20744629其他色谱仪743404光谱分析仪2011-11-30 全名：傅显2011-11-30全名：纳米767200生理仪器2010-6-24743412荧光分光光度计2007-11-30743408紫外可见近红外分光光度计2002-12-31744499其他光学式分析仪器2010-10-15744900其他分析仪器2010-10-15744900其他分析仪器2010-10-15744900其他分析仪器2007-1-31744900其他分析仪器2010-10-15744900其他分析仪器2010-10-15741900其他自动化仪表2001-9-11744900其他分析仪器2009-4-22744199其他电化学分析仪器2010-10-15744900其他分析仪器2008-6-17743199其他显微镜2007-6-30744629其他色谱仪2008-3-24744900其他分析仪器2003-11-19744629其他色谱仪2008-11-18744900其他分析仪器2011-12-28743199其他显微镜2011-12-23764116教学用生理仪器2010-2-28743199其他显微镜2010-2-28761199其他农林牧渔专用仪器2007-6-30746499其他生物、医学样品制备设备2010-2-28761199其他农林牧渔专用仪器2007-6-30743103体视显微镜2007-6-30743103体视显微镜2011-12-28743199其他显微镜2011-12-28743103体视显微镜2011-6-30744629其他色谱仪2011-6-30744900其他分析仪器2005-1-31744900其他分析仪器2005-4-30744900其他分析仪器2009-12-31744900其他分析仪器2012-2-24744629其他色谱仪2011-12-31744900其他分析仪器2006-12-27743410原子吸收分光光度计1987-12-1746401试验用离心机2012-2-29761199其他农林牧渔专用仪器2011-2-23744900其他分析仪器2007-11-30744900其他分析仪器2011-12-28743103体视显微镜2009-6-29743101生物显微镜2002-5-23744302热化学分析仪器2009-5-14743101生物显微镜2006-11-30743101生物显微镜2007-11-30744623色谱质谱联用仪2001-9-11744900其他分析仪器2004-11-2744900其他分析仪器2007-6-30744629其他色谱仪2012-4-25744900其他分析仪器2011-4-21743101生物显微镜462202物理、化学处理设备2009-6-18 其中含四台2007-12-26464302专用照相机2012-4-30746401试验用离心机2002-12-26746499其他生物、医学样品制备设备2005-1-27345900其他植物保护机械2011-4-21746301干燥箱761199其他农林牧渔专用仪器2001-12-282009年1月加2009-3-18744619其他质谱仪2009-1-31744900其他分析仪器2009-1-31744629其他色谱仪2009-1-31744629其他色谱仪2010-6-23744499其他光学式分析仪器入库时间备注国标分类号国标分类名2009-11-30756301通用示波器2010-11-30756201频谱分析仪2007-9-30756201频谱分析仪2005-12-22751103高频信号发生器2004-12-21743501光导纤维测试仪器1988-3-1744501ｘ射线衍射仪2010-11-30全名：超高743199其他显微镜2008-6-30746900其他实验仪器及装置2007-7-30742609其他测磁仪器2007-4-30711701台式机2005-10-31172100真空镀膜机2004-12-20719000其他电子计算机及其外围设备2003-10-31743404光谱分析仪2006-12-29764119教学用技术基础课仪器2011-9-30机箱70000+701299其他电视发射机2011-8-31全名：单室172900其他真空应用设备2006-6-30764106教学用电磁学实验仪器2009-9-30全名：高精757399其他电视机用测量仪器2007-5-31743404光谱分析仪2006-6-30162000冷库制冷设备2009-12-22全名：太阳743404光谱分析仪2008-2-29767200生理仪器2006-12-31767200生理仪器2007-3-31767200生理仪器2010-9-25744601核磁共振波谱仪2005-1-31767200生理仪器2009-11-23767200生理仪器2007-12-29767200生理仪器2007-12-29767200生理仪器767200生理仪器2009-11-23 全名：64导767200生理仪器2009-11-23 全名：64导2002-12-13767200生理仪器2011-12-31767100心理仪器2009-11-23767100心理仪器2009-11-23全名Eyelin767200生理仪器744629其他色谱仪2009-10-29 其中含惠普2011-11-28746301干燥箱2012-4-28744900其他分析仪器2010-7-14744629其他色谱仪2008-1-31746401试验用离心机2011-10-31757199其他通讯、导航测试仪器2011-10-31744499其他光学式分析仪器2011-12-31744629其他色谱仪2011-12-31744623色谱质谱联用仪2011-12-31744629其他色谱仪2011-12-31743410原子吸收分光光度计2010-3-26744900其他分析仪器2010-6-30744900其他分析仪器2007-6-30744629其他色谱仪2008-5-30743103体视显微镜2007-10-31744900其他分析仪器2012-4-30743199其他显微镜2004-6-30744629其他色谱仪2010-3-25454202尿液分析系统2012-3-23其中含水电744703水质污染分析装置2003-12-26744629其他色谱仪2010-8-26其中含联想744609其他波谱仪2007-12-24743404光谱分析仪2002-11-22743410原子吸收分光光度计2012-4-30741303自动平衡显示仪薄膜材料实验室材料学院材料学基础实验室材料学院陈志谦材料学基础实验室材料学院纳米材料实验室材料学院纳米材料实验室材料学院岩溶环境实验室地理学院岩溶环境实验室地理学院岩溶环境实验室地理学院岩溶环境实验室地理学院岩溶环境实验室地理学院岩溶环境实验室地理学院自然地理实验室地理学院谢世友139********自然地理实验室地理学院分子生物学与生物技术实验室动物科技学院牧草生产工艺与草地工程实验室动物科技学院牧草与草食家畜重点室动物科技学院李云135********牧草与草食家畜重点室动物科技学院柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所柑桔研究所应用化学研究所化学化工学院李念兵138********应用化学研究所化学化工学院应用化学研究所化学化工学院应用化学研究所化学化工学院电化学实验室化学化工学院发光与实时分析教育部重点实验室化学化工学院黄承志139********发光与实时分析教育部重点实验室化学化工学院分析测试中心化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院分析科学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院环境化学研究所化学化工学院基础化学实验教学示范中心化学化工学院蚕学与系统生物学研究所办公室家蚕基因组生物学国家重点实验室杨光伟139********蚕学与系统生物学研究所办公室家蚕基因组生物学国家重点实验室蚕学与系统生物学研究所办公室家蚕基因组生物学国家重点实验室蚕学与系统生物学研究所办公室家蚕基因组生物学国家重点实验室蚕学与系统生物学研究所办公室家蚕基因组生物学国家重点实验室蚕学与系统生物学研究所办公室家蚕基因组生物学国家重点实验室蚕学与系统生物学研究所办公室家蚕基因组生物学国家重点实验室蚕学与系统生物学研究所办公室家蚕基因组生物学国家重点实验室蚕学与系统生物学研究所办公室家蚕基因组生物学国家重点实验室蚕学与系统生物学研究所办公室家蚕基因组生物学国家重点实验室油菜研究室农生院重庆市作物品质改良重点实验室农生院何光华重庆市作物品质改良重点实验室农生院重庆市作物品质改良重点实验室农生院分子发育生物学实验室生命科学学院分子发育生物学实验室生命科学学院分子发育生物学实验室生命科学学院分子发育生物学实验室生命科学学院分子发育生物学实验室生命科学学院分子发育生物学实验室生命科学学院分子发育生物学实验室生命科学学院分子发育生物学实验室生命科学学院分子发育生物学实验室生命科学学院分子发育生物学实验室生命科学学院分子发育生物学实验室生命科学学院甘薯中心生命科学学院甘薯中心生命科学学院三峡库区重点实验室生命科学学院三峡库区重点实验室生命科学学院三峡库区重点实验室生命科学学院三峡库区重点实验室生命科学学院三峡库区重点实验室生命科学学院三峡库区重点实验室生命科学学院生命科学实验教学中心生命科学学院水产所生命科学学院水产所生命科学学院水产所生命科学学院水产所生命科学学院水产所生命科学学院水产所生命科学学院水产所生命科学学院现代医药研究所生命科学学院罗克明159********生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心生物技术中心办公室生物技术中心茶学实验室食品科技学院食品加工及贮藏实验室食品科技学院食品加工及贮藏实验室食品科技学院食品加工及贮藏实验室食品科技学院食品加工及贮藏实验室食品科技学院食品科学系食品科技学院阚建全138********领用单位名所在学院科研副院长联系方式光电技术研究所物理学院光电技术研究所物理学院光电技术研究所物理学院光电技术研究所物理学院光电技术研究所物理学院近代物理实验室物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院现代物理研究所物理学院信号与信息处理研究所物理学院吴正茂130********心理学实验教学中心心理学院虚拟现实实验室心理学院眼动实验室心理学院陈旭136********眼动实验室心理学院眼动实验室心理学院眼动实验室心理学院眼动实验室心理学院眼动实验室心理学院眼动实验室心理学院眼动实验室心理学院眼动实验室心理学院眼动实验室心理学院眼动实验室心理学院分子药理学实验室药学院分子药理学实验室药学院药物分析实验室药学院药物评价中心药学院黄承志139********药用资源药学院果树研究室园艺园林学院果树研究室园艺园林学院南方山地园艺学教育部重点实验室园艺园林学院南方山地园艺学教育部重点实验室园艺园林学院南方山地园艺学教育部重点实验室园艺园林学院南方山地园艺学教育部重点实验室园艺园林学院蔬菜研究室园艺园林学院园艺园林花卉实验室园艺园林学院周志钦昆虫实验室植物保护学院昆虫学重点实验室植物保护学院刘怀139********昆虫学重点实验室植物保护学院昆虫学重点实验室植物保护学院。

