SMCJ16C中文资料
SMC书本资料
标准型(通孔):CDQ2BP□-□DM-□□
二面宽 K
通孔 沉孔
±0.2
行程 行程
※气缸带金属防尘圈
两端螺孔的场合 缸径 O (mm) 50 63 80 标准型 缸径 (mm) 50 63 80 A B C D E F H M8X1.25 M10X1.5 M12X1.75
两端螺孔 CDQ2AP □ - □ DM- □□
IB 47 58 72
N 52 49 49
W 5 7 5.5
WC 34 38 44
WS 44 39 45
S 65 58 58
Z 90 80 80
ZZ 204 194 194
Hs 45 49 54.5
Ht 28 28 28
注)附件尺寸图参见P1.95
1.101
!: CDQ2 !"=E
P F
2-RcP
行程
无杆侧法兰型:CDA1GP□-□□-□□
杆侧法兰型 缸径 40 50 63 80
B 71 81 101 119
FV 60 70 86 102
FD 9.0 9.0 11.5 13.5
FT 12 12 15 18
FX 80 90 105 130
FY 42 50 59 76
FZ 100 110 130 160
ZZ 190 210 227 270
中间耳轴型:CDA1TP□-□□-□□
Z+1/2 行程
行程
中间耳轴型 缸径 40 50 63 80
行程范围
带 1 个、 带2个
TDe8 15 15 18 25
-0.032 -0.059 -0.032 -0.059 -0.032 -0.059 -0.040 -0.073
SMC行程可读气缸 CE1中文操作手册
! 注意
1.避免信号线与动力线的平行配线。 因有由噪音造成误动作的可能性,请避免信号 线和输出线的平行配线,或通过同一个配线 管。
2.配线时的走线和固定 端子部、电缆的取出口部会使电缆形成锐角的 弯曲,故请充分考虑配线时的走线。不合理的 走线会造成断线、误动作等。固定电缆时,固 定点应尽量靠近端子,使端子不会受到过大的 力。
本使用说明书,因有在来不及通知而进行更改的情况,敬请谅解。
0
第1章 使用前必读
这里所指的注意事项,记载了产品应如何安全正确的使用,以防止对您及他人造成损伤。根据其潜 在的危险程度,将有关注意事项分成“注意”,“警告”和“危险”三种标志。不论哪种标志,都是 与安全相关的重要内容,故在遵守此内容的同时,也必须遵守ISO 4414※1)、JIS B8370※2)以及其他安 全规则。
-2-
气源 ! 警告
1.请勿使用规格范围外的压力和温度。 会成为元件破损和动作不良的原因。 ① 使用压力:φ12:0.07~1.0MPa φ20~φ63:0.05~1.0MPa ②使用流体温度及环境温度:0~60℃
2.请使用洁净的空气 压缩空气中若含有化学药品,及含有机溶剂的 合成油、盐分、腐蚀性气体和劣化的空压机油 等场合时,由于会造成破损、动作不良等,请 勿使用。
-3-
配管 ! 注意
1.配管前的处理 配管前应对配管进行充分的吹净(冲洗) 或 洗 净 ,除 去 管 内 的 切 粉 、切 削 油 及 粉 尘 等。特别要注意过滤器的2次侧不能有切 粉、切削油及灰尘等。
2.配管时的注意事项 ①不要混入异物,会成为动作不良的原因。 ②在配管和管接头为螺纹连接时,注意配管螺 纹部的切粉或密封材不要混入阀体的内部。 在使用密封带时请空出螺纹头部的1.5~2个 螺距。
GSQ-JC-16C(TSX-16)伸缩器
GSQ-JC-16C型伸缩器
上海高能高压阀门厂
GSQ-JC-16C 型伸缩器
一、用途:
本伸缩器可在一定范围内,伸缩调节阀门与管道的连接,利用本伸缩器给阀门的安装,检修和更换带来方便。
二、作用原理和结构:
本伸缩器内由伸缩座、密封圈、伸缩管等组成,伸缩管可在一定范围内伸缩,以达到现场所需要的结构长度,压盖压紧密封圈,能保证伸缩器的密封。
利用本伸缩器给现场阀门的安装检修、更换等均带来方便。
六、主要外形尺寸与法兰连接尺寸(符合GB/T 9113.1-2000)
七、安装、使用与保养注意事项。
1.产品按GB12238-89标准制造,在出厂前都已按GB/T13927-92标准的规定进行检验合格。
为了保证产品的使用效果,请勿随意调整紧固件,定位装置等,如果现场要对伸缩器进行检验,请按GB13927-92标准的规定进行。
2.伸缩器安装前应做如下工作:
1)本伸缩器应安装在阀门或其它设备的出口侧,伸缩器的伸缩座1端法兰与阀门出口侧法兰相连接,伸缩管端法兰与管道法兰连接,切不可装反。
2)安装前使伸缩管处在最短位置,同时查验管道法兰和阀门法兰与伸缩器连接法兰是否一致,安装时要均匀拧紧螺母,法兰密封垫片对称效置,
压紧伸缩器压圈3以保证其密封。
3)认真核对使用工况与本产品的工作压力,工作温度耐腐蚀性,是否相符;4)检查伸缩器及其管道内是否附着污物,如果有的话应进行清理,以免损伤阀门密封面;
5)安装时应注意阀门与伸缩器保持同轴,避免伸缩受阻。
八、可能发生的故障和排除方法。
九、声明
用户有特殊要求时,应在定货时声明,我厂可按用户的要求,重新进行设计、生产。
SMCJ15CA中文资料
GDE(BDE) GDG(BDG) GDK(BDK) GDM(BDM) GDP(BDP) GDR(BDR) GDT(BDT) GDV(BDV) GDX(BDX) GDZ(BDZ) GEE(BEE) GEG(BEG) GEK(BEK) GEM(BEM) GEP(BEP) GER(BER) GET(BET) GEV(BEV) GEX(BEX) GEZ(BEZ) GFE(BFE) GFG(BFG) GFK(BFK) GFM(BFM) GFP(BFP) GFR(BFR) GFT(BFT) GFV(BFV) GFX(BFX) GFZ(BFZ) GGE(BGE) GGG(BGG) GGK(BGK) GGM(BGM) GGP(BGP) GGR(BGR) GGT(BGT) GGV(BGV) GGX(BGX) GGZ(BGZ) GHE(BHE) GHG(BHG) GHK(BHK) GHM(BHM) GHP(BHP) GHR(BHR)
(Note 1)
Value
minimum 1500 see table 200 -55 to +150 -55 to +150
Units
W A A °C °C
*These ratings are limiting values above which the serviceability of any semiconductor device may be impaired.
Max Reverse Leakage VRWM IR (uA)*
SMCJ5.0(C)A SMCJ6.0(C)A SMCJ6.5(C)A SMCJ7.0(C)A SMCJ7.5(C)A SMCJ8.0(C)A SMCJ8.5(C)A SMCJ9.0(C)A SMCJ10(C)A SMCJ11(C)A SMCJ12(C)A SMCJ13(C)A SMCJ14(C)A SMCJ15(C)A SMCJ16(C)A SMCJ17(C)A SMCJ18(C)A SMCJ20(C)A SMCJ22(C)A SMCJ24(C)A SMCJ26(C)A SMCJ28(C)A SMCJ30(C)A SMCJ33(C)A SMCJ36(C)A SMCJ40(C)A SMCJ43(C)A SMCJ45(C)A SMCJ48(C)A SMCJ51(C)A SMCJ54(C)A SMCJ58(C)A SMCJ60(C)A SMCJ64(C)A SMCJ70(C)A SMCJ75(C)A SMCJ78(C)A SMCJ85(C)A SMCJ90(C)A SMCJ100(C)A SMCJ110(C)A SMCJ120(C)A SMCJ130(C)A SMCJ150(C)A SMCJ160(C)A SMCJ170(C)A
SMC电磁阀工作原理、常开电磁阀产品特点
SMC电磁阀工作原理、常开电磁阀产品特点SMC电磁阀工作原理SMC电磁阀是工业掌控系统中常用的元件,它可以掌控流体介质的通断和流量。
依据其工作原理可分为直动式电磁阀和间接式电磁阀两种类型。
直动式电磁阀工作原理直动式电磁阀的核心部件是电磁铁,通过电磁吸合将阀芯与阀座密封或分别,从而实现介质通断。
其紧要构成部分包括线圈和磁芯、铁芯、弹簧、阀座和阀芯。
工作时,当线圈获得电源驱动后,会产生磁场,磁场吸引铁芯向上运动,这样就会把阀芯从阀座上分别,形成一个介质通道,介质就可以流通。
当线圈断电后,电磁铁上的弹簧会将阀芯回位,阀芯与阀座密封,这样介质就不能流通。
间接式电磁阀工作原理间接式电磁阀的核心部件是先导阀和电磁铁组合。
其紧要构成部分包括线圈、磁芯、先导阀、主阀和阀芯,工作原理与直动式电磁阀有区分。
先导阀与主阀组合在一起,当线圈通电后,线圈会产生磁场,吸引磁芯往上移动,使得先导阀打开,将介质引导至主阀芯的两侧,从而使得主阀芯上移脱开阀座,介质得以通断。
在线圈断电的时候,磁芯和先导阀回复原位,主阀芯与阀座贴合,介质关闭。
常开电磁阀产品特点常开电磁阀与常闭电磁阀是电磁阀的另外一种分类方式。
常开电磁阀在断电状态下,介质可以自由地经过电磁阀流动,依据介质状态的不同,常开电磁阀又可分为排气型、排液型和通用型。
产品特点耐磨性好常开电磁阀产品的底部接受优质不锈钢,耐高温、抗振动和抗腐蚀,能够运行较长时间。
体积小常开电磁阀接受先进的电磁铁设计,可以让电磁阀的体积特别小,适用于安装空间比较狭小的场合。
节能环保常开型电磁阀结构简单,操作便利,省电、低噪音、能耗低,可较好的节省能源并避开污染环境。
耐腐蚀常开电磁阀产品的闸板、密封圈、阀座和阀体都选用了耐腐蚀材料,可以应用于各种介质(气体和液体)。
应用领域常开型电磁阀适用于各种掌控系统,比如工业和生活用水,循环水系统,汽车等领域等。
常常被用于液位掌控、自动化掌控、流量调整等领域。
结论SMC电磁阀可以精准明确掌控工业掌控系统中的流体介质的通断和流量。
API 16C产品设计要求规范
API Spec 16C 产品设计要求规范设计方法应当遵照下列准则中的一项或多项标准。
1、ASME方法:应按ASME《锅炉与压力容器标准》第8卷第2分册附录4中所述的设计方法进行设计计算。
设计允许应力应当由下列公式进行限定:Sm=2/3S,St=0.9Sy,式中:Sm 额定工作压力下的设计应力;Sy 材料的最小规定屈服强度;St 静压试验许用应力。
2、变型能理论法:变形能法应当用于活接头的设计计算。
用变形能法的三向应力联合作用法时,使用下列两项限制之一计算最低压力设计厚度。
次应力和应力集中超出了本方法的范围。
⑴、额定工作压力:Se=2/3Sy式中:Se——等效应力;S y——⑵、静压试验压力由下式确定:Se=Sy3、实验应力分析:应当使用ASME《锅炉于压力容器标准》第8卷第2分册附录6介绍的实验应力分析方法进行实验应力分析。
4、复核试验分析:应当使用ASME《锅炉于压力容器标准》第8卷第1分册UG-101部分的检验分析方法进行复核试验分析。
二、性能要求:产品的设计性能应当符合本文件规定的要求,而且压力、温度范围、试验流体应符合《API16C材料要求规范》的要求。
1、承压能力:产品应当能在额定温度下承受额定工作压力而不发生使其他性能要求得不到满足的变形。
2、耐温能力:产品或系统应当能在额定温度范围内实现其功能。
3、泄露:不允许有可见的泄露。
4、负荷能力:产品应当能承受额定负荷而不发生使其他性能要求得不到满足的变形。
5、循环:产品应当能完成API 16C标准中对适用产品规定的预期操作循环6、操作力与扭矩:操作产品所需的力或扭矩应当在包括验收标准在内的书面规范内。
三、性能验证:性能验证程序对新产品设计和产品改进设计是强制性的。
本文件规定的验证试验是要求对生产线上具有代表产品型号的样机进行。
1、性能验证要求:性能验证要求见文件《API Spec 16C性能试验规范》。
2、设计改进:一种设计在实质上改进为另一种新设计,需要进行性能验证。
SMC精选材料介绍.doc
SMC材料SMC复合材料(片状模塑料)经高温一次模压成型,具有机械强度高、材料重量轻、耐腐蚀、使用寿命长,绝缘强度高、耐电弧、阻燃、密封性能好,且产品设计灵活,易规模化生产,并有安全美观的优点,具有全天候防护功能,能够满足室外工程项目中各种恶劣环境和场所的需要,克服了室外金属设备箱体的易锈蚀、寿命短和隔热保温性能差等缺陷,广泛应用于电信、电力和铁路等领域。
一、 SMC绝缘板(不饱和聚酯玻璃纤维增强模塑料)SMC绝缘板采用不饱和聚酯片状模塑塑料压制而成,具有色泽均匀、耐电弧、FV0阻燃,吸水率低、耐漏电性好、尺寸公差稳定、翘曲小、介电强度及耐电压高。
用于高低压开关柜的各种绝缘板及结构件。
SMC板材为 1000mm*2000mmSMC绝缘板材料已通过 ROHS环保检测和桂林高压所检测,目前我公司已与西门子,施耐德,东芝白云,森源电气等开关厂合作,为电气行业提供合格的产品。
二、 SMC的应用领域电工电气行业:各种开关柜的隔板、衬板、绝缘支座、支架、灭弧罩、灭弧筒及各类型的绝缘子、灭弧片、触头座、母线夹板及电机出线端子盒、电表箱等。
汽车行业:汽车保险杠、挡泥板、备胎仓、坐椅、仪表盘、防眩板等。
建筑行业:各种建筑物高层水箱、卫生间洁具、装饰板和其它产品。
铁路行业:信号灯、车厢窗框、信号盒外壳等。
SMC 系列模塑料性能指标(JB7770-1995 标准 )指标值指标名称单位4341 SMC-14343 SMC-2 4331 SMC-3 密度g/cm3 ~吸水性mg ≤20 -模塑收缩率% ≤≤热变形温度( A 法)℃≥240 ≥220 冲击强度(简支架,无缺口)KJ/m2 ≥90 ≥60 ≥45 弯曲强度MPa ≥170 ≥150 ≥135常态≥× 103 × 1012 绝缘电阻Ω浸水 24h 后≥×1210 - 电气强度( 90℃变压器油中)MV/m ≥≥介质损耗因数( 1MHz)- ≤-相对介电常数( 1MHz)- ≤- 耐电弧S ≥180 ≥150 耐漏电起痕指数( PTI)V ≥600燃烧性级FVO - 长期耐热性温度指数- 155 130BMC 系列模塑料性能指标(JB7770-1995 标准 )指标值指标名称单位4342 BMC-14344 BMC-2 4332 BMC-3 密度g/cm3 ~吸水性mg ≤20 -模塑收缩率% ≤≤热变形温度( A 法)℃≥240 ≥220 冲击强度(简支架,无缺口)KJ/m2 ≥30 ≥25 ≥20 弯曲强度MPa ≥90 ≥80 ≥70常态≥× 103 ≥× 102 绝缘电阻Ω浸水 24h 后≥×1210 - 电气强度( 90℃变压器油中)MV/m ≥≥介质损耗因数( 1MHz)- ≤-相对介电常数( 1MHz)- ≤- 耐电弧S ≥180耐漏电起痕指数( PTI)V ≥600燃烧性级FVO - 长期耐热性温度指数- 155 130SMC材料在模压汽车配件行业特点及优势一、重量轻对于相同的部件,使用SMC复合材料制作后重量较之钢材轻20-30%,满足了汽车领域要求在保证部件强度的情况下减轻部件重量的要求,是汽车工业节能的理想产品。
API 16C 目录 2015 中文
目录页码1、范围. . . . . . . . . . . . 12、参考标准. . . . . . . .. . . . . 13、术语、定义和缩略语. . . . . . . . . . . . . 33.1 、术语和定义. . . . . . . . . . . . . 33.2、缩略语. . . . . 104 、设计要求. . . . . . . . . . . . 104.1、工作条件 . . . . . . . . . . . . . . 104.2、产品规范 . . . . . . . . . . . . 114.3、设计方法 . . . . 144.4、性能要求. . . . . . . 154.5 、设计验证 (15)4.6 、通径和额定工作压力. .. . . . . . . . . 164.7 、封闭螺栓. . . 164.8 、卡箍. . . . . . . . . . 164.9、试验口、排放孔、管塞及仪表连接. . . . . . . . . . . .. . . . . . 164.10、设计文件. . . . . . . . . . . 165、材料要求. . . . . . . . . . . 175.1、总则. . . . . . . . . . 175.2、书面规范. . . . . . . . . . . . 175.3、钻井节流阀. . . 185.4、封闭螺栓. . . 185.5、柔性管线. . . . . 185.6、承压件、本体、阀盖、阀杆及端部接头. . . . . . . . . 185.7 、刚性管线. . . . . . 215.8 、质量鉴定试样. . . . . . . 226、焊接. . . . . . . . . . 256.1、总则. . . . . . . . . . 256.2、非承压焊接件. . . .. . . . . . . . . 256.3、承压加工焊接件. . . . . . . 256.4、承压补焊 . . . . . . . . . . . 296.5、堆焊. . . . 307、质量控制. . . . . . . .. . . . . . . . . . 327.1、总则. . . . . . . . . . 327.2、测量和试验设备 (32)7.3、质量控制人员资格. . . . . . . . . . 347.4、质量控制要求. . . . . 347.5、总成设备. . . . . . . . . . . 537.6、质量控制记录要求. . . . . . . . . . . . 588、标记. . . . . . . . . . 608.1、总则. . . . . . . . . . 608.2、低应力区域标记. . . . . . . . . 608.3、高应力区域标记. . . . . . . . . 