R900940633 PVV1-1X/018RA15UMB
PVQ54-1X/183-082RA15DDMC PVQ54-1X/139-082RA15UUMC
R901116694 PVV52-1X/139-068RA15DLMC
R901106500 PVV5-1X/193RA15LMC
R900618320 PVV54-1X/139-069RA15UUMC
R900617458 PVV2-1X/068RJ15UMB
R900616927 PVV4-1X/113RJ15UMC
它的作用原理和单作用叶片泵相似,不同之处只在于定子表面是由两段长半径圆弧、两段短半径圆弧和四段过渡曲线八个部分组成,且定子和转子是同心的。在图示转子顺时针方向旋转的情况下,密封工作腔的容积在左上角和右下角处逐渐增大,为吸油区,在左下角和右上角处逐渐减小,为压油区;吸油区和压油区之间有一段封油区把它们隔开。这种泵的转子每转一转,每个密封工作腔完成吸油和压油动作各两次,所以称为双作用叶片泵。泵的两个吸油区和两个压油区是径向对称的,作用在转子上的液压力径向平衡,所以又称为平衡式叶片泵。
双作用叶片泵的瞬时流量是脉动的,当叶片数为4的倍数时脉动率小。为此,双作用叶片泵的叶片数一般都取12或16。
R961002468 WELLE PVV/PVQ54-1X/J+LAGER
R961002460 WELLE PVV/PVQ51-1X/J+LAGER
R961002459 WELLE PVV/PVQ51-1X/B+LAGER
R961002443 WELLE PVV/PVQ 5-1X/B+LAGER
R961002441 WELLE PVV/PVQ 5-1X/A+LAGER
R961002440 WELLE PVV/PVQ 4-1X/J+LAGER
R901141365 PVV1-1X/027LA15LMB
R901138307 PVV42-1X/082-045RA15DDMC
R901127013 PVV1-1X/027RJ15DVB
R901125797 PVV54-1X/162-082RB15UUMC
R901123353 PVV41-1X/082-018RA15RRVC
R901120947 PVV41-1X/082-046RA15UUMC
R901116697 PVV51-1X/139-027RA15DLMC
R901116694 PVV52-1X/139-068RA15DLMC
R901110909 PVV21-1X/040-018RB15UDMB
R901108431 PVV5-1X/154RJ15DVC
R901107242 PVV21-1X/055-018RA15UUVB
R901106500 PVV5-1X/193RA15LMC
R901104702 PVV4-1X/122RA15RMC
R901104691 PVV54-1X/154-113RJ15UUMC
R901100678 PVV21-1X/045-027RJ15UUMB
R901100223 ABUPG-PVV4- 98U-1X/132M-4-B1K/SE SIE
R901100169 PVV21-1X/068-027RA15URMB
R901099056 PVV51-1X/154-027RA15RRVC
R901098483 PVV54-1X/193-122RA15UUVC
R901094926 PVV54-1X/193-113RA15UUVC
R901094615 ABUPG-PVV1- 46U-1X/100L-4-AG0/SE
R901093768 PVV1-1X/046RA15DVB
R901092271 PVV41-1X/082-036RA15LLMC
R901091909 PVV2-1X/060RA15LMB
R901091196 PVV54-1X/193-082RA15DDMC
R901089304 SY2DFEE-2X/045-PVV/01089270+00940260
R901089061 PVV52-1X/154-055RA15UUMC
R901086511 PVV42-1X/082-068RA15UUMC
R901085408 PVV54-1X/183-122RB15DDMC
R901085403 PVV54-1X/139-098RB15DDMC
R901085400 PVV52-1X/162-055RB15DDMC
R901042651 PVV41-1X/082-040RA15UUMC
R901042169 PVV21-1X/045-040LA15UUMB
R901040968 PVV1-1X/040RA15UVB
R901040503 PVV1-1X/036RJ15DVB
R901040430 ABUPG-PVV1- 46U-1X/100L-4-A0K/S ABB
R901037970 PVV1-1X/018RA15RMB
R901036232 PVV51-1X/193-027RA15UUMC
R901034701 PVV54-1X/193-122RJ15DDMC