车辆标准目录1范围 (2)2与工艺有关的零件–使用的禁止和限制 (2)3工艺的描述 (3)3.1脱脂和除垢 (3)3.2电解镀锌（代号ZNI） (3)3.3脱气（代号D） (3)3.4钝化（代号3或6） (4)3.5表面精饰层（代号P，I，R或L） (4)4代号 (5)5覆盖层的特性和要求 (6)5.1覆盖层的组成 (6)5.2锌镍电镀层的厚度 (6)5.3颜色和外观 (6)5.4附着强度和耐热冲击性能 (6)5.5耐盐雾性能（D17 1058） (7)5.6磨擦系数 (7)6电镀厂家对镀锌工艺的控制 (7)附件1 PSA集团批准的镀锌、钝化、表面精饰产品和供货商一览表—PSA集团对工业生产线上施加覆盖层的零件试验后批准 (9)附件2 PSA集团批准的镀锌、钝化、表面精饰产品和供货商一览表—PSA集团对中试装置生产线上施加覆盖层的零件试验后批准（注） (10)7标准演变和引用文件 (11)7.1标准演变 (11)7.2引用文件 (11)7.3等效于 (11)7.4等同于 (11)7.5关键词 (11)1 范围本标准：• 规定了采用称为“大桶”或“散装”的工艺镀成的，用于钢制零件防腐保护的，以锌为基础的电镀覆盖层的性质：必须是采用无氰碱性槽的含镍12%～15%的锌电镀层，不允许是任何其它的锌电镀层。

