HM69-80R30中文资料

ABV101............Accumulator Bleed-Down Valve......................MV15-MV17 CDP161............Double P.O. Check Valves..................................LH85-LH86 CDPH103..........Double P.O. Check Valves..................................LH83-LH84 CP044P............Single P.O. Check Valves...................................LH46-LH48 CP074P............Single P.O. Check Valves...................................LH49-LH51 CP084P............Single P.O. Check Valves...................................LH52-LH54 CPC101P..........Pilot-to-Close Check Valves...............................LH64-LH66 CPC161P..........Pilot-to-Close Check Valves...............................LH67-LH69 CPD084P..........Double P.O. Check Valves..................................LH80-LH82 CPH064P..........Single P.O. Check Valves...................................LH55-LH57 CPH104P..........Single P.O. Check Valves...................................LH58-LH60 CPH124P..........Single P.O. Check Valves...................................LH61-LH63 CS041B............Shuttle Valves....................................................LH87-LH89 CSH101B..........Shuttle Valves....................................................LH90-LH92 CSP161............Single P.O. Check Valves...................................LH78-LH79 CSPH103..........Single P.O. Check Valves...................................LH76-LH77 CV041P............Check Valves.........................................................LH1-LH3 CV081P &091P.................Check Valves.........................................................LH4-LH6 CV082P............Check Valves.........................................................LH7-LH9 CV101P............Check Valves.....................................................LH10-LH12 CV102P............Check Valves.....................................................LH13-LH15 CV103P............Check Valves.....................................................LH16-LH18 CVH061P..........Check Valves.....................................................LH25-LH27 CVH071P..........Check Valves.....................................................LH28-LH30 CVH081P &091P.................Check Valves.....................................................LH31-LH33 CVH103P..........Check Valves.....................................................LH34-LH36 CVH084P..........Check Valves.....................................................LH37-LH39 CVH104P..........Check Valves.....................................................LH40-LH42 CVH121P..........Check Valves.....................................................LH43-LH45 CVH161P..........Check Valves.....................................................LH19-LH21 CVH201P..........Check Valves.....................................................LH22-LH24 CVO101P..........Vent-to-Open Check Valves...............................LH70-LH72 CVO161P..........Vent-to-Open Check Valves...............................LH73-LH75 DF083...............Sol. Operated, P.C. Proportional Flow Cont...........PV1-PV4 DF092C............Sol. Operated, P.C. Proportional Flow Cont...........PV5-PV8 DF092N............Sol. Operated, P.C. Proportional Flow Cont.........PV9-PV12 DF102C............Sol. Operated, P.C. Proportional Flow Cont.......PV13-PV16 DF102N............Sol. Operated, P.C. Proportional Flow Cont.......PV17-PV20 DF102P............Sol. Operated, P.C. Proportional Flow Cont.......PV21-PV23 DF122...............Sol. Operated, P.C. Proportional Flow Cont.......PV24-PV27 DF161C............Solenoid Operated, Throttle Valves....................PV28-PV31 DF201C............Solenoid Operated, Throttle Valves....................PV32-PV35 DH082..............Pilot Operated, 2-Way Valves............................DC22-DC24 DH103..............Pilot Operated, Directional Valves......................DC25-DC28 DL081..............Manual, Poppet-Type, 2-Way Valves.....................DC1-DC3 DL101..............Manual, Poppet-Type, 2-Way Valves.....................DC4-DC6 DL102..............Manual, Spool-Type, 2-Way Valves.......................DC7-DC9 DL103..............Manual, Spool-Type, 3-Way Valves...................DC10-DC12 DL104..............Manual, Spool-Type, 4-Way Valves...................DC13-DC15 DM103.............Manual, Rotary, 3-Way Valves...........................DC16-DC18 DM104.............Manual, Rotary, 4-Way Valves...........................DC19-DC21 DPR083B..........Sol. Operated, Proportional Pres. Reducing......PV36-PV39 DPR083C..........Sol. Operated, Proportional Pres. Reducing......PV40-PV43 DPR083C30......Sol. Operated, Proportional Pres. Reducing......PV44-PV47 DPR083N.........Sol. Operated, Proportional Pres. Reducing......PV48-PV51 DPR103C..........Sol. Operated, Proportional Pres. Reducing......PV52-PV55DPR104C10......Sol. Operated, Proportional Pres. Reducing......PV56-PV59 DS085..............Solenoid, Spool-Type, 4-Way, 3-Pos.............DC127-DC130 DS086C6Mand 096............Sol., Bi-Directional, Poppet-Type, 2-Way.......DC148-DC151 DS105..............Solenoid, Spool-Type, 4-Way, 3-Pos.............DC131-DC134 DS161..............Solenoid, Poppet-Type, 2-Way Valves...............DC56-DC59 DS162..............Solenoid, Spool-Type, 2-Way Valves.................DC84-DC87 DS123B............Solenoid, Spool-Type, 3-Way Valves.............DC104-DC106 DS163..............Solenoid, Spool-Type, 3-Way Valves.............DC107-DC110 DS201..............Solenoid, Poppet-Type, 2-Way Valves...............DC60-DC63 DS083BP3........Solenoid, Poppet-Type, 3-Way Valves...............DC64-DC67 DSH08D1C.......Solenoid, Poppet-Type, 2-Way Valves...........DC139-DC141 DSH08D6C.......Solenoid, Poppet-Type, 2-Way Valves...........DC145-DC147 DSH081 & 091.Solenoid, Poppet-Type, 2-Way Valves...............DC36-DC39 DSH082 & 092.Solenoid, Spool-Type, 2-Way Valves.................DC72-DC75 DSH083............Solenoid, Spool-Type, 3-Way Valves.................DC92-DC95 DSH084............Solenoid, Spool-Type, 4-Way Valves.............DC115-DC118 DSH085............Solenoid, Spool-Type, 4-Way, 3-Pos.............DC135-DC138 DSH101............Solenoid, Poppet-Type, 2-Way Valves...............DC44-DC47 DSH102............Solenoid, Spool-Type, 2-Way Valves.................DC80-DC83 DSH103............Solenoid, Spool-Type, 3-Way Valves.............DC100-DC103 DSH104............Solenoid, Spool-Type, 4-Way Valves.............DC123-DC126 DSH106C6........Sol., Bi-Directional, Poppet-Type, 2-Way.......DC156-DC159 DSH121............Solenoid, Poppet-Type, 2-Way Valves...............DC52-DC55 DSL08D6C........Sol., Bi-Directional, Poppet-Type, 2-Way.......DC142-DC144 DSL080DC........Soft Seat, Direct Act., Poppet-Type, 2-Way.......DC29-DC31 DSL081 & 091.Solenoid, Poppet-Type, 2-Way Valves...............DC32-DC35 DSL082 & 092.Solenoid, Spool-Type, 2-Way Valves.................DC68-DC71 DSL083............Solenoid, Spool-Type, 3-Way Valves.................DC88-DC91 DSL084............Solenoid, Spool-Type, 4-Way Valves.............DC111-DC114 DSL101............Solenoid, Poppet-Type, 2-Way Valves...............DC40-DC43 DSL102............Solenoid, Spool-Type, 2-Way Valves.................DC76-DC79 DSL103............Solenoid, Spool-Type, 3-Way Valves.................DC96-DC99 DSL104............Solenoid, Spool-Type, 4-Way Valves.............DC119-DC122 DSL106C6........Sol., Bi-Directional, Poppet-Type, 2-Way.......DC152-DC155 DSL121............Solenoid, Poppet-Type, 2-Way Valves...............DC48-DC51 EHVC................Electrohydraulic Valve Controller.......................PV92-PV99 ERV091C..........Solenoid Operated, Proportional P.C.................PV60-PV63 ERV091N..........Solenoid Operated, Proportional P.C.................PV64-PV67 ERV092N..........Solenoid Operated, Proportional P.C.................PV68-PV71 ERV101C..........Solenoid Operated, Proportional P.C.................PV72-PV75 ERV101N..........Solenoid Operated, Proportional P.C.................PV76-PV79 ERV102N..........Solenoid Operated, Proportional P.C.................PV80-PV83 ERV121N..........Solenoid Operated, Proportional P.C.................PV84-PV87 ERV161N..........Solenoid Operated, Proportional P.C.................PV88-PV91 FA101...............Pressure Compensated Flow Control................VC16-VC18 FC101...............Pressure Compensated Flow Control................VC22-VC24 FCP101.............Priority-Type, P.C. Valves...................................VC38-VC40 FCPH121..........Priority-Type, P.C. Valves...................................VC41-VC43 FCR101............Restrictive-Type, P.C. Valves..............................VC29-VC31 FCR121............Restrictive-Type, P.C. Valves..............................VC32-VC34 FCR161............Restrictive-Type, P.C. Valves..............................VC35-VC37 FDC101............Flow Divider/Combiner Valves...........................VC19-VC21 FL101...............Filter Cartridge.....................................................MV7-MV9 FP101...............Priority-Type, P.C. Flow Control Valves..............VC47-VC50 FPR101............Priority-Type, P.C. Flow Control Valves..............VC51-VC53 FR101...............Restrictive-Type, P.C. Flow Control Valves.........VC44-VC46FV101 & 102 .... Flow Control Valves ........................................... VC25-VC28 HLSVH101........Hi-Lo Unloading Valve.....................................MV10-MV12 HP101..............Hand Pump.....................................................MV13-MV14 NV102..............Needle Valves........................................................VC7-VC9 NV161..............Needle Valves....................................................VC10-VC12 NV162..............Needle Valves....................................................VC13-VC15 NVH081............Needle Valves........................................................VC1-VC3 NVH101............Needle Valves........................................................VC4-VC6 Offer of Sale............................................................................................TI15 P10-2*.............Cavity Plugs................................................................MV19 PDS101............Pressure Sensing..............................................PC67-PC69 PDS161............Pressure Sensing..............................................PC70-PC72 PMK101...........Panel Mount Kit..........................................................MV18 PN 812724.......Block Off Plate............................................................MV20 PR103..............Pressure Reducing/Relieving Valves.................PC91-PC93 PRCH101..........Pressure Reducing/Relieving Valves With.........................PC79-PC81PRH081............P.O. Pressure Reducing/Relieving Valves..........PC73-PC75 PRH082............P.O. Pressure Reducing Valves..........................PC94-PC96 PRH101............P.O. Pressure Reducing/Relieving Valves..........PC76-PC78 PRH102............P.O. Pressure Reducing Valves..........................PC97-PC99 PRH121............P.O. Pressure Reducing/Relieving Valves..........PC82-PC84 PRH121V..........P.O. Pressure Reducing/Relieving Valves..........PC85-PC87 PRH122............P.O. Pressure Reducing Valves......................PC100-PC102 PRH161............P.O. Pressure Reducing/Relieving Valves..........PC88-PC90 PRH162............P.O. Pressure Reducing Valves......................PC103-PC105PRS102............Pressure Reducing Spool Valves...................PC106-PC108PRS162............Pressure Reducing Spool Valves...................PC109-PC111 RAH081 & 091.P.O. Relief Valves...............................................PC49-PC51 RAH101............P.O. Relief Valves...............................................PC52-PC54 RAH101V..........P.O. Ventable Relief Valves................................PC55-PC57 RAH121............P.O. Relief Valves...............................................PC58-PC60 RAH161............P.O. Relief Valves...............................................PC61-PC63 RAH201............P.O. Relief Valves...............................................PC64-PC66 RASPH21.........Subplate/Relief Valve...........................................MV1-MV3 RASPH31.........Subplate/Relief Valve...........................................MV4-MV6 RD042..............Direct Acting Relief Valves.....................................PC7-PC9 RD072..............Direct Acting Relief Valves.................................PC13-PC15 RD102..............Direct Acting Relief Valves.................................PC19-PC21 RD163..............Direct Acting Relief Valves.................................PC31-PC33 RDH062............Direct Acting Relief Valves.................................PC10-PC12 RDH081............Direct Acting Relief Valves.....................................PC1-PC3 RDH082............Direct Acting Relief Valves.................................PC16-PC18 RDH083............Direct Acting Relief Valves.................................PC22-PC24 RDH101............Direct Acting Relief Valves.....................................PC4-PC6 RDH103............Direct Acting Relief Valves.................................PC25-PC27 RDH104............Differential Relief Valves With..........................................PC34-PC36 RDCH103.........Direct Acting Relief Valves With..........................................PC28-PC30PC139-PC141 SVCH101..........Sequence Valves w/Free Rev. Flow Check.....PC118-PC120 SVH081............Sequence Valves............................................PC112-PC114 SVH082............P.O. Sequence Valves....................................PC127-PC129 SVH101............Sequence Valves............................................PC115-PC117 SVH102............P.O. Sequence Valves....................................PC130-PC132 SVH121............Sequence Valves............................................PC121-PC12308 & 09............Coils 1/2″ I.D..........................................................CL1-CL2 DF102P &DPR104C10......Coils 1/2″ I.D..........................................................CL3-CL4 10, 12,16 & 20............Coils 5/8″ I.D..........................................................CL5-CL6 12 & 16............Coils 1″ I.D.............................................................CL7-CL8 08 & 09............Unicoils 1/2″ I.D...................................................CL9-CL10 10 & 12............Unicoils 5/8″ I.D.................................................CL11-CL12 08 & 09............Waterproof Coils 1/2″ I.D............................................CL13 10 & 12............Waterproof Coils 5/8″ I.D............................................CL14 Installation Data.........................................................................................TI1 04.....................Two and Three Way Cavity Details..................................TI206.....................Two and Three Way Cavity Details..................................TI307.....................Two and Three Way Cavity Details..................................TI408.....................Two, Three and Four Way Cavity Details...................TI5-TI609.....................Two Way Cavity Detail....................................................TI710.....................Two, Three and Four Way Cavity Details...................TI8-TI9 12.....................Two, Three and Four Way Cavity Details...............TI10-TI11 16.....................Two, Three and Four Way Cavity Details...............TI12-TI13 20.....................Two Way Cavity Detail..................................................TI14 B04-2**...........Single Function, Two Step Bodies.........................VB1-VB2 B04-3**...........Single Function, Three Step Bodies.......................VB3-VB4 B06-2**...........Single Function, Two Step Bodies.........................VB5-VB6 B06-3**...........Single Function, Three Step Bodies.......................VB7-VB8 B07-2**...........Single Function, Two Step Bodies.......................VB9-VB10 B07-3**...........Single Function, Three Step Bodies...................VB11-VB12 B08-2**...........Single Function, Two Step Bodies.....................VB13-VB14 B08-3**...........Single Function, Three Step Bodies...................VB15-VB16 B08-4**...........Single Function, Four Step Bodies.....................VB17-VB18 B09-2**...........Single Function, Two Step Bodies.....................VB19-VB20 B10-2**...........Single Function, Two Step Bodies.....................VB21-VB22 B10-2T**.........Single Function, Two Step Bodies.....................VB23-VB24 B10-3**...........Single Function, Three Step Bodies...................VB25-VB26 B10-3L**.........Single Function, Three Step Bodies...................VB27-VB28 B10-4**...........Single Function, Four Step Bodies.....................VB29-VB30 B12-2**...........Single Function, Two Step Bodies.....................VB31-VB32 B12-3**...........Single Function, Three Step Bodies...................VB33-VB34 B12-4**...........Single Function, Four Step Bodies.....................VB35-VB36 B16-2**...........Single Function, Two Step Bodies.....................VB37-VB38 B16-3**...........Single Function, Three Step Bodies...................VB39-VB40 B16-3S**.........Single Function, Three Step Bodies...................VB41-VB42 B20-2**...........Single Function, Two Step Bodies.....................VB43-VB44 Single Function BodiesCavity DetailsCartridge Valve CoilsSVH122............P.O. Sequence Valves....................................PC133-PC135 SVH161............Sequence Valves............................................PC124-PC126 SVH162............P.O. Sequence Valves....................................PC136-PC138 TR081..............Thermal Relief Valves....................................PC142-PC144 VF101...............Velocity Fuses....................................................VC54-VC56 XR101..............Cross-Over Relief Valves...................................PC37-PC39 XRDH101.........Cross-Over Relief Valves...................................PC40-PC42 XRDH102.........Dual Relief Valves w/Anti-Cavitation Checks......PC43-PC45 XRDH103.........Cross-Over Relief Valves...................................PC46-PC48。