60目录页码8.4 、设备特有标记. . . . . . . . . . . . . . . .. . . . . . . . . . . . . 608.5、阀体、阀盖和法兰硬度标记.. . . . . . . . 609、储存和发运 (60)9.1、储存.... . . . . . . . . . . . . 609.2、发运... . . . . . . ... . . . 6110、设备特殊要求.... . . . . . 6210.1、总则.. . . . . . . ... . . . . 6210.2、端部连接和出口连接... . . . . . . . . . . . 6210.3 、环形垫.... . . . . . . . 6310.4 、螺栓和螺母.... . . ... . 6310.5、钻井节流阀... . . ... . 6310.6、钻井节流阀阀门.. . . . . . . . . . . . . .. . . . . . . . . . . . . . 6510.7、硬性节流和压井管线.. . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . 67 10.8、柔性节流和压井管线.... . . . . . . . . . . 6710.9、液压控制系统—钻井节流阀.. . . . . . . . . . . . . . . . 7010.11、缓冲腔... . . ... . 7410.12、节流和压井管汇总成. . . . . . . . . . .. . . . . . . . . . . 7410.13、操作和维修手册的要求.. . . . . . . . . . 75附录A、(信息式)API标志专利使用.. . . . . 77附录B (规范性)设计验证过程.. . . . . . . . . . . . . . . 80附录C(信息式)焊接坡口加工设计.. . . . . . . . . . . ..96附录D(信息式)热处理设备条件... . . . . 101附录E(信息式)管道热膨胀计算.. . . . . . 103附录F(信息式)采购指南... . 105附录G(规范性)钻井节流控制台系统.. . . . . 106附录H(信息式)节流和压井系统结构范例.. . . . . . . . . . . . . . 109 参考文献目录... . . . . . . . . . . . 114图纸1、简单几何形状... . . . . . . . . . . . . . 232、结构复杂的零件... . . . . . . . . . 233、钢试样锭结构 ... . . . . . . . . . . . . . . 244、焊接工艺评定洛氏硬度试验位置. . . . . . . . . . . . 275、焊接工艺评定维氏硬度试验位置... . . . . . . . . . . . . . 286、硬度试验位置... . . . . . . . . . . . . . . 317、标准柔性管线结构.. . . . . . . . . . . . .. . . . . . . . . . . 678、标准粘结和非粘结柔性管线总成.. . .689、标准柔性管线端部接头... . . . . . . . . 6910、铰接式节流和压井管线范例.. . . . . . . . . . . . . . . 73目录页码11、“旋转点”图例 (73)C.1、管子对焊接头.... . . . . . 96C.2、U形坡口.... . . . . . ... . . . 96C.3、厚壁V形坡口... . .. . . . . . . . . . . . . . . . 97C.4、连接件焊缝.... . . . 97C.5、孔修复... . . . . . ... . . 98C.6、补焊坡口——消除焊缝金属和基本金属的取样缺陷 . . . . . . . . . . . 99C.7、衬套/阀座内腔 (100)D.1、热电偶位置... . . . . . . . . . . . . 102H.1、2K 和3K 额定工作压力的节流管汇总成示例—用于地面防喷器安装.. . . . . . . . . . 109 H.2、5K 额定工作压力的节流管汇总成示例——用于地面防喷器安装.... . . . . . . . . . . . . 110 H.3、10K及以上额定工作压力的节流管汇总成示例——用于地面防喷器安装.. . .. . . . . 111 H.4、2K和3K额定工作压力的压井管线总成示例——用于地面防喷器安装. . .. . . . . . . . 111 H.5、5K 额定工作压力压井管线示例——用于地面防喷器安装. . . 112H.6、10K及以上额定工作压力压井管线示例——用于地面防喷器安装. . . . . . . . . . . . . 112 H.7、水下系统的节流和压井管汇示例.. . . .. . 113表格:1、金属和非金属材料以及柔性管线的额定温度. . . . 112、设备通径和额定工作压力. . . . . .. . 123、由壬、活动弯头和铰接式管线的尺寸和额定工作压力s. . . . 134、柔性管线的尺寸和额定工作压力.. . . . . . . . . . . 145、承压件的材料属性要求.. .. 186、承压件的材料牌号.. . . . . . . . . . . . . 197、承压件材料钢成分的最大限值. . . . . . . . 198、合金元件最大公差范围的要求...... . 199、验收标准和夏比V形坡口冲击要求... . . 2010、阀体、阀盖、节流和压井管线以及端部连接和出口连接的质量控制要求. . . . . . . . . . . . . 3511、最小硬度值.... . . . . . . . . . . . . 3612、热加工件的验收标准.. . . . . . . . . . . .. . . . . . . . . 4013、铸件的验收标准... . . . . . . . . . . 4014 、焊缝夹渣长度验收标准—射线探伤方式. . . . . . . . . . . . . 4215 、焊缝夹渣长度验收标准—超声波探伤方式. . . . . . . . . . . . . . . . 4216、阀杆的质量控制要求................... . 4417、压力控制金属部分的质量控制要求.. . . . . . . . . . . 4518、阀门承压件的质量控制要求....... . . . . . . 4519、非金属密封材料的质量控制要求. . . . . . . . . . . . . . . . 46目录页码20、柔性管线承压件的质量控制要求. . . 4821、硬管线的质量控制要求.. . . . . . . . . . . . . . 4922、加长标志的验收标准.. . . . . . .. . . . . . . 5023、公接头和母接头的质量控制要求.. . . . . 5324、质量控制要求—总成设备.. . . . . . 5425 、最小液压试验压力.. . . . . . . . . . . . .. . . . . . . . . 5526、金属标记的要求. . . . . . . . . . . . . . .. . . . . . . . . . . . 6127、钻井节流阀和阀门的性能要求 (65)28、柔性管线的尺寸和额定工作压力.. . . . . .. . . . . 6929、柔性节流和压井管线的柔性规范级别(FSL). . . . . . . . . . . . . . .. . 7030、铰接式节流和压井管线部件的颜色编码 (73)B.1 、标准试验液体.... . . 85。
SMCJ中文资料
6.40 6.40 6.67 6.67 7.22 7.22 7.78 7.78 8.33 8.33 8.89 8.89 9.44 9.44 10.0 10.0 11.1 11.1 12.2 12.2 13.3 13.3 14.4 14.4 15.6 15.6 16.7 16.7 17.8 17.8 18.9 18.9 20.0 20.0 22.2 22.2 24.4 24.4 26.7 26.7 28.9 28.9 31.1 31.1 33.3 33.3 36.7 36.7 40.0 40.0 44.4 44.4 47.8 47.8 50.0 50.0 53.3 53.3 56.7 56.7 60.0 60.0 64.4 64.4
TA, AMBIENT TEMPERATURE ( C)
FIG.3-PULSE WAVE FORM
150 IPPM, PEAK PULSE CURRENT, %
tf=10us Peak Value IPPM TA=25 C Pulse Width (td) is defined as the point where the Peak Current Deacys to 50% of Ipp 10,000
RATINGS
Peak Power Dissipation at TA =25 C, TP=1ms(NOTE 1) Peak Forward Surge Current at 8.3ms Single Half Sine-Wave superimposed on rated load (JEDEC method) (NOTE 3) Maximum Instantenous Forward Voltage at 35.0A for Unidirectional only
SMC中文四版电子样本第三册(辅助元件)3of4
R1 S
带密封剂(仅外螺纹)……标准规格 管子尺寸或连接螺纹尺寸
内连接弯头:KBL
型 号
KBL1-R1S KBL2-R1S KBL2-R2S KBL2-R3S KBL3-R2S KBL3-R3S KBL3-R4S KBL4-R3S KBL4-R4S
托架:KBX
型 号
KBX6 KBX12 KBX14 KBX16 KBX20 KBX22
T 连接螺纹
托架安装用螺纹
4 6 8 10 8 10 12
R 1/8 R 1/4 R 3/8 R 1/4 R 3/8 R 1/2 R 3/8 R 1/2
2
空气供给口: KBE、 KBH 、 KBB 、 KBS 、 KBL
5
托架: KBX
适合管子
KB X 6
适合螺纹大小 品种
KB H 1
品种 接头体大小
4 5
11 38
□ □
□
36 45
11
38
□
43 55
4.87
□
43
ø37
43
DM6
DM12
¿47
多管对接式接头(长方形)
KDM系列
规格
使用流体 最高使用压力 使用真空度 环境及使用流体温度 管子材质
空气 1.0MPa 100kPa 以下 -5~60℃(未冻结) 尼龙、软尼龙、聚氨酯
*盖的型号见下表
管子材质
附件
无记号 C1 C2 *盖的型号见下表。
无 单侧带盖 两侧带盖
无记号 尼龙管、软尼龙管、聚氨酯管 适合DMK系列 N NU
尼龙管
适合DM 系列
软尼龙管、聚氨酯管
盖的型号
系列 管子根数 6 DM 12 6 DMK 12
SMC电动阀类产品说明书
Instruction ManualElectric Actuator / Rod Type Series LEYGMotor: AC servo motor (100-200 VAC)The intended use of thisElectrical Actuator is to convert an electrical input signal into mechanical motion.1 Safety InstructionsThese safety instructions are intended to prevent hazardous situations and/or equipment damage. These instructions indicate the level of potential hazard with the labels of “Caution,” “Warning” or “Danger.” They are all important notes for safety and must be followed in addition to International Standards (ISO/IEC) *1), and other safety regulations. *1)ISO 4414: Pneumatic fluid power - General rules relating to systems. ISO 4413: Hydraulic fluid power - General rules relating to systems.IEC 60204-1: Safety of machinery - Electrical equipment of machines. (Part 1: General requirements)ISO 10218-1: Manipulating industrial robots -Safety. etc.∙ Refer to the product catalogue, Operation Manual and Handling Precautions for SMC Products for additional information. ∙ Keep this manual in a safe place for future reference.CautionCaution indicates a hazard with a low level of risk which, ifnot avoided, could result in minor or moderate injury.WarningWarning indicates a hazard with a medium level of riskwhich, if not avoided, could result in death or serious injury.DangerDanger indicates a hazard with a high level of risk which, ifnot avoided, will result in death or serious injury.Warning∙ Always ensure compliance with relevant safety laws and standards.All work must be carried out in a safe manner by a qualified person in compliance with applicable national regulations.2 SpecificationsSeries LEYG - Motor: Step [servo 24 VDC]Product Weight [kg]30501001502002503003050100150200250300Incremental E ncoder[S2] 1.80 1.99 2.31 2.73 3.07 3.41 3.67 1.81 2.02 2.26 2.69 2.95 3.27 3.51AbsoluteE ncoder[S6] 1.86 2.05 2.37 2.79 3.13 3.47 3.73 1.87 2.08 2.32 2.75 3.01 3.33 3.57AbsoluteE ncoder[T6] 1.80 2.00 2.40 2.80 3.10 3.50 3.70 1.90 2.10 2.30 2.70 3.00 3.30 3.60Absolute E ncoder[V6]1.701.902.202.603.003.303.601.701.902.202.602.903.203.4030501001502002503003050100150200250300Incremental E ncoder[S2] 3.24 3.50 4.05 4.80 5.35 5.83 6.28 3.24 3.51 3.90 4.64 5.06 5.56 5.96AbsoluteE ncoder[S6] 3.18 3.44 3.99 4.74 5.29 5.77 6.22 3.18 3.45 3.84 4.58 5.00 5.50 5.90AbsoluteE ncoder[T6] 3.20 3.40 4.00 4.70 5.30 5.70 6.20 3.20 3.40 3.80 4.60 5.00 5.50 5.90Absolute E ncoder[V6]3.103.404.004.705.305.706.203.103.403.804.505.005.505.90In-line Motor Type30501001502002503003050100150200250300IncrementalE ncoder[S2] 1.83 2.02 2.34 2.76 3.10 3.44 3.70 1.84 2.05 2.29 2.72 2.98 3.30 3.54AbsoluteE ncoder[S6] 1.89 2.08 2.40 2.82 3.16 3.50 3.76 1.90 2.11 2.35 2.78 3.04 3.36 3.60AbsoluteE ncoder[T6] 1.90 2.10 2.40 2.80 3.10 3.50 3.70 1.90 2.10 2.30 2.80 3.00 3.30 3.60Absolute E