注1：对于同样零件的防腐保护，也可以采用层状镀锌（标准B15 3310和标准B15 3312）。

• 对于这些电镀覆盖层，规定了在图纸上或标准文件中应标注的代号。

• 具体规定了这些覆盖层应当满足的要求。

• 在附件中列出了经PSA集团批准、供货商和制作覆盖层分包商应当使用的产品的商业代号。

注2：本标准的要求应当可以达到1999年2月制定的“PSA集团腐蚀目标”，特别是在以下几方面：• 耐脱落时间＞6年。

• 车身下面无红锈＞3年。

• 发动机罩下面和开关件无红锈＞5年。

注3：用锌镍镀成的镀层应当能够允许用以三价铬为基础的钝化代替以六价铬为基础的钝化（符合有关报废车辆的欧洲指令的要求：参阅3.4条的注1），同时，与纯锌镀层相比，能改进在车辆上的耐腐蚀性。

PSA 标致－雪铁龙集团车辆标准目录1. 主题内容 (1)2. 文件上的表示方法 (2)3. 覆盖层的功能（镀后表面处理与镀锌层） (2)3.1. 精饰 (2)3.2. 沉积 (3)4. 表示符号 (4)5. 应用范围 (5)6. 操作程序 (6)7. 表面预处理 (6)8. 锌层 (7)8.1. 厚度与表示符号 (7)8.2. 螺钉类零件 (8)8.3. 镀层的检验 (8)9. 去氢处理（用字母D标记，见§4） (8)9.1. 概述 (8)9.2. 应用 (9)10. 镀后表面处理 (10)10.1. 选择与表示符号 (10)10.2. 镀后表面处理类型及要求 (10)11. 储存 (12)12. 标准演变和引用文件 ............................................................................................. 错误!未定义书签。

12.1. 标准演变 ........................................................................................................... 错误!未定义书签。

12.2. 引用文件 (13)12.3. 等效于 (13)12.4. 等同于 (13)12.5. 关键词 (13)1.主题内容本标准规定了在铁基材料上，在水溶性电解液中，用电解法获得的单层或多层镀锌层，以及除锌—镍合金以外的纯锌及锌合金（钴—铁）镀层（见备注）。