DevicesPart Number HDSP-ColorDescriptionFront View0781High-Efficiency Red Numeric, Right Hand DP A 0782Low Power Numeric, Left Hand DP B 0783Over Range ±1C 0784HexadecimalD 0791High-Efficiency Red Numeric, Right Hand DP A 0792High Brightness Numeric, Left Hand DP B 0793Over Range ±1C 0794HexadecimalD 0881YellowNumeric, Right Hand DP A 0882Numeric, Left Hand DP B 0883Over Range ±1C 0884HexadecimalD 0981High-Performance GreenNumeric, Right Hand DP A 0982Numeric, Left Hand DP B 0983Over Range ±1C 0984HexadecimalDHDSP-078x HDSP-079x HDSP-088x HDSP-098xFeatures• Three Character Options Numeric, Hexadecimal, Over Range• Three ColorsHigh Efficiency Red, Yellow,High Performance Green• 4x 7 Dot Matrix Character • High Efficiency Red, Yellow and High Performance Green • Two High Efficiency Red OptionsLow Power, High Brightness • Performance Guaranteed Over Temperature• High Temperature Stabilized • Memory Latch/Decoder/DriverTTL Compatible• Categorized for Luminous IntensityDescriptionThese standard solid state displays have a 7.4 mm (0.29 inch) dot matrix character and an on-board IC with data memory latch/decoder and LED drivers in a glass/ceramic package.The hermetic HDSP-078x,-079x/-088x displays utilize a solder glass frit seal. The HDSP-098X displays utilize an epoxy glass-to-ceramic seal.The numeric devices decode posi-tive BCD logic into characters “0-9,” a “–” sign, decimal point,and a test pattern. Thehexadecimal devices decodeGlass/Ceramic Numeric and Hexadecimal Displays for Industrial Applications Technical Datapositive BCD logic into 16characters, “0-9, A-F.” An input is provided on the hexadecimal devices to blank the display (all LEDS off) without losing the contents of the memory.The over range device displays “±1” and right hand decimal point and is typically driven via external switching transistors.COUNTRY CODEPackage DimensionsAbsolute Maximum RatingsNotes:1. The nominal thermal resistance of a display mounted in a socket that is soldered onto a printed circuit board isRθJA=50°C/W/device. The device package thermal resistance is RθJ-PIN = 15°C/W/device. The thermal resistance device pin-to-ambient through the PC board should not exceed 35°C/W/device for operation up to T A = +100°C.2. Voltage values are with respect to device ground, pin 6.3. These displays are categorized for luminous intensity with the intensity category designated by a letter code located on the back ofthe display package. Case temperature of the device immediately prior to the light measurement is equal to 25°C.Electrical/Optical Characteristics T A = –55°C to +100°CNotes:4. The luminous intensity at a specific operating ambienttemperature, I v(T A), may be approximated from the following exponential equation: I v(T A)=I v(25°C) e[k(T-25°C)].Device KHDSP-078 Series–0.0131/°CHDSP-079x SeriesHDSP-088x Series–0.0112/°CHDSP-098x Series–0.0104/°C 5. The dominant wavelength, λd, is derived from the CIE chroma-ticity diagram and represents the single wavelength whichdefines the color of the device.6. The HDSP-088X and HDSP-098X series devices are categor-ized as to dominant wavelength with the category designated by a number on the back of the display package.7. All typical values at V CC = 5.0 V and T A = 25°C.Operational ConsiderationsElectricalThese devices use a modified4x7 dot matrix of light emitting diodes to display decimal/ hexadecimal numeric informa-tion. The high efficiency red and yellow displays use GaAsP/GaP LEDs and the high performance green displays use GaP/GaP LEDs. The LEDs are driven by constant current drivers, BCD information is accepted by the display memory when the enable line is at logic low and the data islatched when the enable is atlogic high. Using the enable pulsewidth and data setup and holdtimes listed in the RecommendedOperating Conditions allows datato be clocked into an array ofdisplays at a 6.7MHz rate.The decimal point input is activelow true and this data is latchedinto the display memory in thesame fashion as the BCD data.The decimal point LED is drivenby the on-board IC.The blanking control input on thehexadecimal displays blanks(turns off) the displayedinformation without disturbingthe contents of display memory.The display is blanked at aminimum threshold level of 2.0volts. When blanked, the displaystandby power is nominally 250mW at T A = 25°C.The ESD susceptibility of the ICdevices is Class A of MIL-STD-883 or Class 2 of DOD-STD-1686and DOD-HDBK-263.AMechanicalThese displays are hermetically sealed for use in environments that require a high reliability device. These displays are designed and tested to meet a helium leak rate of5x10-8cc/sec.These displays may be mounted by soldering directly to a printed circuit board or insertion into a socket. The lead-to-lead pin spacing is 2.54 mm (0.100 inch) and the lead row spacing is 15.24 mm (0.600 inch). These displays may be end stacked with 2.54 mm (0.100 inch) spacing between outside pins of adjacent displays. Sockets such as Augat 324-AG2D (3 digits) or Augat 508-AG8D (one digit, right anglemounting) may be used.The primary thermal path forpower dissipation is through thedevice leads. Therefore, to insurereliable operation up to anambient temperature of +100°C,it is important to maintain abase-to-ambient thermalresistance of less than35°C watt/device as measured ontop of display pin 3.For further information onsoldering and post soldercleaning, see Application Note1027, Soldering LEDComponents.PreconditioningThese displays are 100% pre-conditioned by 24 hour storage at125°C, at 100°C for the HDSP-098x Series.Contrast EnhancementThese display devices aredesigned to provide an optimumON/OFF contrast when placedbehind an appropriate contrastenhancement filter. For furtherinformation on contrastenhancement, see ApplicationNote 1015, ContrastEnhancement for LEDDisplays.Over Range DisplayThe over range devices display“±1” and decimal point. Thecharacter height and packageconfiguration are the same as thenumeric and hexadecimaldevices. Character selection isobtained via external switchingtransistors and current limitingresistors.Absolute Maximum RatingsDescription Symbol Min Max Unit Storage Temperature, Ambient T S–65+125°C Operating Temperature, Ambient T A–55+100°C Forward Current, Each LED I F10mA Reverse Voltage, Each LED V R5VPackage DimensionsLuminous Intensity per LED(Digit Average) at T= 25°C Figure 3. Typical Driving Circuit.Notes:0: Line switching transistor in Figure 7 cutoff.1: Line switching transistor in Figure 7 saturated.X: ‘don’t care.’Electrical Characteristics T A = –55°C to +100°CColor Bin Limits (Dominant Wavelength)Note:Bin categories are established for classification of products. Productsmay not be available in all bin categories. Please consult your localAgilent Technologies representative./semiconductorsFor product information and a complete list ofdistributors, please go to our web site.For technical assistance call:Americas/Canada: +1 (800) 235-0312 or(916) 788-6763Europe: +49 (0) 6441 92460China: 10800 650 0017Hong Kong: (+65) 6756 2394India, Australia, New Zealand: (+65) 6755 1939Japan: (+81 3) 3335-8152 (Domestic/Interna-tional), or 0120-61-1280 (Domestic Only)Korea: (+65) 6755 1989Singapore, Malaysia, Vietnam, Thailand,Philippines, Indonesia: (+65) 6755 2044Taiwan: (+65) 6755 1843Data subject to change.Copyright © 2004 Agilent Technologies, Inc.Obsoletes 5964-6390EJuly 14, 20045988-2261EN。