ncoder[V6]1.701.902.202.603.003.303.601.702.002.202.602.903.203.4030501001502002503003050100150200250300Incremental E ncoder[S2] 3.26 3.52 4.07 4.82 5.37 5.85 6.30 3.26 3.53 3.92 4.66 5.08 5.58 5.98AbsoluteE ncoder[S6] 3.20 3.46 4.01 4.76 5.31 5.79 6.24 3.20 3.47 3.86 4.60 5.02 5.52 5.92AbsoluteE ncoder[T6] 3.20 3.40 4.00 4.70 5.30 5.80 6.20 3.20 3.40 3.80 4.60 5.00 5.50 5.90Absolute E ncoder[V6]3.203.404.004.705.305.806.203.203.403.804.605.005.505.90Stroke[mm] TypeofMotorLEYG32M LEYG32L Stroke[mm] TypeofMotorSeriesSeriesLEYG25M LEYG25L LEYG25M LEYG25L Stroke[mm] SeriesLEYG32M LEYG32L Stroke[mm] TypeofMotorTypeofMotorSeries2 Specifications (continued)A dditional Weight2532Incremental E ncoder[S2]0.200.40Absolute E ncoder[S6]0.300.66Absolute E ncoder[T6]0.300.70Absolute E ncoder[V6]0.300.60Size LockNote 1) Please consult with SMC for non-standard strokes produced tospecial order.Note 2) This is the maximum value of the horizontal work load. Anexternal guide is necessary to support the load. The actual work load changes according to the condition of the external guide. Confirm the load using the actual device.Note 3) Thrust setting range when "pushing" operation in torque controlmode, etc. Refer to the thrust conversion graph shown in the catalogue as a guide.Set value LEYG25#S/32#S: 15 to 30% Set value LEYG25#T/32#T: 12 to 24% Set value LEYG25#V/32#V: 45 to 90%Note 4) The allowable speed changes according to the stroke.Note 5) The allowable collision speed for collision with the workpiecewith the torque control mode.Note 6) A reference value for correcting an error in reciprocal operation. Note 7) Impact resistance: No malfunction occurred when the actuatorwas tested with a drop tester in both an axial direction and perpendicular direction to the lead screw (the test was performed with the actuator in the initial state).Vibration resistance:No malfunction occurred in a test ranging between 45 to 2000 Hz, when the actuator was tested in both an axial direction and a perpendicular direction to the lead screw (the test was performed with the actuator in the initial state).Note 8) When the motor type is "T6-T9",the resolution will changedepending on the driver type.Note 9) The maximum instantaneous power consumption (including thedriver) is for when the actuator is operating.Note 10) Only when the motor option, "with lock", is selected.Note 11) For an actuator with lock, add the power consumption for thelock.WarningFor special products which include a suffix of “-X#”, “-D#”, please refer to the customer drawing of that specific product.3 Installation3.1 InstallationWarning∙ Do not install the product unless the safety instructions have been read and understood.∙ Do not use the product in excess of its allowable specification as listed in Section 2.∙ Ensure the product is sized correctly and is suitable for the application. ∙ Do not operate the product by fixing the piston rod and moving the actuator body.∙ When installing, inspecting or performing maintenance on the product, be sure to turn off the power supplies. Then, lock it so it cannot be tampered with while work is happening.3.2 EnvironmentWarning∙ Do not use in an environment where corrosive gases, chemicals, salt water or steam are present.∙ Do not use in an explosive atmosphere.∙ Do not expose to direct sunlight. Use a suitable protective cover.∙ Do not install in a location subject to vibration or impact in excess of the product’s specifications .∙ Do not mount in a location exposed to radiant heat that would result in temperatures in excess of the product’s specifications. ∙ Prevent foreign particles from entering the product.3 Installation (continued)3.3 MountingWarning∙ Observe the required tightening torque for screws.Unless stated otherwise, tighten the screws to the recommended torque for mounting the product.∙ Do not make any alterations to the product.Alterations made to this product may lead to a loss of durability and damage to the product, which can lead to injury and damage to other equipment and machinery.Do not scratch or dent the sliding parts of the table or mounting face etc., by striking or holding them with other objects. The components are manufactured to precise tolerances, so that even a slight deformation may cause faulty operation or seizure.∙ Do not use the product until it has been verified that the equipment can be operated correctly.After mounting or repair, connect the power supply to the product and perform appropriate functional inspections to check it is mounted correctly.∙ Do not use the product until it has been verified that the equipment can be operated correctly.∙ After mounting or repair, connect the power supply to the product and perform appropriate functional inspections to check it is mounted correctly.∙ Allow sufficient space for maintenance and inspection.Caution∙ When mounting the product, use screws with adequate length and tighten them to the recommended torque.Tightening with larger torque than the specified range may cause mal-function while the tightening with smaller torque can allow the displacement of actuator position. In extreme conditions the actuator could become detached from it’s mounting position.Work fixed / Plate tapped typeTighten the product mounting screws to the specified torque.Tightening to a torque over the specified range can cause operation failure, and insufficient torque can cause displacing or dropping of the attachment.Body fixed / Top mountingBody fixed / Bottom mounting Mounting / Head side tapped styleModel Screw Max.tighteningtorque [Nm]Max. thread depth [mm] LEYG25 M5 x 0.8 3.0 12LEYG32 M6 x 1.0 5.2 12 Model Screw Max.tighteningtorque [Nm]Max. thread depth [mm] LEYG25 M5 x 0.8 3.0 40.3LEYG32 M6 x 1.0 5.2 50.3ORIGINAL INSTRUCTIONSModelLEYG25 LEYG25D (Parallel/In-line )LEYG32 (Parallel type) LEYG32D (In-line type) A c t u a t o r Stroke [mm] Note1)30, 50, 100, 150, 200, 250,300 30, 50, 100, 150, 200, 250,300 30, 50, 100, 150,200, 250,300 Work load [kg] HorizontalNote 2)18 50 50 30 60 60 30 60 60 Vertical 7 15 29 7 17 35 10 22 44Pushing force [N] Note3)65 to 131 127 to 255 242 to 485 79 to 157 154 to 308 294 to 588 98 to 197 192 to 385 368 to 736Maximum Speed[mm/s]Note4)900 450 225 1200 600 300 1000 500 250 Pushing Speed [mm/s]Note5)35 or less 30 or less Acceleration / Deceleration [mm/s 2] 5000 Positioningrepeatability [mm] Basic type ±0.02 Highprecision ±0.01Lost motion [mm] Note6) Basic type 0.1 or lessHigh precision 0.05 or lessLead [mm](including pulley ratio)12 6 3 20 10 5 16 8 4 Impact resistance/vibrationResistance [m/s 2] Note7)50 / 20 Actuation type Ball screw and Belt [1:1] / Ball screw Ball screw and Belt[1.25:1] Ball screwGuide typeSliding bearing (LEYG#M), Ball bush bearing (LEYG#L) Operating temperature range [℃] 5 to 40 Operating humidity range [%RH] 90 or less(No condensation) Regenerative optionMay be required by speed and work load(Refer to catalogue)E l e c t r i c a l Motor output/size 100W /☐40 200W /☐60 Type of MotorAC servo motor (100 / 200 VAC) Encoder Note8) Motor type S2-S3:Incremntal 17-bit encoder(Resolution:131072 p/rev)Motor type S6-S7:Absolute 18-bit encoder (Resolution:262144 p/rev)Motor type T6-T7:Absolute 22-bit encoder(Resolution:4194304 p/rev) Motor type V6-V7:Absolute 20-bit encoder (Resolution:1048576 p/rev) Maximum instantaneous power consumption [W] Note9) 445 724 L o c k u n i tType Note10) Non magneting lock Holding force [N] 131 255 485 157 308 588 197 385 736 Power consumption [W] at 20 ℃ Note11) LEY*G(S/T)* /LEY*G V * 6.3 / 5.5 7.9 / 6 Rated voltage[V] 24 VDC 0-10% Model Screw Max.tighteningtorque [Nm]Max. thread depth [mm] LEYG25 M5 x 0.8 3.0 8 LEYG32 M6 x 1.0 5.2 10Model Screw Max.tighteningtorque [Nm] Max. thread length [mm]LEYG25 M6 x 1.05.2 11 LEYG32 M6 x 1.0 5.2 123 Installation (continued)3.4 LubricationCaution∙SMC products have been lubricated for life at manufacture, and do notrequire lubrication in service.