以上各种型式的变量机构常常组合使用。例如,图9.1(a)所示,手动变量机构采用杠杆或采用手轮转动丝杠,带动斜盘改变倾斜角,如果用可逆电机旋转丝杠可实现电动变量。图9.1(b)所示,在伺服阀C端用手轮或杠杆输入一位移量,称手动伺服变量式;若以电机或液压装置输入位移量时,则称电动或液动伺服变量式;如果输入的控制信号量使得泵输出的功率为常值,则构成了压力补偿变量式。再如图9.1(c)中,用带有电磁阀的外液压源控制,可成为远程液控变量式;如果用伺服阀控制变量缸,并使泵出口压力为恒值,可成为恒压变量型式。
这类泵的设计主要是为了满足行走机械静液压传动的需求,符合行走机械要求所使用的泵液压装置均体积小、重量轻、转速高,而静液压传动系统又实现了系统标准化,因此在发展闭式油路用集成化的油泵静液传动装置就成为必然的途经趋势之一,这种结构装置将闭式系统的所有元件(甚至包括过滤器)都集成在泵和马达上,因而用户在使用时只要装上油箱联接两根管道,就可以使系统运转[14-15],降低了难度。
德国力士乐柱塞泵型号:
A4VG125EP2D1/32R-NAF02K691EP-4
A4VS0250HD1GB/30R-PZB13K35-S
A4VG180EP2DT1/32R-NTD02F021S
A10VSO45DFR/31R-PPA12K68
A4VG125DA2D2/32R-NAF02F021DT
A4VS0125LR2N/22L-PZB13A00
A4VG125EP2/32+A10V028DR/31
A10VSO140DR/31R-PPB12N00
A4VSG71HD1D/10R-PPB10H029N
A4VSO180DR/30R-PPB12NOOS1057
A4VS0125DFR/30R-PPB13N00
A4VG56EZ2DM1/32L-NSC02F013SH-K
A4VS040DR-PPB13N00
A4VG125EP2/32+A10V028DR/31
A4VSG40EM4095/10R-PPB10H039F
A4VSG250HD1P/30R-PPB10G300N
A4VSG250HD1D/30R-PPB10H029N
AA10VS045DFR/31R-PKC62N00
A4VSO180DR/30R-PPB13N00
A10VSO45DFR/31R-PPA12K68
A4VG180EP2MT1/32RNZD02F0215
A4VSG71DS1E/10W-PZB10T001N
A4VG125HD1D2/32R-NTF02F691P
AA10VSO100DFR/31L-PKC62K03
A4VS0250LR3G/30R-PZB13K35-S0
A4VSO125DR/3DR-PPB13NOO
A10VS018DR/31R-PPA12NOO
A10VSO140DFLR/31R-PPB12N00
A10VSO45DFR/31R-PPA12K68
A4VS07IDR/3XR轴向柱塞泵
A4VSG250HS/30L-PPB10N000N
A4VSO180DR/3XR-PPB13N00
A4VG180EP2MT1/32RNZD02F0215
A4VSG250EO2/30R-PPB10H020N
A4VSG250HD1D/30R-PPB10H029N
A4VG250HD1D1/32R-NSD10F001D
A4VS0250DR/30RPPB13N00
A4FM71/10W-PPB01
A4VG250HD3D1/32R-NSD10F001D
A10VSO140DR/31R-PPB12N00
A4VG125DA2D2/32R-NAF02F021DT
A4VSG250HW/30R-PPB10N000N
A4VG250HD3D1/32R-NSD10F001D
AE-A10VSO140D/31R-PPB12N00
A4VG125EP2/32+A10V028DR/31
A4VSO125DR/3DR-PPB13NOO
A4VS0250LR3G/30R-PZB13K35-S0
E-A10VSO100DR/31R-PPA12N00
A4VS0125DR/22R-VPB13N00
A4FO500/30R-PZH25N00
A4VG125HD1D2/32R-NSF02F02F021P
A4VSO180DR/30R-PPB12NOOS1057
A4VS071DR/22R-PPB13NOO
A10VSO140DR/31R-PPB12N00
A4VG125DA2D2/32R-NAF02F021DT
A4VS040DR-PPB13N00
A4VSG250HD1D/30R-PPB10H029N
A4VG90HWDL1/32R-NAF02F071L-S+A
A4VSG40EM2009/10R-PZB10N000N
A4VG250HD1D1/32R-NSD10F001D
A4VS0500HSK/30R-PPH13N0010SETE-
A4VSG250HD1A/30R-PPB10K269N
A4VS040DR-PPB13N00
A4VSG71EO1/10R-PPB10H029F
A4VSO40DR10RPPB13100N
A4VG125HD1D2/32R-NSF02F02F021P
为使配油盘的接触应力尽可能减小和使缸体与配油盘之间保持液体摩擦,配油盘应有足够的支承面积。为此设置了辅助支承面,如下图中D5,D6。辅助支承面上开有宽度为B的通油槽,起卸荷作用。配油盘的总支承面积F为,在工作过的配油盘表面常看到在高压区一侧有明显的偏磨现象,偏磨会使缸体与配油盘间摩擦损失增大,泄流增加,油温升高,油液粘性和润滑性下降,而影响到泵的寿命。缸体是一个复杂的受力体,造成偏磨的原因,除了可能有受力不平衡,使缸体发生倾倒。下面就缸体受到的主要力矩进行稳定性分析。
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以上型号不全,可来电咨询~~● 新闻:A4VSG71EO1/10R-PPB10N00厂商:http://www.jdzj.com/chanpin/ku1_2778980.html
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公司地址:武汉市经济技术开发区工业园创业路