R901033123 ABUPG-PVV21- 45- 18U-1X/100L-4-A0/S
R901031937 PVV2-1X/055RA15DVB
R901031658 PVV21-1X/068-046RA15UUMB
R901029208 ABAPG-PVV2-068U/100L-4-A0/SE
R901028783 PVV2-1X/045LA15UMB
R901027161 ZUBEHOER AB41-20A1X/B35-100/0-PVV2/M
R901026966 PVV54-1X/154-122RB15UUMC
R901025366 ABUPG-PVV1- 18U-1X/ 80 -4-O1HAN10ESS/S
R901024714 PVV51-1X/162-046RA15DDMC
R901024704 PVV4-1X/082RJ15UMC
R901023158 PVV21-1X/045-040RA15UUMB
R901020330 PVV41-1X/122-027RA15DDMC
R901020329 PVV52-1X/193-045RB15LLMC
R901018208 PVV54-1X/139-122RJ15UUMC
R901014437 PVV4-1X/082LA15UMC
R901012238 PVV4-1X/122RA15DVC
R901012150 PVV41-1X/082-018RB15UUMC
R901009013 PVV21-1X/040-027RA15UUMB
R901006812 SY2DFEE-2X/100-PVV/01006744+00940446
R901006811 SY2DFEE-2X/071-PVV/01006745+00946959
R901004734 PVV21-1X/055-036RA15UUMB
R901002834 PVV41-1X/069-018RJ15UUMC
R901002823 PVV52-1X/162-068RA15UUMC
R901001457 SY2DFEE-2X/071-PVV/00782146+00940260
R900978703 PVV4-1X/082RA15DVC
R900977523 ABAPG-PVV /017D493A
R900977417 PVV5-1X/162RA15RMC
R900976172 PVV41-1X/098-018RA15UUMC
R900976001 PVV54-1X/162-082RA15DDMC
R900973408 PVV1-1X/027RA15UVB
R900972481 PVV42-1X/122-055RA15UUMC
R900970917 PVV5-1X/162RB15DVC
R900970135 PVV1-1X/036LA15UMB
R900969172 PVV21-1X/045-018RB15URMB
R900969090 PVV21-1X/040-018LA15URVB
R900968783 PVV21-1X/045-027RA15UUMB
A2F032/61R-PBB05
A2F045/61R-PZB05
A2F056/61R-PAB05
A2F056/61R-PBB05
A2F063/61R-PAB05
A2F063/61R-PBB05
A2F080/61R-PAB05
A2F080/61R-PBB05
A2F090/61R-PAB05
A2F090/61R-PBB05
A2F0107/61R-PAB05
A2F0107/61R-PBB05
A2F0125/61R-PAB05
A2F0125/61R-PBB05
A2F0160/61R-PAB05
由于表面淬火具有变形小、生产率高等优点,因此在生产中应用较为广泛。齿轮泵的齿轮淬火原理:将工件放入感应器(线圈)内,当感应器中通入一定频率的交变电流时,周围即产生交变磁场。交变磁场的电磁感应作用使工件内产生封闭的感应电流──涡流。
感应电流在工件截面上的分布很不均匀,工件表层电流密度很高,向内逐渐小,这种现象称为集肤效应。
工件表层高密度电流的电能转变为热能,使表层的温度升高,即实现表面加热。电流频率越高,工件表层与内部的电流密度差则越大,加热层越薄。在加热层温度**过钢的临界点温度后迅速冷却,即可实现表面淬火。
齿轮泵齿轮硬度高的问题
3
齿轮油泵的安装
齿轮油泵的安装一定要按照产品说明书上的要求来进行。本文小编简单介绍齿轮油泵在安装与使用过程中要注意的细节与方法,总结出来有如下七点:
1.齿轮油泵紧固端面螺栓时,齿轮泵用力要对称均匀,边紧边盘动转子。若遇到卡涩,齿轮泵应松掉螺栓重新紧;
2.电泵的驱动轴与电机轴的连接采用弹性联轴器或链式联轴器;
3.齿轮泵驱动轴不能承受任何径向垂直力,皮带、链条、齿轮等侧向驱动方式禁止使用; 4.底板强度要够,不要时间长了,泵的底板一软,造成电机与泵不对中,而损坏泵;
5.弄清楚泵的允许高转速.和现场工作高转速;
6.务必让流体进到入口,尽量不要干转和空转;
7.齿轮油泵的进口与出口不要接反了.造成泵不出料来。