∙If a lubricant is used in the system, refer to catalogue for details.∙The recommended grease is lithium grade No.2Applied Region Grease Pack Number Weight [g]Piston rodGuideGR-S-010 10GR-S-020 20∙For products which include a “25A-” prefix the recommended grease islow condensation grease.Applied Region Grease Pack Number Weight [g]Piston rodGuideGR-D-010 104 Wiring4.1 WiringWarning∙Adjustment, mounting or wiring changes should not be carried outbefore disconnecting the power supply to the product.Electric shock, malfunction and damage can result.∙Do not disassemble the cables.∙Use only specified cables.Use only specified cables otherwise there may be risk of fire anddamage.∙Do not connect or disconnect the wires, cables and connectors whenthe power is turned on.Caution∙Wire the connector correctly and securely.Check the connector for polarity and do not apply any voltage to theterminals other than those specified in the Operation Manual.∙Take appropriate measures against noise.Noise in a signal line may cause malfunction. As a countermeasureseparate the high voltage and low voltage cables, and shorten thewiring lengths, etc.∙Do not route input/output wires and cables together with power or highvoltage cables.The product can malfunction due to noise interference and surgevoltage from power and high voltage cables close to the signal line.Route the wires of the product separately from power or high voltagecables.∙Take care that actuator movement does not catch cables.∙Operate with all wires and cables secured.∙Avoid bending cables at sharp angles where they enter the product.∙Avoid twisting, folding, rotating or applying an external force to thecable.Risk of electric shock, wire breakage, contact failure and loss of controlof the product can result.∙Select “Robotic cables”in applications where cables are movingrepeatedly (encoder/ motor/ lock).Refer to the relevant operation manual for the bending life of the cable.∙Confirm correct insulation.Poor insulation of wires, cables, connectors, terminals etc. can causeinterference with other circuits. Also there is the possibility thatexcessive voltage or current may be applied to the product causingdamage.∙R efer to the auto switch references in “Best Pneumatics“ when an autoswitch is to be used4.2 Actuator Ground connectionCaution∙The Actuator must be connected to ground to shield the actuator fromelectrical noise. The screw and cable with crimping terminal andtoothed washer should be prepared separately by the user.4 Wiring (continued)4.3 Wiring of Actuator to ControllerAC servo motor driverWarningUse only specified cables otherwise there may be risk of fire and damage5 How to Order∙For standard products, refer to the catalogue on the SMC website(URL: https://) for the how to order information.6 Outline Dimensions∙For standard products, refer to the catalogue on the SMC website(URL: https://) for outline dimensions.7 Maintenance7.1 General MaintenanceCaution∙Not following proper maintenance procedures could cause the productto malfunction and lead to equipment damage.∙If handled improperly electricity and compressed air can be dangerous.∙Maintenance of electromechanical and pneumatic systems should beperformed only by qualified personnel.∙Before performing maintenance, turn off the power supply and be sureto cut off the supply pressure. Confirm that the power has beendischarged and the air is released to atmosphere.∙After installation and maintenance, apply operating pressure andpower to the equipment and perform appropriate functional andleakage tests to make sure the equipment is installed correctly.∙If any electrical or pneumatic connections are disturbed duringmaintenance, ensure they are reconnected correctly and safety checksare carried out as required to ensure continued compliance withapplicable national regulations.∙Do not make any modification to the product.∙Do not disassemble the product, unless required by installation ormaintenance instructions.∙Incorrect handling can cause an injury, damage or malfunction of theequipment and machinery, so ensure that the procedure for the task isfollowed.∙Always allow sufficient space around the product to complete anymaintenance and inspection.7 Maintenance (continued)7.2 Periodical Maintenance∙Maintenance should be performed according to the table below:AppearanceCheckBelt CheckInspection before daily operation ✓Inspection every six months* ✓✓Inspection every 1,000 km* ✓✓Inspection every 5 million cycles* ✓✓*whichever of these occurs first.∙Following any maintenance, always perform a system check. Do notuse the product if any error occurs, as safety cannot be assured ifcaused by any un-intentional malfunction.7.3 Appearance Check∙The following items should be visually monitored to ensure that theactuator remains in good condition and there are no concerns flagged;・Loose Screws,・Abnormal level of dust or dirt,・Visual flaws / faults,・Cable connections,・Abnormal noises or vibrations.7.4 Belt Check∙If one of the 6 conditions below are seen, do not continue operatingthe actuator, contact SMC immediately.・Tooth shaped canvas is worn out.Canvas fibre becomes “fuzzy”, rubber is removed, and the fibre gainsa white colour. The lines of fibre become very unclear.・Peeling off or wearing of the side of the belt.The corner of the belt becomes round and frayed, with threadsbeginning to stick out.・Belt is partially cut.Belt is partially cut. Foreign matter could be caught in the teeth andcause flaws.・Vertical line of belt teeth.Flaw which is made when the belt runs on the flange.・Rubber back of the belt is softened and sticky.・Crack on the back of the belt.8 Limitations of Use8.1 Limited warranty and disclaimer/compliance requirements∙Refer to Handling Precautions for SMC Products.9 Product disposalThis product should not be disposed of as municipal waste. Check yourlocal regulations and guidelines to dispose of this product correctly, inorder to reduce the impact on human health and the environment.10 ContactsRefer to or www.smc.eu for your local distributor /importer.URL : http// (Global) http// (Europe)'SMC Corporation, 4-14-1, Sotokanda, Chiyoda-ku, Tokyo 101-0021, JapanSpecifications are subject to change without prior notice from the manufacturer.© 2021 SMC Corporation All Rights Reserved.Template DKP50047-F-085M24VDC(5) Lock cable(4) Encoder cable(3) Motor cable(1) Electric Actuator(2) DriverHostcontroller,etc(6) I/O Connector。
SMCJ75CA中文资料
A
C
Mechanical Data
· · · · ·
D
J
E G H
H
G E
J
All Dimensions in mm
Maximum Ratings
Characteristic Peak Pulse Power Dissipation (Non repetitive current pulse derated above T = 25°C) A ( Note 1) Peak Forward Surge Current, 8.3ms Single Half Sine Wave Superimposed on Rated Load (JEDEC Method) (Notes 1, 2, & 3) Instantaneous Forward Voltage @ IPP = 35A (Notes 1, 2, & 3) Operating and Storage Temperature Range
DS19003 Rev. 11 - 2
2 of 3
SMCJ5.0(C)A - SMCJ170(C)A
元器件交易网
100
10,000
Measured at zero bias
PEAK PULSE DERATING IN % OF PEAK POWER OR CURRENT
@ TA = 25°C unless otherwise specified Symbol PPK IFSM VF Tj, TSTG Value 1500 200 3.5 -55 to +150 Unit W A V °C
B
Dim A B C D
SMC Min 5.59 6.60 2.75 0.15 7.75 0.10 0.76 2.00 Max 6.22 7.11 3.18 0.31 8.13 0.20 1.52 2.62
SMC中文四版电子样本第一册(执行元件)2of6
杆侧 气缸通口TP
⑦
⑧
⑥
R□LQB 缸径 -B□ 后退方向锁,右侧配管(虚线为左侧配管) . . = = .TH .TH ⑤ ① ④ ② ③
= .Max. T1
杆侧 气缸通口TP
无杆侧 气缸通口TP
⑥ ⑧ ⑦
= .Max. T2
= .T3
.