为保证耐蚀性能要求，保护零件外观，本标准规定了锌层厚度、电解槽型式以及多种不同的镀后表面处理工艺。

注：此处锌镍镀层是指在专用酸槽内得到的镀层（含10%到15%镍），这种镀层仅能用于大型零件或铸铁件。

重要事项：当采用油漆镀后表面处理时，本标准仅给出了镀锌层的厚度，此时，本标准应该与“金属机械零件油漆层”标准B15 5220同时使用。

APPLICATION: Combines: 6600 After 156500; 6602 After 1500; 7700 After 8000;Tractors: 4230, 4040;QTY ITEM # DESCRIPTION LETTERED ITEMSINCLUDED IN KIT1 951418 Underhaul Kit U1 954422 In-Frame Kit I1 955422 Out-of-Frame Kit O1 956422 Major Kit M 1 956423 Major Kit (Hi-Comp / Hypereutectic Pistons) M6 6 6 6 6 1 1 151526 151524 151527 151519 151115 151486 151521 Sleeve & Piston Assembly Sleeve & Piston Asb (Hi-Comp / Hypereutectic Pistons) Piston Assembly (Late Hi-Ring Design)Liner AssemblyLiner O-Ring Package.002 Liner ShimBlock Repair Insert, Lower Liner Pilot Bore (2 Grooves)MM O I6 151528 Piston Ring Set (1-1/8K 1-3/32 1-3/16)6 6 6 6 6 251167 251168 251169 251171 251172 STD Rod Bearing .002 Rod Bearing.010 Rod Bearing.020 Rod Bearing.030 Rod BearingM M O I U1 1 1 1 1 251222 251223 251224 251225 251226 STD Main Bearing Set w/Thrust Washers .002 Main Bearing Set w/Thrust Washers.010 Main Bearing Set w/Thrust Washers.020 Main Bearing Set w/Thrust Washers.030 Main Bearing Set w/Thrust WashersM M O I U1 1 251521 251522 STD Thrust Washer Set .007 Thrust Washer Set1 1 1 6 12 351537 351345 351527 351161 301114 Head Gasket Set (1) Valve Cover Gasket (2)Manifold Gasket SetIntake Valve Seal (Viton O-Ring)Positive Valve Seal, Optional (Not in Gasket Sets) (3)I1 1 1 1 1 351538 351539 351312 351348 351569 Overhaul Gasket Set wo/Seals Block Gasket Set (4)Pan Gasket Set: Tractors (Incls 4 Gaskets & 5 O-Rings) (5) Pan Gasket: CombinesLower Pan-Clutch Hsg Gasket: Tractors w/SRT or QRT (6) M M O I IUU1 1 1 351152 351153 751179 Front Crank Seal Kit Rear Crank Seal Kit "Seal Housing Gasket - 351342" Rear Seal Housing Bolt Kit (Self Locking Bolts & W ashers)M M M M O O6 6 6 4 1 251518 251519 251244 251259 751182 Pin Bushing (Boreable) Pin Bushing (Honeable) Pin Bushing (.010 Oversize OD) Cam Bearing Rear Cam Plug M M M MMM12 1 1 751163 751263 751183 Rod Bolt Head Bolt KitEx Manifold Bolt Kit (8 Bolts & Washers)M M O I U(1)STD Thin Head Gasket - 351534 / Optional Thick Gasket (Piston Protrusion .009-.017") - 351575 (2)Special Cover Screw - 751256APPLICATION: Combines: 6600 After 156500; 6602 After 1500; 7700 After 8000;Tractors: 4230, 4040;QTY ITEM # DESCRIPTION LETTERED ITEMSINCLUDED IN KIT1 959513 Camshaft Kit C1 959313 Basic Valve Kit B1 959113 Valve Train Kit, Thru #532429 V1 959146 Valve Train Kit, After #532429 V1 551191Camshaft (7) (8) C 1 551186 Cam Thrust Plate (4 Bolt / .187" Thick)1 551278 Cam Gear Bolt, Late or Replacement Cam (1/2 x 2.000") (9)12 551181 Tappet C6 451216 STD Exhaust Valve (10) V V B6 451217 STD Intake Valve (11) V V B12 401141 Service Repair Valve Guide (.502" OD / 3.062" OAL) (12)12 451115 Valve Spring V V B6 451187 Exhaust Rotator V V6 451411 Intake Retainer, Thru #5324296 451187 Intake Rotator, After #532429 V12 451198 Valve Wear Cap24 451164 Keeper (Half) V V B6 451412 STD Exhaust Seat (1.500x1.750x.250) ".010 OS - 451414"6 451413 STD Intake Seat (1.687x1.937x.250) ".010 OS - 451415"6 451257 Rocker Arm, LH6 451258 Rocker Arm, RH1 451264 Rocker Arm Shaft (13) (14)1 551279 Cam Timing Gear1 551182 Crank Timing Gear, Early Design Crank (.750" Wide)1 551158 Crank Timing Gear, Late Design Crank (.910" Wide)1 551281 Injection Pump Drive Gear12 551277 Push Rod1 651216 Oil Pump: Combines1 651218 Oil Pump Drive Gear/Shaft 1 651215 Oil Pump Gear Set1 651221 Oil Pump Intake Screen: Tractors1 651217 Oil Cooler1 751123 Crankshaft (6 Bolt Flange)1 751265 Crank Update Parts Kit (2 Keys, 2 Plugs, Dowel Pin, Gear)1 751151 Damper Pulley: Tractors1 751266 Damper Pulley: Combines6 751255 Connecting Rod "Cap Alignment Sleeve - 751262"1 851365 Fuel Pump2 851211 Thermostat: Tractors (180 Degree) (15)2 851174 Thermostat: Combines (180 Degree)1 851255 Water Pump: Tractors "Overhaul Kit w/Impeller - 851256"1 851254 Water Pump: Combine "Overhaul Kit w/Impeller - 851257"1 851248 Block Heater (Press Fit Design)1 851249 Block Heater (Threaded Plug Design)(7)Cam Key - 551173 (8).193" Gear Spacer - 551198 (9)Cam Gear Washer - 551194(10)Oversizes: .003 - 451394 / .015 - 451395 / .030 - 451396 (11)Oversizes: .003 - 451397 / .015 - 451398 / .030 - 451399。