目录第一章美国海德能公司RO/NF膜产品规格与性能第二章反渗透及纳滤膜应用技术介绍第三章反渗透、纳滤基础知识第四章水化学与水质分析第五章预处理第六章反渗透系统设计第七章反渗透膜的安装及运行第八章污染与清洗第九章RO/NF系统故障诊断和排除第十章海德能公司反渗透膜元件质量保证书第十一章海德能公司退货程序 (RGA)第十二章反渗透技术问答第十三章应用技术文献第一章美国海德能公司RO/NF膜产品规格与性能1.1 8英寸膜元件端板新型涡旋切1.2 流式设计美国海德能公司已于2002年12月12日正式推出针对所有标准的 8 英寸膜元件端板的新型涡旋切流式(以下简称为“切流式”)设计。

这一新的密封支撑/防止膜卷突出设计(ATD)提供了更好的端面接触，使水力负荷分布的更加均匀。

新的切流式设计保持了海德能公司产品多孔端板的特点，该端板可以保护膜元件免受因较大颗粒撞击而造成的损坏。

这一特殊的涡旋式图案设计使得穿过膜元件表面的水具有均匀的分布，并可以平衡膜元件外部和中心管的压力。

新的切流式可以很容易地由其象牙色和涡旋式结构辨认，而不同于以前的灰色和直线式。

同时，我们还将介绍新型内连接管，它即适用于新型切流式膜元件，也适用于传统的海德能膜元件。

新型内连接管具有很多好处，在负载和操作过程中不会脱离。

新型切流式膜元件完全与工业市场中众多其它的膜元件相兼容。

海德能公司正致力于膜元件内部密封方法的研究，以提供压力容器中膜元件之间密封连接的最大保证。

目前正使用的非切流式膜元件设计可以允许内部和外部的密封。

海德能公司在持续不断地为我们的用户研究和开发创新的、改进性的产品。

新切流设计在保持水通量和脱盐率的一致性及可靠性的基础上提供了附加的益处。

海德能公司正在以改进的设计模式，在无附加成本的情况下，一同既往地生产高质量的膜产品。

技术说明—新型切流式膜元件需使用内连接管—每支新型切流式膜元件的包装中均装备一支内连接管— SWC 系列内连接管部件号码不同于其它苦咸水反渗透膜产品的内连接管部件号码—新切流式膜元件不能使用外连接管和外连接型端板接头—新型内连接管同时适用于新型切流式和传统膜元件—新切流式设计膜元件与市售的大多数公司的膜元件的连接管和端板接头完全兼容—标准中心管内径为1.125英寸，经压力容器制造商验证，端板接头可满足其要求—在新型内连接管上的O型圈(其型号为PARKER#2-119)可能不同于其他制造商的产品—对于目前采用外连接型端板接头的系统，需要从压力容器制造商处订购新的端板接头—当传统膜元件被新型切流式膜元件取代时，每一压力容器需要两个端板接头—苦咸水膜元件连接管是一头逐渐变细的，以便需要探查时很容易地接入。