.
.
带旁通管路气缸的构成
序号 1 2 3 4 5 6 7 8 名 称 带锁带气缓冲的薄型气缸 PT弯头 节流阀 PT三通 金属体速度控制阀 弯头 旁通管 防火花罩 数量 1 1 1 1 2 2 1 2 型号
47.5 57.5 67.5
19 26 26
!"#$ !"=E
%/ F
!": RQ
安装件型号 CQ-L032
RQL·RDQL
63 80 100
CQ-L040 CQ-L050 CQ-L063 CQ-L080 CQ-L100 30~100 40~100 40~100 81.2 95 111 55 63.5 76 29 33.5 42 18 20 22 43.5 53.5 53.5 11 13 13
旁通配管 无记号 无
R
带旁通配管右配管 (防止落下)
L 带旁通配管左配管 (防止落下)
(
外形尺寸图 (毫米) ¿32(非常停止)
两端螺孔/R□LQA32
PL锁开放通口 加压状态下锁开放 55 22.5 9
锁方向 F 前进方向锁 B 后退方向锁
非 常 停 止
*配管的左右,是从杆侧观察。
*1台气缸应订购2只脚座。 *脚座型、法兰型附本体安装螺钉。 *双耳环型附耳环用销轴,弹性挡圈, 本体安装螺钉及垫圈。
SMCJ22CA-TR中文资料
SMCJ5.0A-TR,CA-TR SMCJ188A-TR,CA-TRTRANSIL TM®PEAK PULSE POWER : 1500 W (10/1000µs)STAND OFF VOLTAGE RANGE :From 5V to 188V.UNI AND BIDIRECTIONAL TYPES LOW CLAMPING FACTOR FAST RESPONSE TIMEFEATURESSMC(JEDEC DO-214AB)Symbol ParameterValue Unit P PP Peak pulse power dissipation (see note 1)Tj initial = T amb 1500W P Power dissipation on infinite heatsink T amb = 50°C 6.5W I FSM Non repetitive surge peak forward current for unidirectional types tp = 10msTj initial = T amb200A T stg T j Storage temperature range Maximum junction temperature- 65 to + 175150°C °C T LMaximum lead temperature for soldering during 10 s.260°CNote 1 : For a surge greater than the maximum values, the diode will fail in short-circuit.ABSOLUTE MAXIMUM RATINGS (T amb = 25°C)DESCRIPTIONThe SMCJ series are TRANSIL TM diodes designed specifically for protecting sensitive equipment against transient overvoltages.Transil diodes provide high overvoltage protection by clamping action. Their instantaneous response to transient overvoltages makes them particularly suited to protect voltage sensitive devices such as MOS Technology and low voltage supplied IC’s.August 1999 - Ed: 5A Symbol ParameterValue Unit R th (j-l)Junction to leads15°C/W R th (j-a)Junction to ambient on printed circuit on recommended pad layout75°C/WTHERMAL RESISTANCES 1/5II F V F V CLV BRV RMI PPI RMVSymbol ParameterV RM Stand-off voltage V BR Breakdown voltage V CL Clamping voltage I RM Leakage current @ V RM I PPPeak pulse currentαTVoltage temperature coefficient V FForward voltage dropELECTRICAL CHARACTERISTICS (T amb = 25°C)TypesI RM @ V RM V BR @ I R V CL @ I PP V CL @ I PP αT C maxmin maxmax maxtyp note210/1000µs 8/20µs note3note4Unidirectional Mark.Bidirectional Mark.µA V V mA V A V A 10-4/°C pF SMCJ5.0A-TR FUA SMCJ5.0CA-TR FBA 800 5.0 6.4109.217113.4746 5.79500SMCJ6.0A-TR FUB SMCJ6.0CA-TR FBB 800 6.0 6.71010.315213.7730 5.99000SMCJ6.5A-TR FUC SMCJ6.5CA-TR FBC 500 6.57.21011.214014.5690 6.18500SMCJ8.5A-TR FUD SMCJ8.5CA-TR FBD 58.59.4114.410519.55127.37000SMC10A-TR FUF SMCJ10CA-TR FBF 51011.11179221.74617.86000SMCJ12A-TR FUH SMCJ12CA-TR FBH 51213.3119.97925.33948.35250SMCJ13A-TR FUI SMCJ13CA-TR FBI 11314.4121.57327.23688.45000SMCJ15A-TR FUJ SMCJ15CA-TR FBJ 11516.7124.46432.53088.84300SMCJ18A-TR FUL SMCJ18CA-TR FBL 11820129.25339.32549.23700SMCJ20A-TR FUM SMCJ20CA-TR FBM 12022.2132.44842.82349.43500SMCJ22A-TR FUN SMCJ22CA-TR FBN 12224.4135.54448.32079.63200SMCJ24A-TR FUO SMCJ24CA-TR FBO 12426.7138.940502009.63050SMCJ26A-TR FUP SMCJ26CA-TR FBP 12628.9142.13753.51879.72900SMCJ28A-TR FUQ SMCJ28CA-TR FBQ 12831.1145.434591699.82700SMCJ30A-TR FUR SMCJ30CA-TR FBR 13033.3148.43264.31569.92500SMCJ33A-TR FUS SMCJ33CA-TR FBS 13336.7153.32969.714310.02400SMCJ40A-TR FUU SMCJ40CA-TR FBU 14044.4164.5248411910.12050SMCJ48A-TR FUW SMCJ48CA-TR FBW 14853.3177.42010010010.31800SMCJ58A-TR FUZ SMCJ58CA-TR FBZ 15864.4193.6161218310.41550SMCJ60A-TR GUA SMCJ60CA-TR GBA 16066.5196.615.71258110.51520SMCJ70A-TR GUB SMCJ70CA-TR GBB 17077.8111313.91466910.51350SMCJ85A-TR GUE SMCJ85CA-TR GBE 18594.4113711.51785610.61150SMCJ100A-TR GUG SMCJ100CA-TR GBG 110011111629.72124710.71000SMCJ130A-TR GUI SMCJ130CA-TR GBI 113014412097.52653810.8850SMCJ154A-TR GUL SMCJ154CA-TR GBL 11541711246 6.131731.510.8725SMCJ170A-TR GUM SMCJ170CA-TR GBM 11701891275 5.73532810.8675SMCJ188A-TRGUNSMCJ188CA-TR GBN 11882091328 4.63882610.8625Note 2 : Pulse test : t p < 50 ms.Note 3 : ∆V BR = αT * (T amb - 25) * V BR (25°C).Note 4 : V R = 0 V, F = 1 MHz. For bidirectional types,capacitance value is divided by 2.10s1000s%I PP 50tPULSE WAVEFORM 10/1000s100SMCJxxxA-TR, CA-TR2/5ORDER CODEBIDIRECTIONALNo suffix : UnidirectionalSURFACE MOUNTSTAND OFF VOLTAGE1500 WATTSSM C J 85 C A - TRTAPE & REEL 02550751001251501750.00.10.20.30.40.50.60.70.80.91.01.1Tj initial(°C)Ppp[Tj initial]/Ppp[Tj initial=25°C]Fig. 1: Peak power dissipation versus initial junc-tion temperature.0.010.101.0010.000.11.010.050.0tp(ms)Ppp(kW)Fig. 3: Peak pulse power versus exponential pulse duration (Tj initial=25°C).025507510012515012345678Tamb(°C)P(W)Rth(j-a)=Rth(j-l)Rth(j-a)=75°C/W Fig. 2: Continous power dissipation versus initial junction temperature.11010010001E-11E+01E+11E+21E+3Vcl(V)Ipp(A)tp=20µstp=1msSMCJ5.0A,CASMCJ58A,CASMCJ33A,CASMCJ18A,CASMCJ8.5A,CASMCJ130A,CASMCJ188A,CAFig. 4: Clamping voltage versus peak pulse cur-rent (Tj initial=25°C).Exponential waveform tp=20µs & tp=1ms.SMCJxxxA-TR, CA-TR3/51101002000.010.101.0010.00VR(V)C(nF)F=1MHzSMCJ5.0ASMCJ188ASMCJ58ASMCJ33ASMCJ18AFig. 5-1: Capacitance versus reverse applied volt-age (typical values) (SMCJxxA serie).0.51.0 1.52.0 2.53.0 3.50.11.010.0100.0200.0VFM(V)IFM(A)Tj=25°CTj=125°CFig. 6: Peak forward voltage drop versus peak for-ward current (typical values).12345405060708090100S(cm²)Rth(j-a) (°C/W)Fig. 8: Thermal resistance junction to ambient ver-sus copper surface under each lead (Printed circuit board FR4, e(Cu)=35µm)1101002000.010.101.0010.00VR(V)C(nF)F=1MHzSMCJ5.0CASMCJ188CASMCJ58CASMCJ33CASMCJ18CAFig. 5-2: Capacitance versus reverse applied volt-age (typical values) (SMCJxxCA serie).1E-21E-11E+01E+11E+25E+20.010.101.00tp(s)Zth(j-a)/Rth(j-a)Fig. 7: Relative variation of thermal impedance junction to ambient versus pulse duration.