mtt 1055-2008 煤矿用机载锚杆钻机通用技术条件摘要：一、引言二、标准概述三、技术要求1.主要参数2.钻机结构3.钻杆及配件4.操作与维护四、试验方法五、检验规则六、标志、包装与运输正文：一、引言随着我国煤矿行业的快速发展，煤矿用机载锚杆钻机的应用越来越广泛。

为了规范这一设备的技术要求，确保其安全可靠，我国制定了相应的技术标准。

本文将对MT 1055-2008《煤矿用机载锚杆钻机通用技术条件》这一标准进行详细解读。

二、标准概述MT 1055-2008是我国煤矿用机载锚杆钻机的通用技术条件标准，适用于煤矿井下、露天煤矿及地下矿山的锚杆钻机。

本标准规定了煤矿用机载锚杆钻机的术语和定义、型号与基本参数、技术要求、试验方法、检验规则、标志、包装与运输等。

三、技术要求1.主要参数煤矿用机载锚杆钻机的主要参数包括：额定转矩、额定钻孔直径、最大钻孔深度、最大钻孔倾角等。

这些参数应符合标准规定的要求。

2.钻机结构钻机结构应具有足够的强度和刚度，确保其在井下恶劣环境中稳定工作。

主要部件包括：主机、操作台、履带行走装置、液压系统、电气系统等。

3.钻杆及配件钻杆及配件应具有良好的抗弯、抗扭和抗冲击性能。

钻杆的连接方式有螺纹连接和快速接头连接，应保证连接牢固、拆卸方便。

4.操作与维护煤矿用机载锚杆钻机的操作应简单便捷，易于掌握。

操作人员应经过专业培训，熟悉设备的结构、性能和工作原理。

设备的维护保养应定期进行，确保设备的正常运行。

四、试验方法本标准规定了煤矿用机载锚杆钻机的试验方法和步骤，包括：结构强度试验、性能试验、安全保护装置试验等。

五、检验规则设备出厂前应进行逐台检验，检验项目包括：外观检查、结构检查、性能检查、安全保护装置检查等。

设备应符合本标准的要求，才能出厂。

六、标志、包装与运输设备的标志应包括：产品名称、型号、规格、生产厂家、生产日期等。

包装应符合运输要求，确保设备在运输过程中不受损坏。

设备应有明确的运输注意事项，防止在运输过程中发生意外。

PSD-250油液取样器产品型号：PSD-250产品简介：PSD-250油液取样器是由西安普研检测工程有限公司按照普洛帝全球分析仪器事业部技术要求设计并制造，该款油液取样器由超硬铝合金（LC）特种材料制造，表面经过镀锌防绣处理，耐油、防水、防侵蚀，美观耐用。