ABS塑料性能和部分牌号介绍ABS塑料- ABS树脂是五大合成树脂之一,其抗冲击性、耐热性、耐低温性、耐化学药品性及电气性能优良,还具有易加工、制品尺寸稳定、表面光泽性好等特点,容易涂装、着色,还可以进行表面喷镀金属、电镀、焊接、热压和粘接等二次加工,广泛应用于机械、汽车、电子电器、仪器仪表、纺织和建筑等工业领域,是一种用途极广的热塑性工程塑料。

ABS树脂是目前产量最大,应用最广泛的聚合物,它将PS,SAN,BS的各种性能有机地统一起来,兼具韧、硬、刚相均衡的优良力学性能。

ABS是丙烯腈、丁二烯和苯乙烯的三元共聚物,A代表丙烯腈,B代表丁二烯,S代表苯乙烯。

ABS塑料-名称化学名称丙烯腈-丁二烯-苯乙烯塑料英文名称 Acrylonitrile Butadiene Styrene plasticABS塑料-性能一般性能ABS外观为不透明呈象牙色粒料,其制品可着成五颜六色,并具有高光泽度。

ABS相对密度为1.05左右,吸水率低。

ABS同其他材料的结合性好,易于表面印刷、涂层和镀层处理。

ABS的氧指数为18~20,属易燃聚合物,火焰呈黄色,有黑烟,并发出特殊的臭味。

力学性能ABS有优良的力学性能,其冲击强度极好,可以在极低的温度下使用;ABS 的耐磨性优良,尺寸稳定性好,又具有耐油性,可用于中等载荷和转速下的轴承。

ABS的耐蠕变性比PSF及PC大,但比PA及POM小。

ABS的弯曲强度和压缩强度属塑料中较差的。

ABS的力学性能受温度的影响较大。

热学性能ABS的热变形温度为93~118℃,制品经退火处理后还可提高10℃左右。

ABS 在-40℃时仍能表现出一定的韧性,可在-40~100℃的温度范围内使用。

电学性能ABS的电绝缘性较好,并且几乎不受温度、湿度和频率的影响,可在大多数1环境下使用。

环境性能ABS不受水、无机盐、碱及多种酸的影响,但可溶于酮类、醛类及氯代烃中,受冰乙酸、植物油等侵蚀会产生应力开裂。

HQ SeriesSPECIFICATIONS STANDARD*SPECIAL ELECTRICALCenter Frequency (Fc)100 to 1000 Mhz80 to 1400 MHz 3dB Relative Bandwidth (% of FC) 4 to 40 4 to 50 Number of Sections Available 3 to 8 2 to 10 Nominal Impedance50 Ohms50 to 75 Ohms Maximum Insertion Loss See Curve See Curve Maximum VSWR 1.5/1 1.3/1 Attenuation in the Stopband See Graph See GraphMaximum Input Power (Average)(Watts to10,000 ft.)500 x 3dB BW (MHz)(Loss Factor)(Fc MHz)See StandardMaximum Input Power (Peak)(Watts to10,000 ft.)300 x 3dB BW (MHz)Fc (MHz)2,000ENVIRONMENTALShock15 G's25 G's Vibration 5 G's10 G's Humidity90% relative100% relativeINSERTION LOSS:The Maximum Insertion Loss at center frequency is equal to :LF x (N + 0.5) / % 3 dB BW + 0.2 Where:LF= Loss Factor, N= Number of Sections% 3dB BW:3dB BW (MHz) x 100divided byCenter Frequency (MHz) Example:A 3 section HQ with a center frequency of 400 MHz and a 3dB BW of 40 MHz would have,1.5 x 3.5 / 10 = 5.25 / 10 = 0.525 0.525 + 0.2 = 0.8 dBConnectors Available on HQ Series:Lark Code Type C DIM.Inches & MMLarkCodeType C DIM.Inches & MMA SMA JACK.800 & 20.3G N JACK 1.625 & 41.3B SMA PLUG.855 & 22.5H N PLUG 1.585 & 40.3C TNC JACK 1.350 & 34.3L SOLDER MPINAXIAL.625 & 15.9D TNC PLUG 1.280 & 32.5*M SOLDER PINRADIAL.625 & 15.9E BNC JACK 1.350 & 34.3S SPECIALF BNC PLUG 1.280 & 32.5*Not recommended for use with this series.LENGTH:The approximate length of a Lark HQ series filter can be determined by the formula:( 0.5 N + 2 / %BW ) x LC = LWhere N is the number of sections used, % BW is:3dB BW (MHz) x 100divided byCENTER FREQUENCY (MHz)LC is the length constant at the specified center frequency, L is the dimension between theconnectors; C1 and C2 are the connector lengths as shown above. All of the length information given here is approximate. Exact length specifications must be quoted by the factory. If a special length is needed,please submit all of your requirements - both electrical and mechanical. This will enable Lark Engineering to quote the optimum design for your application.Example:A 3 section HQ with a center frequency of 400 MHz a 3dB BW of 40 MHz and SMA jack input and output connectors would be:(1.5 + 0.2) x 1.38 = 2.35 + C1 + C2In most cases, the L dimension is rounded to the nearest 1/4 inch which in this instance would be 2.25inches and the O.A.L. is:2.25 + .800 + .800 =3.85 inches.To convert inches to millimeters multiply x 25.40.Lark Engineering HQ SERIES元器件交易网STOPBAND ATTENUATIONThe graph on the following pages defines the normal specification limits on attenuation Lark bandpass filter series HP, HQ, SF, and SM. The minimum level of attenuation in dB is shown as a "number of 3dB bandwidths from center frequency".Since the frequency characteristics vary for differing bandwidths, it is necessary to establishspecifications for each bandwidth of filter. The different graphs represent various 3dB percentage bandwidths. Intermediate values should be interpolated. The 3dB percentage bandwidth is defined asfollows:STOPATT5.HTM元器件交易网As the 3dB bandwidth is exactly 10% of the center frequency, the answer can be read directly from the 10% graph. Using the 5 section curve at the point -1.5 (255 MHz) we find the minimum level of attenuation is 36dB. At +1.6 (348 MHz) the minimum level of attenuation is 48dB.For special requirements, please contact our Application Engineering Department.STOPBAND ATTENUATIONSTOPBAND ATTENUATIONSTOPATT5.HTM元器件交易网STOPBAND ATTENUATIONSTOPBAND ATTENUATIONSTOPBAND ATTENUATION。

安装及操作说明名称：透平压缩机系统型号：3(2)VRZ 250/430/16 G序言本安装和操作说明是对3(2)VRZ 250/430/16 G 型透平压缩机开车、操作、维修的重要描述。