(Printed circuit board FR4, S(Cu)=1cm 2).02550751001251501E-11E+01E+11E+21E+32E+3Tj(°C)IR[Tj] / IR [Tj=25°C]VBR<8.5VVBR upper or equal to 8.5VFig. 9: Relative variation of leakage current versus junction temperature.SMCJxxxA-TR, CA-TR4/5REF.DIMENSIONSMillimeters Inches Min.Max.Min.Max.A1 1.90 2.450.0750.096A20.050.200.0020.008b2.903.20.1140.126c0.150.410.0060.016E 7.758.150.3050.321E1 6.607.150.2600.281E2 4.40 4.700.1730.185D 5.55 6.250.2180.246L0.751.600.0300.063Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement 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 STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied.STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written ap-proval of STMicroelectronics.The ST logo is a registered trademark of STMicroelectronics © 1999 STMicroelectronics - Printed in Italy - All rights reserved.STMicroelectronics GROUP OF COMPANIESAustralia - Brazil - China - Finland - France - Germany - Hong Kong - India - Italy - Japan - MalaysiaMalta - Morocco - Singapore - Spain - Sweden - Switzerland - United Kingdom - U.S.A.Packaging : standard packaging is in tape and reel.PACKAGE MECHANICAL DATA SMC (Plastic)ECLE2E1DA1A2bMARKING : Logo, Date Code, Type Code, Cathode Band (for unidirectional types only).FOOTPRINT DIMENSIONS (Millimeter)SMC Plastic.2.0 4.2 2.03.3Weight : 0.25 gSMCJxxxA-TR, CA-TR5/5。
瞬态抑制二极管SMCJ型号参数规格书大全
equipment from voltage transients induced by lightning and other transient voltage events.Uni-directionalBi-directionalu For surface mounted applications in order to optimize board space u Low leakageu Uni and Bidirectional unit u Glass passivated junction u Low inductanceu Excellent clamping capabilityu 1500W Peak power capability at 10 × 1000µs waveform Repetition rate (duty cycle):0.01%u Fast response time: typically less than 1.0ps from 0 Volts to V BR min u Typical I R less than 5μA above 12V.u High Temperature soldering: 260°C/40 seconds at terminals u Typical maximum temperature coefficient ΔV BR = 0.1% × V BR @25°C × ΔTu Plastic package has Underwriters Laboratory Flammability 94V-0 u Matte tin lead –free Platedu Halogen free and RoHS compliantu Typical failure mode is short from over-specified voltage or current u Whisker test is conducted based on JEDEC JESD201A per its table 4a and 4cu IEC-61000-4-2 ESD 15kV(Air), 8kV (Contact)u ESD protection of data lines in accordance with IEC 61000-4-2 (IEC801-2)uEFT protection of data lines in accordance with IEC 61000-4-4 (IEC801-4)TVS devices are ideal for the protection of I/O interfaces, V CC bus and other vulnerable circuits used in Telecom, Computer, Industrial and Consumer electronic applications.ParameterSymbolValueUnitPeak Pulse Power Dissipation with a 10/1000µs waveform (Fig.1)(Note 1), (Note 2)P PPM 1500 Watts Peak Pulse Current with a 10/1000µs waveform.(Note1,Fig.3) I PP See Next TableAmps Power Dissipation on Infinite Heat Sink at T L =75°CP M(AV) 6.5 Watt Peak Forward Surge Current, 8.3ms Single Half Sine Wave (Note 3) I FSM 200 Amps Maximum Instantaneous Forward Voltage at 25A for Unidirectional Only (Note 4)V F 3.5/5.0 Voltage Operating junction and Storage Temperature Range.T J , T STG-55 to +150°CNotes:1. Non-repetitive current pulse, per Fig. 3 and derated above T A = 25°C per Fig.2. 2. Mounted on 5.0mm x 5.0mm (0.03mm thick) Copper Pads to each terminal.3. 8.3ms single half sine-wave, or equivalent square wave, Duty cycle = 4 pulses per minutes maximum.4. V F < 3.5V for V BR < 200V and V F < 6.5V for V BR > 201V.APart NumberMarking BreakdownVoltage V BR (V)@I T Uni Bi Uni Bi Reverse Stand-Off Voltage V RWM (V) MIN MAX Test Current I T (mA) Maximum Clamping Voltage V C @I PP (V) Maximum Peak Pulse Current I PP (A) Maximum Reverse Leakage I R @V RWM (μA ) SMCJ5.0 SMCJ5.0C GDD BDD 5.0 6.40 7.30 7.37 10 9.6 156.25 1000 SMCJ5.0A SMCJ5.0CA GDE BDE 5.0 6.40 7.00 7.37 10 9.2 163.04 1000 SMCJ6.0SMCJ6.0CGDF BDF 6.0 6.67 8.15 10 11.4 131.58 1000 SMCJ6.0A SMCJ6.0CA GDG BDG 6.0 6.67 7.37 10 10.3 145.63 1000 SMCJ6.5 SMCJ6.5C GDH BDH 6.5 7.22 8.82 10 12.3 121.95 500 SMCJ6.5A SMCJ6.5CA GDK BDK 6.5 7.22 7.98 10 11.2 133.93 500 SMCJ7.0 SMCJ7.0C GDL BDL 7.0 7.78 9.51 10 13.3 112.78 200 SMCJ7.0A SMCJ7.0CA GDM BDM 7.0 7.78 8.60 10 12.0 125.00 200 SMCJ7.5 SMCJ7.5C GDN BDN 7.5 8.33 10.20 1 14.3 104.90 100 SMCJ7.5A SMCJ7.5CA GDP BDP 7.5 8.33 9.21 1 12.9 116.28 100 SMCJ8.0SMCJ8.0CGDQ BDQ 8.0 8.89 10.90 1 15.0 100.00 50 SMCJ8.0A SMCJ8.0CA GDR BDR 8.0 8.89 9.83 1 13.6 110.29 50 SMCJ8.5 SMCJ8.5C GDS BDS 8.5 9.44 11.50 1 15.9 94.34 20 SMCJ8.5A SMCJ8.5CA GDT BDT 8.5 9.44 10.40 1 14.4 104.17 20 SMCJ9.0 SMCJ9.0C GDU BDU 9.0 10.00 12.20 1 16.9 88.76 10 SMCJ9.0A SMCJ9.0CA GDV BDV 9.0 10.00 11.10 1 15.4 97.40 10 SMCJ10 SMCJ10C GDW BDW 10.0 11.10 13.60 1 18.8 79.79 5 SMCJ10A SMCJ10CA GDX BDX 10.0 11.10 12.30 1 17.0 88.24 5 SMCJ11 SMCJ11C GDY BDY 11.0 12.20 14.90 1 20.1 74.63 5 SMCJ11A SMCJ11CA GDZ BDZ 11.0 12.20 13.50 1 18.2 82.42 5 SMCJ12 SMCJ12C GED BED 12.0 13.30 16.30 1 22.0 68.18 5 SMCJ12A SMCJ12CA GEE BEE 12.0 13.30 14.70 1 19.9 75.38 5 SMCJ13 SMCJ13C GEF BEF 13.0 14.40 17.60 1 23.8 63.03 5 SMCJ13A SMCJ13CA GEG BEG 13.0 14.40 15.90 1 21.5 69.77 5 SMCJ14 SMCJ14C GEH BEH 14.0 15.60 19.10 1 25.8 58.14 5 SMCJ14A SMCJ14CA GEK BEK 14.0 15.60 17.20 1 23.2 64.66 5 SMCJ15 SMCJ15C GEL BEL 15.0 16.70 20.40 1 26.9 55.76 5 SMCJ15A SMCJ15CA GEM BEM 15.0 16.70 18.50 1 24.4 61.48 5 SMCJ16 SMCJ16C GEN BEN 16.0 17.80 21.80 1 28.8 52.08 5 SMCJ16A SMCJ16CA GEP BEP 16.0 17.80 19.70 1 26.0 57.69 5 SMCJ17 SMCJ17C GEQ BEQ 17.0 18.90 23.10 1 30.5 49.18 5 SMCJ17A SMCJ17CA GER BER 17.0 18.90 20.90 1 27.6 54.35 5 SMCJ18 SMCJ18C GES BES 18.0 20.00 24.40 1 32.2 46.58 5 SMCJ18A SMCJ18CA GET BET 18.0 20.00 22.10 1 29.2 51.37 5 SMCJ19 SMCJ19C GEA BEA 19.0 21.13 25.76 1 34.0 44.10 5 SMCJ19A SMCJ19CA GEB BEB 19.0 21.10 23.30 1 30.8 48.73 5 SMCJ20 SMCJ20C GEU BEU 20.0 22.20 27.10 1 35.8 41.90 5 SMCJ20A SMCJ20CA GEV BEV 20.0 22.20 24.50 1 32.4 46.30 5 SMCJ22 SMCJ22C GEW BEW 22.0 24.40 29.80 1 39.4 38.07 5 SMCJ22A SMCJ22CA GEX BEX 22.0 24.40 26.90 1 35.5 42.25 5 SMCJ24 SMCJ24C GEY BEY 24.0 26.70 32.60 1 43.0 34.88 5 SMCJ24A SMCJ24CA GEZ BEZ 24.0 26.70 29.50 1 38.9 38.56 5 SMCJ26 SMCJ26C GFD BFD 26.0 28.90 35.30 1 46.6 32.19 5 SMCJ26A SMCJ26CA