符合QCT 29105.3-1992专用汽车液压系统液压油固体污染度测试方法取样、GBT17489-1998液压颗粒度污染分析从工作系统管路中提取液样、DLT571-2007电厂抗燃油验收、运行监督及维护管理导则等相关标准引入国际设备润滑管理理念，推出本款油液取样成套工具，为精准油品分析测试提供安全的环境，在抽取油液的样品时要防止尘土、杂质、水气的人为污染，以及前次抽样时的残留油液混入取样中。

本款油液取样工具包含一支负压型油液取样器枪、NAS1638 0级软管、250毫升油液NAS1638 0级清洁瓶。

可广泛用于液压元器件、液压系统、液压站、油缸、齿轮箱、变速箱、变压器、汽轮机组、反应釜、马达、发动机、泵、阀、轮毂、能器、过滤器、冷却器、加热器、油管、管接头、油箱、压力计、流量计、密封装置等等的油样抽样及手动取样。

技术参数：材质：LC超硬铝合金容积：250ml压力：2kpa执行标准：BGT17489软管&清洁瓶：NAS1638 0级数量可定制操作方法：1、先将油枪顶端的圆螺母拧松一圈，再将软管穿过螺母后拧紧固定油枪接头及软管。

软管应伸出油枪接头下端20cm,以免油枪接头和油枪内部进油污染。

2、250ml油液清洁瓶拧到油枪接头上即可进行抽油作业。

一般情况下，软管伸入深度约50mm,这样可以避免吸进沉积物。

3、将油枪手柄推到底，同时把油枪手柄往回拉，油瓶内就会形成真空，使油顺着软管流入油瓶。

250ml清洁瓶反复抽拉15次左右可抽满250ml取样瓶。

4、把油抽至油瓶上200ml标记处即可，不要使油瓶抽满油。

5、从油枪接头上拧下油液清洁样品瓶，装上内盖，注意避免混入尘土，外界杂质。

(19)中华人民共和国国家知识产权局(12)实用新型专利(10)授权公告号 (45)授权公告日 (21)申请号 201920212459.6(22)申请日 2019.02.19(73)专利权人 王华地址 161613 黑龙江省齐齐哈尔市克山县克山镇天泽社区(72)发明人 王华　(74)专利代理机构 哈尔滨龙科专利代理有限公司 23206代理人 高媛(51)Int.Cl.G01N 33/68(2006.01)G01N 1/28(2006.01)G01N 1/38(2006.01)(54)实用新型名称一种氨基酸检验分析装置(57)摘要一种氨基酸检验分析装置，属于食品检验氨基酸设备技术领域，包括固定底板、固定插板、固定滑板、活动下板、活动上板、活动摇把、转动装置，其特征在于：所述固定底板上顶端表面左边缘中间处固定连接有固定插板，所述固定底板上顶端表面右边缘中间处固定连接有固定滑板，所述固定插板与所述固定滑板之间内侧顶端表面下方处插装有活动下板，所述固定插板与所述固定滑板之间内侧顶端表面上方处插装有活动上板，所述活动上板上顶端表面中间处插装有活动摇把，所述活动上板内部横排平均分布插装有若干个转动装置，工作人员可以同时进行多种食品的氨基酸提取，并且工作人员可以同时使用不同高度的量杯进行提取。

权利要求书1页 说明书2页 附图4页CN 209590049 U 2019.11.05C N 209590049U权　利　要　求　书1/1页CN 209590049 U1.一种氨基酸检验分析装置，包括固定底板（1）、固定插板（2）、固定滑板（3）、活动下板（4）、活动上板（5）、活动摇把（6）、转动装置（7），其特征在于：所述固定底板（1）上顶端表面左边缘中间处固定连接有固定插板（2），所述固定底板（1）上顶端表面右边缘中间处固定连接有固定滑板（3），所述固定插板（2）与所述固定滑板（3）之间内侧顶端表面下方处插装有活动下板（4），所述固定插板（2）与所述固定滑板（3）之间内侧顶端表面上方处插装有活动上板（5），所述活动上板（5）上顶端表面中间处插装有活动摇把（6），所述活动上板（5）内部横排平均分布插装有若干个转动装置（7）。