因此，在初次开车前，你必须认真阅读安装和操作说明以及LCP的操作手册，已确保安全、经济的使用此透平压缩机。

压缩机的关键部件，例如电机、齿轮单元、油冷器、油过滤器、油泵等也必须遵守此操作说明。

所有的维修活动必须由相关的专家进行。

由于操作疏忽或者维修不当而造成的设备故障，我们将不接受任何质保要求。

我们将为你解决你在此安装和操作说明中遇到的任何问题。

我们希望你们能在不出现任何问题的情况下顺利运行这套系统。

目录表格清单 (6)图纸清单 (6)简介 (7)用途 (7)1.安全规程及说明 (8)1.1安全规程................................................................................. .8 1.2安全说明. (8)1.3重点 (10)2.技术资料 (11)2.1压缩机 (11)2.2与压缩机相连的冷却器............................................................. (16)2.2.1冷却器 (16)2.2.2连接管道 (16)2.2.3冷却器使用的弹簧垫圈........................................................ (16)2.3电机 (16)2.4增速器 (17)2.5联轴器 (17)2.6设备底座 (17)2.7润滑油系统 (18)2.7.1油箱 (18)2.7.2油冷却器 (18)2.7.2.1辅助油泵 (19)2.7.2.2油冷却器 (19)2.7.2.3油过滤器 (19)2.8设备底座、油系统和油冷却器的安装 (20)2.9消耗定额............................................................................. (20)2.9.1润滑油.......................................................................... (20)2.9.1.1过滤油量..................................................................... (20)2.9.1.2润滑油量.................................................. (21)2.9.2密封气.............................................. (22)2.9.3电力消耗....................................................................... (22)2.9.3.1压缩机电机.................................................................. (22)2.9.3.2辅助油泵电机 (22)2.9.3.3油箱加热器 (22)3.压缩机组的各部件名称及功能 (23)3.1压缩机.............................................. . (23)3.1.1压缩机的一般资料 (23)3.1.2设计说明 (27)3.1.2.1转子 (33)3.1.2.2机壳 (33)3.1.2.3导轮和迷宫密封.............................................. . (33)3.1.2.4压缩机转子轴承的安装 (33)3.1.3中冷器和后冷器 (34)3.2驱动系统 (34)3.2.1电机 (34)3.2.2增速器 (34)3.2.3联轴器 (34)3.3润滑油供应 (35)3.4测量和控制技术 (39)3.4.1测量点—密封—连锁........................................................ (39)3.4.2控制点 (39)3.4.2.1进口导叶 (39)3.4.2.2电涌调节 (39)3.4.2.3密封器调节 (40)3.4.3轴振动和径向位移 (40)4.压缩机组的安装 (41)4.1压缩机的安装 (41)4.2辅助单元的安装 (41)4.3铺设油、气、冷却水管线 (41)4.4校正 (42)4.4.1连接加速器和压缩机的联轴器的校正 (42)4.4.2连接电机和加速器的联轴器的校正 (44)5.压缩机装置的试车和操作 (46)5.1初次开车前的准备工作 (46)5.2初始试车 (48)5.2.1机械运转测试 (48)5.2.2操作测试 (48)5.3正常开车 (48)5.4投入氯气开车 (50)5.5停车 (51)5.5.1正常停车 (51)5.5.2故障停车 (52)5.6维护 (53)6.操作故障 (54)6.1主电机 (54)6.1.1主电机不启动 (54)6.1.2主电机停机 (54)6.2加速器 (54)6.2.1油循环温度太高 (54)6.2.2轴承温度太高 (54)6.2.3加速器内突然出现不正常运行噪音 (54)6.3压缩机 (55)6.3.1运行不稳定 (55)6.3.2所有轴承温度升高 (55)6.3.3某一个轴承温度升高 (55)6.3.4压缩机出口气体温度升高 (55)6.3.5密封气压力降低 (55)6.4润滑油系统 (55)6.4.1过滤器出口油压降低 (55)6.4.2冷却器出口油温太高 (55)7.预防性的维修、拆卸和安装 (56)7.1压缩机 (56)7.2检查 (61)7.3联轴器 (62)7.4冷却器 (62)7.5主电机 (62)7.6增速器 (62)7.7油冷却器 (62)7.8油过滤器 (62)7.9油泵 (62)7.10油箱 (63)7.11附录:安装和拆卸斜垫轴承的说明书 (63)8.运输 (70)9.备用和防护部件 (73)9.1防护部件 (73)9.1.1压缩机 (73)9.1.2增速器 (73)9.2备用配件 (73)9.2.1压缩机 (73)9.2.2增速器 (74)9.2.3联轴器 (74)9.2.4油冷却器 (74)9.2.5油过滤器 (74)9.2.6连接管线 (74)9.3安装和控制设备 (74)10.版权 (75)表格清单表 1.压缩机单元部件清单 (24)表 2.压缩机单元部件清单 (28)表 3.进口可调导叶设备清单 (30)表 4.油系统设备清单 (36)图纸清单图 1.压缩机工作特征图 (15)图 2.压缩机单元 (25)图 3.压缩机单元 (26)图4压缩机剖视图 (29)图5入口可调导叶 (31)图 6.入口可调导叶 (32)图7.油系统 (37)图8.油系统 (38)图9.增速器和压缩机之间的连接 (44)图10.电机和增速器之间的连接设备 (45)图11.方框图 (49)图12.松开连接杆 (56)图13.压缩机控制点 (59)图14.压缩机控制点 (60)图15.径向轴泵倾斜垫的安装位置 (64)图16.倾斜垫的拆卸 (66)图17.止推轴承 (67)图18.止推轴承结构图 (68)图19.止推轴承热探测器 (69)图20.止推轴承热探测器 (69)图21.压缩机系统运输说明 (70)图22.压缩机运输说明 (71)图23.油系统运输说明 (72)简介此压缩机单元包括1个带有中冷器的二级离心式压缩机、1个透平增速齿轮系统、一个电动机、一个压缩机底座、一个增速器单元和电机、两个中冷却器及连接管道、一个润滑油系统、一个密封气系统以及必要的检测和控制技术。

官方微信官方网站目 录SDAC6000(u)量热仪SDACM4000量热仪SDACM3100量热仪SDC712量热仪SDC715量热仪01-05热值分析系列020*********-11元素分析系列SDCHN536碳氢氮元素分析仪SDCH536红外碳氢仪SDH536红外测氢仪SDS350红外定硫仪SDS820自动定硫仪SDS720自动定硫仪SDS-V 定硫仪SDFCl3000自动氟氯分析仪SDFCl1000(a)氟氯分析仪070707080909101111SDTGA8000(a)工业分析仪SDTGA6000工业分析仪SDTGA6000A 工业分析仪SDTGA6000V 工业分析仪SDTGA5000a 工业分析仪SDTGA520(a)水分测试仪SDTGA500光波水分测试仪SDIMF200智能马弗炉SDMF300马弗炉SDIDB413智能干燥箱SDDH315通氮鼓风干燥箱SDDH323鼓风干燥箱SDDH313鼓风干燥箱SDDH306鼓风干燥箱12-22成分分析系列1314151516171819202121222222SDAF105（a /b ）灰熔融性测试仪SDAF4000灰熔融性测试仪SDHG60a 哈氏可磨性指数测定仪23-26物理特性分析系列242526S DUC3150（D ）联合制样机S DHD150t 锤式破碎缩分机S DHC锤式破碎机S DJC颚式破碎机S DRC对辊破碎机S DHCW400×260湿煤破碎机S DPP制样粉碎机S DMD16自动机械缩分器S DNS300环保振筛机S DNS200a标准振筛机S DRD二分器采制样辅助工具30-38样品制备系列313232333334343535353637-38激光盘料仪系列SDLM200便携式激光盘料仪SDLM1250固定式激光盘料仪39-41404142-43公司简介44发展历程45运维服务2829S DVD25风透 式快速除湿干燥系统S DVD3mm 风透 干燥机27-29风透 式低温快速除湿干燥系列热值分析系列适用范围符合标准GB/T213-2008GB/T384-1981 GB/T30727-2014ASTM D5865-2007ISO 1928-2009 JC/T1005-2006《煤的发热量测定方法》《石油产品热值测定法》《固体生物质燃料发热量测定方法》《煤与焦炭总热值的标准试验方法》《固体矿物燃料-氧弹式量热计测定总值并计算净热值》《水泥黑生料发热量测定方法》三德科技是中国第一台自动量热仪(1996年)的发明者，先后自主研发出6代量热仪，缔造了2个“国家重点新产品”。