GFE BFE 26.0 28.90 31.90 1 42.1 35.63 5 SMCJ28 SMCJ28C GFF BFF 28.0 31.10 38.00 1 50.0 30.00 5 SMCJ28A SMCJ28CA GFG BFG 28.0 31.10 34.40 1 45.4 33.04 5 SMCJ30 SMCJ30C GFH BFH 30.0 33.30 40.70 1 53.5 28.04 5 SMCJ30A SMCJ30CA GFK BFK 30.0 33.30 36.80 1 48.4 30.99 5 SMCJ33 SMCJ33C GFL BFL 33.0 36.70 44.90 1 59.0 25.42 5 SMCJ33A SMCJ33CA GFM BFM 33.0 36.70 40.60 1 53.3 28.14 5 SMCJ36 SMCJ36C GFN BFN 36.0 40.00 48.90 1 64.3 23.33 5 SMCJ36A SMCJ36CA GFP BFP 36.0 40.00 44.20 1 58.1 25.82 5 SMCJ40 SMCJ40C GFQ BFQ 40.0 44.40 54.30 1 71.4 21.01 5 SMCJ40A SMCJ40CA GFR BFR 40.0 44.40 49.10 1 64.5 23.26 5 SMCJ43 SMCJ43C GFS BFS 43.0 47.80 58.40 1 76.7 19.56 5 SMCJ43ASMCJ43CAGFTBFT43.047.8052.80169.4 21.61 5APart NumberMarking BreakdownVoltage V BR (V)@I T Uni Bi Uni Bi Reverse Stand-Off Voltage V RWM (V) MIN MAX Test Current I T (mA)Maximum Clamping Voltage V C @I PP (V) Maximum Peak Pulse Current I PP (A) Maximum Reverse Leakage I R @V RWM (μA ) SMCJ45 SMCJ45C GFU BFU 45.0 50.00 61.10 1 80.3 18.68 5 SMCJ45A SMCJ45CA GFV BFV 45.0 50.00 55.30 1 72.7 20.63 5 SMCJ48 SMCJ48C GFW BFW 48.0 53.30 65.10 1 85.5 17.54 5 SMCJ48A SMCJ48CA GFX BFX 48.0 53.30 58.90 1 77.4 19.38 5 SMCJ51 SMCJ51C GFY BFY 51.0 56.70 69.30 1 91.1 16.47 5 SMCJ51A SMCJ51CA GFZ BFZ 51.0 56.70 62.70 1 82.4 18.20 5 SMCJ54 SMCJ54C GGD BGD 54.0 60.00 73.30 1 96.3 15.58 5 SMCJ54A SMCJ54CA GGE BGE 54.0 60.00 66.30 1 87.1 17.22 5 SMCJ58 SMCJ58C GGF BGF 58.0 64.40 78.70 1 103.0 14.56 5 SMCJ58A SMCJ58CA GGG BGG 58.0 64.40 71.20 1 93.6 16.03 5 SMCJ60 SMCJ60C GGH BGH 60.0 66.70 81.50 1 107.0 14.02 5 SMCJ60A SMCJ60CA GGK BGK 60.0 66.70 73.70 1 96.8 15.50 5 SMCJ64 SMCJ64C GGL BGL 64.0 71.10 86.90 1 114.0 13.16 5 SMCJ64A SMCJ64CA GGM BGM 64.0 71.10 78.60 1 103.0 14.56 5 SMCJ70 SMCJ70C GGN BGN 70.0 77.80 95.10 1 125.0 12.00 5 SMCJ70A SMCJ70CA GGP BGP 70.0 77.80 86.00 1 113.0 13.27 5 SMCJ75 SMCJ75C GGQ BGQ 75.0 83.30 102.00 1 134.0 11.19 5 SMCJ75A SMCJ75CA GGR BGR 75.0 83.30 92.10 1 121.0 12.40 5 SMCJ78 SMCJ78C GGS BGS 78.0 86.70 106.00 1 139.0 10.79 5 SMCJ78A SMCJ78CA GGT BGT 78.0 86.70 95.80 1 126.0 11.90 5 SMCJ80 SMCJ80C GGA BGA 80.0 88.96 108.80 1 143.2 10.47 5 SMCJ80A SMCJ80CA GGB BGB 80.0 88.80 97.60 1 129.6 11.57 5 SMCJ85 SMCJ85C GGU BGU 85.0 94.40 115.00 1 151.0 9.93 5 SMCJ85A SMCJ85CA GGV BGV 85.0 94.40 104.00 1 137.0 10.95 5 SMCJ90 SMCJ90C GGW BGW 90.0 100.00 122.00 1 160.0 9.38 5 SMCJ90A SMCJ90CA GGX BGX 90.0 100.00 111.00 1 146.0 10.27 5 SMCJ100 SMCJ100C GGY BGY 100.0 111.00 136.00 1 179.0 8.38 5 SMCJ100A SMCJ100CA GGZ BGZ 100.0 111.00 123.00 1 162.0 9.26 5 SMCJ110 SMCJ110C GHD BHD 110.0 122.00 149.00 1 196.0 7.65 5 SMCJ110A SMCJ110CA GHE BHE 110.0 122.00 135.00 1 177.0 8.47 5 SMCJ120 SMCJ120C GHF BHF 120.0 133.00 163.00 1 214.0 7.01 5 SMCJ120A SMCJ120CA GHG BHG 120.0 133.00 147.00 1 193.0 7.77 5 SMCJ130 SMCJ130C GHH BHH 130.0 144.00 176.00 1 231.0 6.49 5 SMCJ130A SMCJ130CA GHK BHK 130.0 144.00 159.00 1 209.0 7.18 5 SMCJ140 SMCJ140C GHA BHA 140.0 155.68 190.40 1 250.6 5.99 5 SMCJ140A SMCJ140CA GHB BHB 140.0 155.00 171.00 1 226.8 6.61 5 SMCJ150 SMCJ150C GHL BHL 150.0 167.00 204.00 1 268.0 5.60 5 SMCJ150A SMCJ150CA GHM BHM 150.0 167.00 185.00 1 243.0 6.17 5 SMCJ160 SMCJ160C GHN BHN 160.0 178.00 218.00 1 287.0 5.23 5 SMCJ160A SMCJ160CA GHP BHP 160.0 178.00 197.00 1 259.0 5.79 5 SMCJ170 SMCJ170C GHQ BHQ 170.0 189.00 231.00 1 304.0 4.93 5 SMCJ170A SMCJ170CA GHR BHR 170.0 189.00 209.00 1 275.0 5.45 5 SMCJ180 SMCJ180C GHS BHS 180.0 201.00 244.80 1 322.2 4.66 5 SMCJ180A SMCJ180CA GHT BHT 180.0 201.00 220.00 1 291.6 5.14 5 SMCJ190 SMCJ190C GHU BHU 190.0 211.21 258.40 1 340.1 4.41 5 SMCJ190A SMCJ190CA GHV BHV 190.0 211.00 232.00 1 307.8 4.87 5 SMCJ200A SMCJ200CA GHW BHW 200.0 224.00 247.00 1 324.0 4.60 5 SMCJ220A SMCJ220CA GHX BHX 220.0 246.00 272.00 1 356.0 4.20 5 SMCJ250A SMCJ250CA GHZ BHZ 250.0 279.00 309.00 1 405.0 3.70 5 SMCJ300A SMCJ300CA GJE BJE 300.0 335.00 371.00 1 486.0 3.10 5 SMCJ350A SMCJ350CA GJG BJG 350.0 391.00 432.00 1 567.0 2.60 5 SMCJ400A SMCJ400CA GJK BJK 400.0 447.00 494.00 1 648.0 2.30 5 SMCJ440A SMCJ440CAGJMBJM440.0492.00543.001713.0 2.10 5Note:1. Suffix 'A ' denotes 5% tolerance device. Without 'A' denotes 10% tolerance device2. Add suffix 'C 'or ' CA ' after part number to specify Bi-directional devices3. For Bi-Directional devices having V R of 10 volts and under, the I R limit is doubleAATemperature Cycle JESD22-A104 Weight 0.007 ounce, 0.21 gramPressure Cooker JESD22-A102 Case JEDEC DO-214AB Molded Plastic over glass passivated junctionHigh Temp. Storage JESD22-A103 Polarity Color band denotes cathode except BipolarHTRBJESD22-A108 TerminalMatte Tin-plated leads, Solderable per JESD22-B102DThermal ShockJESD22-A106Reflow ConditionLead –free assembly -Temperature Min (T s(min))150°C -Temperature Max (T s(max)) 200°CPre Heat- Time (min to max) (t s )60 -180 Seconds Average ramp up rate ( Liquidus Temp T L ) to peak3°C/second max T S(max) to TL - Ramp-up Rate3°C/second max - Temperature (T L ) (Liquidus) 217°CReflow- Time (min to max) (t s )60 -150 SecondsPeak Temperature (T P ) 260 +0/-5°CTime within 5°C ofactualpeakTemperature (t p )20 -40 Seconds Ramp-down Rate6°C/second max Time 25°C to peak Temperature (T P ) 8 minutes MaxDo not exceed280°CRamp-down PreheatCritical Zone Time to peak temperature(t 25℃ to peak)T P T L S(max)S(min)25Ramp-upTimePhysical SpecificationsEnvironmental SpecificationsSoldering Parameters0.646 (16.4)0.512(13.0)Arbor Hole DiameterDimensions are in inches (and millimeters)0.157 (4.0) 0.059 (1.5)Diameter 0.315 (8.0)Cover tape。
SMC气缸详细介绍以及包含哪些元件
SMC气缸认真介绍以及包含哪些元件SMC气缸在我们的生活中是比较常见,也是使用较多的,在使用的过程中,我们会碰到各种问题,气动元件怎么进行护理。
一套气动装置,不注意其维护,就会让其过早的显现损坏和常常发生故障。
而对于气动元件装置使用寿命你了解多少那,在对气动装置进行保养得时候,我们应当针对发生事故的苗头适时进行处置以及解决,削减事故的发生,延长元件和系统的使用寿命。
因此,企业应订立气动装置的维护保养管理规范,加强管理教育,严格管理。
SMC气缸维护保养工作的中心任务是保证供应气动系统清洁干燥的压缩空气,保证气动系统的气密性,保证油雾润滑元件得到必须的润滑,保证气动元件和系统得到规定的工作条件(如使用压力,电压等),以保证气动执行机构按预定的要求进行工作。
油雾器肯定选用一周补油一次的规格,补油时,要注意油量削减情况。
若耗油量太少,应重新调整滴油量,调整后滴油量仍削减或不滴油,应检查油雾器进出口是否装反,油道是否堵塞,所选油雾器的规格是否合适。
SMC气缸的维护工作应比每日和每周的维护工作更认真,但仍限于外振动盘部能够检查的范围。
其重要内容是:认真检查各处泄露情况,紧固松动的螺钉和管接头,端子台检查换向阀排出空气的质量,检查各调整部分的快捷性,检查指示仪表的正确性,检查电磁阀切换动作的牢靠性,检查气缸活塞杆的质量以及一切从外部能够检查的内容。
SMC气缸维护工作可以分为常常性的维护工作和定期的维护工作。
前者是指每天必须进行的维护工作,后者可以是每周,每月或每季度进行的维护工作。
维护工作应有记录。
维护工作应有记录,以利于今后的故障诊断和处置。
SMC气缸检查漏气时应采纳在各个检查点涂肥皂液等方法,因其显示漏气的效果比听声音更灵敏。
检查SMC气缸排出空气的质量时应注意如下三方面:一是了解排气中所含润滑油是否适度,其方法是将一张清洁的白纸放在换向阀的排气口相近,阀在工作三至四个循环后,若白纸上只有很轻的斑点,表明润滑良好,二是了解排气中是否含有冷凝水,三是了解不应排气的排气口是否有漏气。
SMC官网资料-SMC有触点磁性开关D系列
D-Z80
直接安装 CY3B/3R,CP95
D-A54 D-B54
DC24V:5~50mA
有
AC100V:5~25mA
AC200V:5~12.5mA
无
接通时 2.4V以下 发光
二极管亮
拉杆安装 环带安装
C95,CRA1,CA2 CLK1G,MGG,RHC,CG1
D-A64 D-B64
继电器、 程序控制器
同Y59A
DC24V
-
(DC10 5~40 ~28V) mA
4V以下
DC24V时 0.8 A以下
同Y69A 同F9NW
环带安装 2色指示 同H7NW
轨道安装
同F79W
直接安装
同Y7NW
拉杆安装
C95,CRA(ø50~ø100)
轨道安装
CJ2,CQ2,CQM,CXW,CY1S/L,CXT,RSQ,RZQ,REAS/L,CLQ
D-J79
D-K59
D-M5B
D-M9B(V)
D-T79
1 2
(C)
D-T99
1 2
D-Y59B
D-Y69B
DC24V
D-F9BW(V) 2线制 继电器 -
D-H7BW
PLC
D-J79W
D-Y7BW(V)
D-F5BAL
D-F7BAL
轨道安装
CE1,CLQ,CQ2,CRA1,CXT,CXW,CY1S/1L,MHT2,MK,MU, MRQ,REAS/L,RSQ,CQ2X,MLU,RQ,RLQ,RZQ
1.359
!: D-
无触点磁性开关规格(续)
型号
线制
适合
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SMCJ SERIESSURFACE MOUNT TRANSIENT VOLTAGE SUPPRESSORSPART NUMBER REVERSE BREAKDOWN BREAKDOWN TEST MAXIMUM PEAK REVERSE MARKING ADD C FOR BI- STAND-OFF VOLTAGE VOLTAGE CURRENT CLAMPING PULSE LEAKAGE CODE DIRECTIONAL VOLTAGE VBR (V) VBR (V) IT VOLTAGE CURRENT @ VRWMSee Note 1 VRWM (V) MIN. @IT MAX. @IT (mA) @Ipp Vc (V) Ipp (A) IR(A) UNI BI µSMCJ5.0(C) 5.0 6.40 7.55 10 9.6 156.2 1000 BDD GDD SMCJ54(C) 54 60.0 76.00 1 96.3 15.6 5 BGD GGD SMCJ48(C) 48 53.3 67.50 1 85.5 17.5 5 BFW GFWSMCJ43(C) 43 47.8 60.50 1 76.7 19.6 5 BFS GFS SMCJ36(C) 36 40.0 50.70 1 64.3 23.3 5 BFN GFN SMCJ30(C) 30 33.3 42.20 1 53.5 28.0 5 BFH GFH SMCJ26(C) 26 28.9 36.60 1 46.6 32.2 5 BFD GFD SMCJ22(C) 22 24.4 30.90 1 39.4 38.1 5 BEW GEW SMCJ18(C) 18 20.0 25.30 1 32.2 46.6 5 BES GES SMCJ16(C) 16 17.8 22.60 1 28.8 52.1 5 BEN GEN SMCJ14(C) 14 15.6 19.80 1 25.8 58.1 5 BEH GEH SMCJ12(C) 12 13.3 16.90 1 22.0 68.2 5 BED GED SMCJ10(C) 10 11.1 14.10 1 18.8 79.8 5 BDW GDW SMCJ8.5(C) 8.5 9.44 11.92 1 15.9 94.3 25 BDS GDS SMCJ7.5(C) 7.5 8.33 10.67 1 14.3 104.9 100 BDN GDNSMCJ6.5(C) 6.5 7.22 9.14 10 12.3 122.0 500 GDH BDH SMCJ5.0(C)A 5.0 6.40 7.25 10 9.2 163.0 1000 BDE GDE SMCJ54(C)A 54 60.0 69.00 1 87.1 17.2 5 BGE GGE SMCJ48(C)A 48 53.3 61.30 1 77.4 19.4 5 BFX GFX SMCJ43(C)A 43 47.8 54.90 1 69.4 21.6 5 BFT GFT SMCJ36(C)A 36 40.0 46.00 1 58.1 25.8 5 BFP GFP SMCJ30(C)A 30 33.3 38.30 1 48.4 31.0 5 BFK GFK SMCJ26(C)A 26 28.9 33.20 1 42.1 35.6 5 BFE GFE SMCJ22(C)A 22 24.4 28.00 1 35.5 42.2 5 BEX GEX SMCJ18(C)A 18 20.0 23.30 1 29.2 51.4 5 BET GET SMCJ16(C)A 16 17.8 20.50 1 26.0 57.7 5 BEP GEP SMCJ14(C)A 14 15.6 17.90 1 23.2 64.7 5 BEK GEK SMCJ12(C)A 12 13.3 15.30 1 19.9 75.3 5 BEE GEE SMCJ10(C)A 10 11.1 12.80 1 17.0 88.2 5 BDX GDX SMCJ8.5(C)A 8.5 9.44 10.82 1 14.4 104.2 20 BDT GDT SMCJ5.0(C)A 7.5 8.33 9.58 1 12.9 116.3 100 BDP GDP SMCJ6.5(C)A 6.5 7.22 8.30 10 11.2 133.9 500 BDK GDK SMCJ6.0(C)A 6.0 6.67 7.67 10 10.3 145.6 1000 BDG GDG SMCJ58(C)A 58 64.4 74.10 1 93.6 16.0 5 BGG GGGSMCJ51(C)A 51 56.7 65.20 1 82.4 18.2 5 BFZ GFZ SMCJ45(C)A 45 50.0 57.50 1 72.7 20.6 5 BFV GFV SMCJ40(C)A 40 44.4 51.10 1 64.5 23.2 5 BFR GFR SMBJ33(C)A 33 36.7 42.20 1 53.3 28.1 5 BFM GFM SMCJ28(C)A 28 31.1 35.80 1 45.4 33.0 5 BFG GFG SMCJ24(C)A 24 26.7 30.70 1 38.9 38.6 5 BEZ GEZ SMCJ20(C)A 20 22.2 25.50 1 32.4 46.3 5 BEV GEV SMCJ17(C)A 17 18.9 21.70 1 27.6 53.3 5 BER GER SMCJ15(C)A 15 16.7 19.20 1 24.4 61.5 5 BEM GEM SMCJ13(C)A 13 14.4 16.50 1 21.5 69.7 5 BEG GEG SMCJ11(C)A 11 12.2 14.00 1 18.2 82.4 5 BDZ GDZ SMCJ9.0(C)A 9.0 10.0 11.50 1 15.4 97.4 10 BDV GDV SMCJ8.0(C)A 8.0 8.89 10.23 1 13.6 110.3 50 BDR GDR SMCJ7.0(C)A 7.0 7.78 8.95 10 12.0 125.0 200 BDM GDM SMCJ6.0(C) 6.0 6.67 8.45 10 11.4 131.6 1000 GDF BDF SMCJ58(C) 58 64.4 81.60 1 103 14.6 5 BGF GGF SMCJ51(C) 51 56.7 71.80 1 91.1 16.5 5 BFY GFY SMCJ45(C) 45 50.0 63.30 1 80.3 18.7 5 BFU GFU SMCJ40(C) 40 44.4 56.30 1 71.4 21.0 5 BFQ GFQ SMCJ33(C) 33 36.7 46.50 1 59.0 25.2 5 BFL GFL SMCJ28(C) 28 31.1 39.40 1 50.0 30.0 5 BFF GFF SMCJ24(C) 24 26.7 33.80 1 43.0 34.9 5 BEY GEY SMCJ20(C) 20 22.2 28.10 1 35.8 41.9 5 BEU GEU SMCJ17(C) 17 18.9 23.90 1 30.5 49.2 5 BEQ GEQ SMCJ15(C) 15 16.7 21.10 1 26.9 55.8 5 BEL GEL SMCJ13(C) 13 14.4 18.20 1 23.8 63.0 5 BEF GEF SMCJ11(C) 11 12.2 15.40 1 20.1 74.6 5 BDY GDY SMCJ9.0(C) 9.0 10.0 12.60 1 16.9 88.7 10 BDU GDU SMCJ8.0(C) 8.0 8.89 11.30 1 15.0 100.0 50 BDQ GDQ SMCJ7.0(C) 7.0 7.78 9.86 10 13.3 112.8 200 BDL GDLPART NUMBER REVERSE BREAKDOWN BREAKDOWN TEST MAXIMUM PEAK REVERSE MARKING ADD C FOR BI- STAND-OFF VOLTAGE VOLTAGE CURRENT CLAMPING PULSE LEAKAGE CODE DIRECTIONAL VOLTAGE VBR (V) VBR (V) IT VOLTAGE CURRENT @ VRWMSee Note 1 VRWM (V) MIN. @IT MAX. @IT (mA) @Ipp Vc (V) Ipp (A) IR(A) UNI BI µSMCJ60(C) 60 66.7 84.5 1 107 14.0 5 BGH GGH SMCJ160(C) 160 178 226.0 1 287 5.2 5 BHN GHN SMCJ130(C) 130 144 182.5 1 231 6.5 5 BHH GHHSMCJ110(C) 110 154.5 1 196 7.7 5 BHD GHD 122 SMCJ90(C) 90 100 126.5 1 160 9.4 5 BGW GGW SMCJ78(C) 78 86.7 109.8 1 139 10.8 5 BGS GGSSMCJ70(C) 70 77.8 98.6 1 125 12.0 5 BGN GGN SMCJ60(C)A 60 66.7 76.7 1 96.8 15.5 5 BGK GGK SMCJ160(C)A 160 178 205.0 1 259 5.8 5 BHP GHP SMCJ130(C)A 130 144 165.5 1 209 7.2 5 BHK GHK SMCJ110(C)A 110 122 140.5 1 177 8.4 5 BHE GHE SMCJ90(C)A 90 100 115.5 1 146 10.3 5 BGX GGX SMCJ78(C)A 78 86.7 99.7 1 126 11.4 5 BGT GGT SMCJ70(C)A 70 77.8 89.5 1 113 13.3 5 BGP GGP SMCJ64(C)A 64 71.1 81.8 1 103 14.6 5 BGM GGM SMCJ170(C)A 170 189 217.5 1 275 5.5 5 BHR GHRSMCJ150(C)A 150 167 192.5 1 243 6.2 5 BHM GHMSMCJ120(C)A 120 133 153.0 1 193 7.9 5 BHG GHG SMCJ100(C)A 100 111 128.0 1 162 9.3 5 BGZ GGZ SMCJ85(C)A 85 94.4 108.2 1 137 10.4 5 BGV GGV SMCJ75(C)A 75 83.3 95.8 1 121 12.4 5 BGR GGR SMCJ64(C) 64 71.1 90.1 1 114 13.2 5 BGL GGL SMCJ170(C) 160 189 239.5 1 304 4.9 5 BHQ GHQ SMCJ150(C) 150 167 211.5 1 268 5.6 5 BHL GHL SMCJ120(C) 120 169.0 1 214 7.0 5 BHF GHF 133SMCJ100(C) 100 111 141.0 1 179 8.4 5 BGY GGY SMCJ85(C) 85 94.4 119.2 1 151 9.9 5 BGU GGU SMCJ75(C) 75 83.3 105.7 1 134 11.2 5 BGQ GGQ。