When to use it?W hen especially high service life is necessary W hen low coefficients of dynamic friction and high wear resistance are neededF or use on 303 stainless steel shaftsF or harsh environments and very rough shaftsD irt resistantWhen not to use it?F or high loads starting at 50 MPaiglidur® Q, page 541W hen temperatures are constantly above+90 °Ciglidur® H, page 353iglidur® X, page 173F or very wet environmentsiglidur® P, page 195W hen an economical bearing is requirediglidur® G, page 81Product range3 types> 400 dimensionsØ 2–120 mm153igus ®GmbH Germany |Phone +49 2203 9649-145 Fax -334| ************| www.igus.eu iglidur ®W300iglidur ® W300 | Application Exampleswww.igus.eu/hydrogen-car www.igus.eu/concrete-machineswww.igus.eu/rickshaw www.igus.eu/teebag-packagingTypical sectors of industry and application areasAutomation Printing industry Woodworking MechatronicsTest engineering and quality assurace etc.Improve technology and reduce costs – 310 exciting examples for iglidur ® plain bearings onlinewww.igus.eu/iglidur-applications154iglidur ®W3000.0010.010.1 1.010.0100.010.01.00.1Material properties tableGeneral properties Unit iglidur ® W300Testing methodDensityg/cm 3 1.24Colouryellow Max. moisture absorption at +23 °C/50 % r.h.% weight 1.3DIN 53495Max. water absorption% weight6.5Coefficient of sliding friction, dynamic against steel µ0.08–0.23pv value, max. (dry)MPa · m/s 0.23Mechanical properties Modulus of elasticity MPa 3,500DIN 53457Tensile strength at +20 °CMPa 125DIN 53452Compressive strengthMPa 61Max. recommended surface pressure (+20 °C)MPa60Shore D hardness77DIN 53505Physical and thermal propertiesMax. long term application temperature °C +90Max. short term application temperature °C +180Min. application temperature °C –40Thermal conductivityW/m · K 0.24ASTM C 177Coefficient of thermal expansion (at +23 °C)K –1 · 10–59DIN 53752 Electrical propertiesSpecific volume resistance Ωcm > 1013DIN IEC 93Surface resistanceΩ> 1012DIN 53482Table 01: Material properties tableiglidur ® W300 | Technical DataLifetime calculation, CAD files and much more support www.igus.eu/eu/w300Diagram 01: Permissible pv values for iglidur ® W300 with a wall thickness of 1 mm dry running against a steel shaft at +20 °C, mounted in a steel housingSurface speed [m/s]P r e s u r e [M P a ]igus ® GmbH Germany | 020406080120100iglidur ® W300 | Technical Dataiglidur ® W300 gives excellent wear resistance, even in harsh environments or when used with rough shafts. This material is the most tolerant of these external effects out of all the iglidur ® range.Mechanical PropertiesWith increasing temperatures, the compressive strength of iglidur ®W300 plain bearings decreases. The Diagram 02 shows this inverse relationship. However, at the longterm maximum temperature of +90 °C the permissible surface pressure is almost 30 MPa. The recommended maximumsurface pressure is a mechanical material parameter. No conclusions regarding the tribological properties can be drawn from this.iglidur ® W300 presents a very high compression strength in spite of its high elasticity. Diagram 03 shows the elastic deformation of iglidur ® W300 under radial loads. At the recommended maximum surface pressure of 60 MPa, the deformation at room temperature is less than 3 %.Below the recommended maximum surface pressure of 60 MPa the deformation at room temperature is virtually zero.Surface Pressure, page 63Diagram 02: Recommended maximum surface pressure as a function of temperature (60 MPa at +20 °C)Temperature [°C]P r e s s u r e [M P a ]Lifetime calculation, CAD files and much more support www.igus.eu/eu/w300Shaft MaterialsFriction and wear are to a large extent also highly dependant on the shaft materials. Shafts that are too smooth increase both the coefficient of friction and the wear of the bearing. Smooth shafts have the danger of stick slip. Squeaking as an effect of stick slip is usually the result of shafts that are too smooth.For the lowest coefficients of friction when using iglidur ® W300 plain bearings, the surfaces should not be too smooth. Shaft roughnesses of 0.4 to 0.5 µm have proven to be the best (see Diagram 06). Tests with iglidur ® W300 have shown the wear resistance at this roughness is very high, while the friction reduces to the lowest value.Diagrams 07 to 09 show results of testing different shaft materials with iglidur ® W300 plain bearings. For rotational applications with low loads, the wear varies according to the shaft material. iglidur ® W300 provides very good to acceptable coefficients of friction for all shafts that weretested. For small radial loads with hard chromed shafts and/or shafts made of stainless steel, iglidur ® W300 is the most suitable iglidur ® material.The soft shaft materials HR carbon steel and free-machining steel are not as well suited to iglidur ® W300 plain bearings. Hardened shafts are preferred for applications for higher loads. Diagram 08 clearly shows the difference in materials for increasing loads. A similar picture emerges for oscillating applications. First, for low loads, the wear for the oscillating movement lies below that of a rotation at the same load.For higher loads, the situation changes. If the shaft material you plan to use is not contained in this list, please contact us. Shaft Materials, page 71Shaft roughness Ra [µm]Diagram 06: Coefficient of friction as function of the shaft surface (Cf53 hardened and ground steel)C o e f fic i e n t o f f r i c t i o n [µ]igus ® GmbH Germany | 0.01.01.52.02.50.50100.00.20.40.81.01.21.41.60.6iglidur ® W300 | Technical DataDiagram 08: Wear with different shaft materials in rotational operation, as a function of the pressureDiagram 07: Wear, rotating application with different shaft materials, p = 1 MPa, v = 0.3 m/sPressure [MPa]Diagram 09: Wear for oscillating and rotating applications with Cf53 hardenend and ground steel shafts, as a function of the pressurePressure [MPa]rotatingoscillatingW e a r [µm /k m ]W e a r [µm /k m ]W e a r [µm /k m ]Cf53304 SSHR carbon steelhard chromedInstallation Tolerancesiglidur® W300 plain bearings are standard bearings forshafts with h-tolerance (recommended minimum h9). Thebearings are designed for pressfit into a housing machinedto a H7 tolerance. After being assembled into a nominal sizehousing, in standard cases the inner diameter automaticallyadjusts to the E10 tolerances. For particular dimensions thetolerance differs depending on the wall thickness (please> 18 to 30 0–0.052 +0.040 +0.124 0 +0.021> 30 to 50 0–0.062 +0.050 +0.150 0 +0.025> 50 to 80 0–0.074 +0.060 +0.180 0 +0.030> 80 to 120 0–0.087 +0.072 +0.212 0 +0.035> 120 to 180 0–0.100 +0.085 +0.245 0 +0.040Table 07: Essential tolerances for plain bearingsaccording to ISO 3547-1 after pressfitLifetime calculation, CAD files and much more support www.igus.eu/eu/w300igus ® GmbH Germany |Part number d1d1-Tolerance*d2b1h13WSM-0203-03 2.0+0.014 +0.054 3.5 3.0WSM-0204-03 2.5+0.014 +0.054 4.0 3.0WSM-0304-03 3.0+0.014 +0.054 4.5 3.0WSM-0304-05 3.0+0.014 +0.054 4.5 5.0WSM-0304-06 3.0+0.014 +0.054 4.5 6.0WSM-0405-04 4.0+0.020 +0.068 5.5 4.0WSM-0405-06 4.0+0.020 +0.068 5.5 6.0WSM-0405-08 4.0+0.020 +0.068 5.58.0WSM-0405-10 4.0+0.020 +0.068 5.510.0WSM-0507-05 5.0+0.020 +0.0687.0 5.0WSM-0507-08 5.0+0.020 +0.0687.08.0WSM-0507-10 5.0+0.020 +0.0687.010.0WSM-0607-14 6.0+0.010 +0.0587.014.0WSM-0608-06 6.0+0.020 +0.0688.0 6.0WSM-0608-08 6.0+0.020 +0.0688.08.0WSM-0608-09 6.0+0.020 +0.0688.09.5WSM-0608-10 6.0+0.020 +0.0688.010.0WSM-0608-11 6.0+0.020 +0.0688.011.8WSM-0608-13 6.0+0.020 +0.0688.013.8WSM-0709-097.0+0.025 +0.0839.09.0WSM-0709-127.0+0.025 +0.0839.012.0WSM-0709-1257.0+0.025 +0.0839.012.5WSM-0810-068.0+0.025 +0.08310.0 6.0WSM-0810-088.0+0.025 +0.08310.08.0WSM-0810-108.0+0.025 +0.08310.010.0iglidur ® W300delivery timefrom stock Sleeve bearingDimensions [mm]* thickness < 1 mm, chamfer = 20°Chamfer in relation to the d1d1 [mm]:Ø 1–6Ø 6–12Ø 12–30Ø > 30f [mm]:0.30.50.81.2* after pressfit. Testing methods page 75Part number d1d1-Tolerance*d2b1h13WSM-2023-2320.0+0.040 +0.12423.023.0WSM-2023-2520.0+0.040 +0.12423.025.0WSM-2023-3020.0+0.040 +0.12423.030.0WSM-2224-1522.0+0.040 +0.12424.015.0WSM-2224-2022.0+0.040 +0.12424.020.0WSM-2224-3022.0+0.040 +0.12424.030.0WSM-2224-3522.0+0.040 +0.12424.035.0WSM-2224-4522.0+0.040 +0.12424.045.0WSM-2225-1522.0+0.040 +0.12425.015.0WSM-2225-2022.0+0.040 +0.12425.020.0WSM-2225-2522.0+0.040 +0.12425.025.0WSM-2225-3022.0+0.040 +0.12425.030.0WSM-2427-1524.0+0.040 +0.12427.015.0WSM-2427-2024.0+0.040 +0.12427.020.0WSM-2427-2524.0+0.040 +0.12427.025.0WSM-2427-3024.0+0.040 +0.12427.030.0WSM-2528-1225.0+0.040 +0.12428.012.0WSM-2528-1425.0+0.040 +0.12428.014.0WSM-2528-1525.0+0.040 +0.12428.015.0WSM-2528-2025.0+0.040 +0.12428.020.0WSM-2528-2525.0+0.040 +0.12428.025.0WSM-2528-3025.0+0.040 +0.12428.030.0WSM-2528-5025.0+0.040 +0.12428.050.0WSM-2630-1626.0+0.040 +0.12430.016.0WSM-2630-2526.0+0.040 +0.12430.025.0WSM-2830-1028.0+0.040 +0.12430.010.0WSM-2831-1028.0+0.040 +0.12431.010.0WSM-2832-2028.0+0.040 +0.12432.020.0WSM-2832-2528.0+0.040 +0.12432.025.0WSM-2832-3028.0+0.040 +0.12432.030.0WSM-3034-1630.0+0.040 +0.12434.016.0WSM-3034-2030.0+0.040 +0.12434.020.0WSM-3034-2430.0+0.040 +0.12434.024.0WSM-3034-2530.0+0.040 +0.12434.025.0WSM-3034-3030.0+0.040 +0.12434.030.0WSM-3034-3630.0+0.040 +0.12434.036.0WSM-3034-3830.0+0.040 +0.12434.038.0WSM-3034-4030.0+0.040 +0.12434.040.0WSM-3034-4530.0+0.040 +0.12434.045.0WSM-3034-4730.0+0.040 +0.12434.047.0WSM-3236-2032.0+0.050 +0.15036.020.0WSM-3236-2532.0+0.050 +0.15036.025.0 Lifetime calculation, CAD files and much more support www.igus.eu/eu/w300Part number d1d1-Tolerance*d2b1h13WSM-3236-3032.0+0.050 +0.15036.030.0WSM-3236-4032.0+0.050 +0.15036.040.0WSM-3539-2035.0+0.050 +0.15039.020.0WSM-3539-3035.0+0.050 +0.15039.030.0WSM-3539-4035.0+0.050 +0.15039.040.0WSM-3539-5035.0+0.050 +0.15039.050.0WSM-3540-0735.0+0.050 +0.15040.07.0WSM-4044-2040.0+0.050 +0.15044.020.0WSM-4044-3040.0+0.050 +0.15044.030.0WSM-4044-4040.0+0.050 +0.15044.040.0WSM-4044-5040.0+0.050 +0.15044.050.0WSM-4550-3045.0+0.050 +0.15050.030.0WSM-4550-5045.0+0.050 +0.15050.050.0WSM-5055-2050.0+0.050 +0.15055.020.0iglidur ® W300Sleeve bearingDimensions [mm]* after pressfit. Testing methods page 75Don’t find your size?application? Please call us. igus ®Even more dimensions from stockwww.igus.eu/iglidur-specialbearings。

1Sine wave output filterSee below:Approvals and CompliancesDescription- Design corresponding to UL 1283, CSA 22.2 No. 8, IEC/EN60939- Standard versions include insulated safety screw terminals - Enhancement of the system efficiencyApplications- Optimized for long motor cables (up to 200 m) and operation under full load- Frequency converters in uninterruptible power supplies, elevators, he-ating-, ventilating- and air conditioning-systems, traction and conveyer systemsWeblinkspdf datasheet , html-datasheet , General Product Information , Distributor-Stock-Check , Detailed request for product , MicrositeT echnical DataRated Current 4 - 16 A @ Ta 40 °C Rated voltage 500/288 VAC: 50/60 HzApproval for4 - 16 A @ Ta °C / 500/288 VAC; 50 Hz Overload Current 1.5 x Ir for 1 minute, per hour Dielectric Strength500/288 VAC:1.1 kVDC between L-L2.5 kVDC between L-PE Test voltage 2 sec Weight9 - 22 kg Material: Housing Metal Sealing CompoundUL 94V-2MountingScrew-on mounting on chassis, from topTerminalScrew clamps Operating Temperature -25 °C to 100 °CClimatic Category 25/100/21 acc. to IEC 60068-1Degree of Protection IP 20 acc. to IEC 60529Protection ClassSuitable for appliances with protection class I acc. to IEC 61140Approvals and CompliancesDetailed information on product approvals, code requirements, usage instructions and detailed test conditions can be looked up in Details about ApprovalsApplication standardsApplication standards where the product can be usedOrganizationDesignStandardDescriptionDesigned for applications acc.IEC/UL 60950IEC 60950-1 includes the basic requirements for the safety of information technology equipment.CompliancesThe product complies with following Guide LinesIdentificationDetailsInitiator DescriptionCE declaration of conformitySCHURTER AGThe CE marking declares that the product complies with the applicable requirements laid down in the harmonisation of Community legislation onits affixing in accordance with EU Regulation 765/2008.RoHS SCHURTER AG EU Directive RoHS 2011/65/EUChina RoHS SCHURTER AG The law SJ / T 11363-2006 (China RoHS) has been in force since 1 March2007. It is similar to the EU directive RoHS.REACHSCHURTER AGOn 1 June 2007, Regulation (EC) No 1907/2006 on the Registration, Evaluation, Authorization and Restriction of Chemicals 1 (abbreviated as "REACH") entered into force.Dimension [mm] Case 2K1) Inverter2) MotorCase 2L1) Inverter2) Motor2Case 2M2) MotorCase 2N1) Inverter2) Motor3Diagrams1) Inverter 2) Sine wave output filter 3) MotorUIUI A)B)All VariantsPackaging unit 1 PcsThe specifications, descriptions and illustrations indicated in this document are based on current information. All content is subject to modifications and amendments. Information furnished is believed 1 5 . 0 6 . 2 0 1 84。

SPECIFICATIONSReservoir Capacity: 1.9 quarts (1.8 liters)Bleed Tube Length: 72 in. (1830 cm)Evac Tube Length: 48 in. (1220 cm)Working Pressure: 60 to 150 psi (4.1 to 10.3 bar)Air Consumption: 4.3 scfm @ 90 psi (2.0l/********)Vacuum@ 30 psi (2.0 bar): 6.5 in. hg (22 kpa)@ 60 psi (4.1 bar): 16.5 in. hg (56 kpa)@90 psi (6.2 bar): 26.5 in. hg (90 kpa)@150 psi (10.3 bar): 27 in. hg (91 kpa)Fill Rate@ 30 psi (2.0 bar): 24.5 oz/min (725 ml/min.)@ 60 psi (4.1 bar): 49.5 oz/min (1460 ml/min.)@90 psi (6.2 bar): 70.5 oz/min (2095 ml/min.)@150 psi (10.3 bar):70.5 oz/min (2095 ml/min.)PageSection- MV26- 1BVACUUM BRAKE BLEEDERMODEL MV6830USER’S MANUALPage Number - 2BRAKE BLEEDER KIT COMPONENTS376910851223.03.01441113115©Item Part No. Description Item Part No. Description 1822664BRAKE BLEEDING ADAPTER 8822705O-RING KIT2822694BLEEDING TUBE KIT 9822706RESERVOIR GASKET KIT 3822700VALVE KIT 10822709MUFFLER KIT 4822701BASE KIT11822722SUCTION TUBE KIT 5822702COUPLER SWIVEL KIT 12822731FLOAT KIT 6822703COUPLER KIT 13822753HOOK KIT 7822704VENT KIT14MVA6825FLUID REFILL KIT 15©822842RESERVOIR© Indicates changePage Number - 3Important Precautions•Always read carefully and understand instruc-tions prior to using this equipment•Brake fluid is highly corrosive. Wear gloves and approved safety goggles at all times, and pre-vent contact of the fluid with painted surfaces.•Consult and follow the vehicle manufacturer’s recommended procedures when servicing any hydraulic system.•Do not use this unit with flammable liquids or with fluids at temperatures above 175° Fahren-heit (80° Celsius).•Properly dispose of old fluids, and replenish hy-draulic systems with new brake fluid from freshly opened containers.•Do not attempt to pressurize the bleeder/evacu-ator. It is designed for vacuum use only.•This unit is equipped with an automatic shut-off device that will prevent fluid from entering the compressed air stream and ejecting through the exhaust. However, if the unit is continuously op-erated when the reservoir is full, residual pres-sure will allow the reservoir to completely fill with fluid, creating the potential for spillage when the lid is removed. To prevent this situation, empty or turn the unit off prior to filling the reservoir completely full.The screws included in Base Kit 822701 areprovided to secure the base to a work surface.Do not use the screws to attach the base to the reservoir.Principal of OperationThis unit is designed for use as a vacuum brake or clutch bleeder, or fluid evacuator. It utilizes com-pressed air between 60 psi (4.1 bar)and 150 psi (10.3 bar), and a venturi system, to build vacuum in the reservoir. By attaching the proper accessory to the coupler located on the top of the unit, the vacuum can be used to drain brake fluid from a hy-draulic system such as the brake or clutch systems on an automobile. It can also be used to evacu-ate a variety of fluids from reservoirs including the master cylinder or those for power steering fluid or engine coolant.An automatic master cylinder refill kit is included with this unit. It is conveniently designed for use with a standard bottle of brake fluid, to maintain an adequate fluid level in the master cylinder while the hydraulic system is bled. Instructions are includedwith the kit for its use.•Instructions for Bleeding BrakesIMPORTANT: This unit is designed for servicing a variety of vehicles in a safe, convenient manner. However, options such as load sensors or anti-lock brakes, available on many automobiles, may require additional steps or equipment to perform a proper service job. The procedures below are to serve as guidelines for the use of this equipment, in addition to these guidelines, always follow the manufacturer’s recommended procedures when servicing each unique vehicle.Removing old fluid from the brake mas-ter cylinder1.Properly park the vehicle on level ground and turn the engine off.2.Clean the exterior of the master cylinder and master cylinder cap to prevent dirt from entering the master cylinder when the cap is removed.3.Remove the cap from the master cylinder reser-voir.4.Connect clean, regulated (60 psi (4.1 bar) to 150psi (10.3 bar)) compressed air to the male quick disconnect nipple attached to the swivel airinlet, located on one end of the vacuum bleeder handle.5.Connect the appropriate end of the evac tube assembly to the female quick disconnect cou-pler located on top of the vacuum bleeder.6.Insert the other end of the evac tube assemblyinto the master cylinder fluid reservoir, and push the vacuum bleeder throttle forward to start the vacuum (allow a few seconds for vacuum to build in the bleeder reservoir before suction oc-curs). While evacuating the old fluid, stir it up to break loose and remove any sludge that has ac-cumulated on the bottom and walls of the master cylinder.7.Once all fluid is removed, turn off the bleederand refill the master cylinder with new manufac-turer’s recommended brake fluid.© Indicates change ©Vacuum bleed brake lines and wheel brake cylindersNote: Prior to bleeding, ensure the master cylinder is full of new manufacture’s recommended brake fluid. An automatic master cylinder refill kit is included with the vacuum bleeder to maintain the level of new fluid in the master cylinder during the brake bleeding process. Follow the instructions in-cluded with the kit to prevent air from being sucked into the master cylinder pistons, brake lines, and wheel cylinders while bleeding the brakes. Addi-tional automatic refill kits are available from Mity-vac.1.Properly position the vehicle for safe convenientaccess to the brake bleed screw located oneach wheel brake cylinder.2.Make sure that all bleed screws are clean.3.Connect clean, regulated (60 psi (4.1 bar) to150 psi (10.3)) compressed air to the male quick disconnect nipple attached to the swivel airinlet, located on one end of the vacuum bleeder handle.4.Connect the appropriate end of the bleed tubeassembly to the female quick disconnect cou-pler located on top of the vacuum bleeder.Note: Consult the vehicle manufacturer’s guide-lines for the proper wheel bleeding sequenceand vacuum bleeding procedure.5.Slip the bleed screw adapter located on the op-posite end of the bleed tube assembly, over the nipple of the bleed screw.6.Operate the vacuum bleeder by pushing thethrottle forward (allow a few seconds for vacu-um to build in the bleeder reservoir before suc-tion occurs), and with the appropriate wrench,loosen/open the bleed screw slightly, until fluidis visibly draining through the bleed hose andinto the reservoir.Note: During the bleeding process, as brakefluid is being vacuumed through the bleedscrew, air will also be sucked into the bleed tube from around the bleed screw threads. This can give the misconception that air is bleeding from the lines, however it is normal and does notindicate a malfunction. To prevent or reduce this introduction of air, coat the bleed screw threads with silicon grease prior to bleeding.7.Keep the bleed screw open until new fluid isvisibly flowing through the bleed tube (typically20 to 30 seconds).8.Close the bleed screw firmly, without over tight-ening, prior to removing the bleed screw adapter or shutting off the bleeder.Note: It is important to ensure that the bleedscrew adapter remains connected to the bleedscrew, and the bleeder is still pulling a vacuumwhile the bleed screw is closed. This preventsair from being sucked back into the wheel cylin-der from around the bleed screw threads, before the bleed screw is tightened and sealed. Note: If an automatic refiller such as the oneprovided with this unit, is not used, be sure toperiodically check the level and top off the brake fluid in the master cylinder.Instructions for bleeding hydraulicclutch systemIMPORTANT: This unit is designed for servicing a variety of vehicles in a safe, convenient manner. However, hydraulic clutch systems vary between vehicles, in design, in components, and even the location and design of the bleed screw. Due to these differences, the following procedures are to serve only as a guideline for the use of this equip-ment. In addition to these guidelines, always follow the manufacturer’s recommended procedures when servicing each unique vehicle.Removing old fluid from the clutch mas-ter cylinder1.Properly park the vehicle on level ground andturn the engine off.2.Clean the exterior of the master cylinder andmaster cylinder cap to prevent dirt from entering the master cylinder when the cap is removed. 3.Remove the cap from the master cylinder reser-voir.Page Number - 4Page Number - 5Form 8228444.Connect clean, regulated (60 psi (4.1 bar) to 150psi (10.3 bar)) compressed air to the male quick disconnect nipple attached to the swivel airinlet, located on one end of the vacuum bleeder handle.5.Connect the appropriate end of the evac tube assembly to the female quick disconnect coupler located on top of the vacuum bleeder.6.Insert the other end of the evac tube assembly into the master cylinder fluid reservoir, and push the vacuum bleeder throttle forward to start the vacuum (allow a few seconds for vacuum to build in the bleeder reservoir before suction oc-curs). While evacuating the old fluid, stir it up to break loose and remove any sludge that has ac-cumulated on the bottom and walls of the master cylinder.7.Once all fluid is removed, turn off the bleeder and refill the master cylinder with new manufac-turer’s recommended brake fluid.Vacuum bleed clutch master cylinder, slave cylinder, and hydraulic linesNote: Prior to bleeding, ensure the master cyl-inder is full of new manufacture’s recommendedbrake fluid. An automatic master cylinder refill kitis included with the vacuum bleeder to maintainthe level of new fluid in the master cylinder duringthe clutch bleeding process. Follow the instruc-tions included with the kit to prevent air from beingintroduced into the master cylinder pistons, slavecylinder, and fluid lines while bleeding the hydraulicclutch system. Additional automatic refill kits areavailable from Mityvac.1.Properly position the vehicle for safe convenient access to the clutch bleed screw located on the slave cylinder.2.Make sure that the slave cylinderbleed screw is clean.3.Connect clean, regulated (60 psi (4.1 bar) to 150psi (10.3 bar)) compressed air to the male quick disconnect nipple attached to the swivel airinlet, located on one end of the vacuum bleeder handle.4.Connect the appropriate end of the bleed tube assembly to the female quick disconnect cou-pler located on top of the vacuum bleeder.Note: Consult the vehicle manufacturer’s guide-lines for the proper clutch vacuum bleeding procedure.5.Slip the universal bleed screw adapter located on the opposite end of the bleed tube assembly,over the nipple of the bleed screw.6.Operate the vacuum bleeder by pushing the throttle forward (allow a few seconds for vacuum to build in the bleeder reservoir before suction occurs), and with the appropriate wrench, loos-en/open the bleed screw slightly, until fluid is visibly draining through the bleed hose and into the reservoir.Note: During the bleeding process, as brake fluid is being vacuumed through the bleed screw, air will also be sucked into the bleeder hose from around the bleed screw threads. This can give the misconception that air is bleeding from the lines, however it is normal and does not indicate a malfunction. To prevent or reduce this introduction of air, coat the bleed screw threads with silicon grease prior to bleeding.7.Keep the bleed screw open until new fluid is visibly flowing through the bleed hose.8.Close the bleed screw firmly, without over tight-ening, prior to removing the bleed screw adapter or shutting off the bleeder.Note: It is important to ensure that the bleed screw adapter remains connected to the bleed screw, and the bleeder is still pulling a vacuum while the bleed screw is closed. This preventsair from being sucked back into the slave cylin-der from around the bleed screw threads, before the bleed screw is tightened and sealed.Note: If an automatic refiller such as the one provided with this unit, is not used, be sure to periodically check the level and top off the brake fluid in the master cylinder.Shop for other automotive tools on our website.。

液压油知识
一、液压油应具备的性能
1、有适宜的粘度及良好的粘湿性能。

2、润滑性好。

3、具有良好的氧化安定性。

4、防属防锈性好。

5、具有良好的消泡性，空气释放性。

6、对水具有良好的分离性，不易乳化。

7、与密封材料的适应性好。

8、抗燃性高。

9、剪切安定性好。

10、蒸气压低。

11、热膨胀系数低。

二、液压油分类：
HH—无抗氧剂液压油，较AN（全损耗油）高。

HL－液压油。

HM－抗磨液压油。

HV－低温液压油。

HG－液压导轨油。

HS－低温液压油。

CKB－抗氧防锈工业闭式齿轮油。

CKC－中负荷工业闭式齿轮油。

CKD－重负荷工业闭式齿轮油。

CKE－轻负荷蜗轮蜗杆油。

FC－轴承油。

FD－轴承油。

三、通用润滑脂：
◎优○良△尚可х劣
常用润滑剂新旧牌号对照表。