原装意大利ATOS比例溢流阀特价
意大利ATOS比例溢流阀由直流比例电磁铁和先导型溢流阀组成。
其工作原理是:当输入一个电信号时,比例电磁铁1便产生一个相应的电磁力,它通过推杆2和弹簧3的作用,使锥阀4接触在阀座5上,因此打开螺旋输送机的液压力与电流成正比,形成一个比例先导压力阀。孔a为主阀阀芯6的阻尼孔,由先导式溢流阀工作原理,对溢流阀阀芯6上的受力分析可知,电液比例溢流阀进口压力的高低与输人信号电流的大小成正比,即进口油压受输入电磁铁的电流大小控制。若输入信号电流是连续地按比例地或按一定程序变化,则比例溢流阀所调节的液压系统压力,也连续地按比例地或按一定程序地进行变化。从而将手调溢流阀,改为电信号控制。
多级压力控制回路。用电液比例阀实现多级压力控制,当以不同电流J1、j2、J3、J4和J5输入时,溢流阀就可得到五种压力控制,它与普通溢流阀的多级压力控制相比,液压元件数量少,系统简单。若输入的是连续变化的信号则可实现连续的卷扬机压力控制。
ATOS先导型比例溢流阀。它的先导部分是直动式比例压力阀,可直接作为直动式比例溢流阀使用。若与普通压力阀组合,可组成先导型比例溢流阀、比例减压阀和比例顺序阀等元件。
ATOS电液比例溢流阀能作高精度、远距离的压力控制。由于它的响应较快、且压力变换连续,因此可减少压力变换的冲击。并能减少系统中元件数量,抗污染能力强,工作可靠,价格也较低。所以电液比例溢流阀目前应用较广泛。多用于轧板机、注射成型机和液压机的液压系统中。
ATOS比例溢流阀型号列举
RZGA-A-010/210/M 20
RZGA-A-010/32/M/7 20
RZGA-A-033/80/M/7 31
RZGO-A-010/100 20
RZGO-A-010/210 20
RZGO-A-033/100
RZGO-A-033/210
RZGO-A-033/315
RZGO-A-033/315 31
RZGO-AE-010/100 10
RZGO-AE-033/210 10
RZGO-TER-010/100
RZGO-TER-010/100/I 40
RZGO-TER-010/210 40
RZGO-TER-010/210/I 40
RZGO-TER-010/32 40
RZGO-TER-033/100
RZGO-TER-033/315 40
RZGO-TERS-PS-033/315
RZGO-TERS-PS-010/210
RZGO-TERS-PS-033/100
RZGO-TERS-PS-033/210
ATOS比例溢流阀AGMZO-TERS-PS-010/315;AGMZO-TERS-PS-010/315/Y;RZM0-TERS-PS-010/315;RZM0-TERS-PS-010/21050;
ATOS通径换向阀DKE-1711/2-24DC;DHI-0631/2-24DC;DKE-1631/2-24DC;DKE-1 71/1/2/A-24DC;DHI-0 71/1/2/A-24DC;DHI-0718-24DC;
ATOS6通径电磁球阀DLOH-3C-U 24DC;DLOK-3C-O 24DC;比例压力插装阀LIMZO-TERS-5/315;比例流量插装阀LIQZ0-TE-50ZL4/I;LIQZO-TE-40ZL4/Q
ATOS直动式减压阀
RZGA-A-010/210/M;RZGA-A-010/32/M/7;RZGA-A-033/80/M/7;RZGO-A-010/100;RZGO-A-010/210;RZGO-A-033/100;RZGO-A-033/210;RZGO-A-033/315;RZGO-AE-010/100;RZGO-AE-033/210;RZGO-TER-010/100;RZGO-TER-010/100/I;RZGO-TER-010/210;RZGO-TER-010/210/I;RZGO-TER-010/32;RZGO-TER-033/100;RZGO-TER-033/315;
ATOS先导式减压阀
AGRCZO-A-10/100/P;AGRCZO-A-10/210;AGRCZO-A-10/210/P;AGRCZO-A-10/315;AGRCZO-A-10/315;AGRCZO-A-20/210/R;AGRCZO-AE-10/210;AGRCZO-AE-10/50;AGRCZO-AE-20/210/P;AGRCZO-TER-10/315;AGRZO-A-10/100/P;AGRZO-A-10/210/P;AGRZO-A-10/210/R;AGRZO-A-10/315;AGRZO-A-20/210/18;
ATOS先导式减压阀
KZGO-A-031/210;KZGO-A-031/315;HZGO-A-031/100;HZGO-A-031/210;HZGO-A-031/315;HZGO-A-031/315/18;HZMO-A-030/210;DHI-0610/A-X 230/50/60AC,DHI-0610/A-X 24DC,DHI-0610-X 110/50/60AC,DHI-0610-X230/50/60AC,DHI-0610-X 24DC,DHI-0611/A-X 24DC,DHI-0611/FC-X 24DC, DHI-06119/A-X 24DC,DHI-0611-X 24DC,DHI-0612/A-X 24DC,DHI-0613/A-X 24DC,DHI-0613/WP-X 230AC,DHI-0613-X 230/50/60AC,DHI-0613-X 24DC,DHI-0614-X 24DC,DHI-0616/A-X 230/50/60AC,DHI-0618/A-X 24DC,DHI-0630/2/A-X 230/50/60AC,DHI-0632/2/A-X 230/50/60AC,DHI-0632/2/A-X 24DC,DHI-0632/2-X 230/50/60AC,DHI-0632/2-X 24DC,DHI-0639/C-X 24DC,DHI-0670-X 24DC,DHI-0671/A-X 24DC,DHI-0671/FC-X 24DC,DHI-0674-X 24DC,DHI-0701/2-X 110/50/60AC,DHI-0710/WP-X 24DC,DHI-0710-X 230/50/60AC,DHI-0710-X 24DC,DHI-0711-X 24DC,DHI-0711-X 110/50/60AC,DHI-0711-X 230/50/60AC,DHI-0713/1-X 230/50/60AC,DHI-0713/WP-X 12DC,DHI-0713/WP-X 230/50/60AC,DHI-0713/WP-X 24DC,DHI-07139-X 24DC,DHI-0713P
ATOS直动式溢流阀
RZMA-A-010/250/M;RZMA-A-030/180/M/7;RZMO-A-010/100;RZMO-A-010/210;RZMO-A-010/315;RZMO-A-010/315/18;RZMO-A-010/50;RZMO-A-010/50/18;RZMO-A-030/100;RZMO-A-030/210;RZMO-A-030/210/18;RZMO-A-030/315;RZMO-AE-010/315;RZMO-AE-030/100;RZMO-P1-010/100/18/MC;RZMO-P1-010/210;RZMO-P3-010/100/AM1NSA;RZMO-P3-010/100/I/AM1NSA;RZMO-P3-010/210/I;RZMO-P3-010/210/I;RZMO-TER-010/100;RZMO-TER-010/315;RZMO-TER-010/315/I;RZMO-TER-030/210;RZMO-TER-030/315/I
ATOS先导式溢流阀
AGMZA-A-10/250/M;AGMZA-A-10/250/PA-M;AGMZA-A-10/80/PA-GK;AGMZA-A-10/80/PA-GK/24;AGMZA-A-20/250/M;AGMZO-A-10/100;AGMZO-A-10/100/Y;AGMZO-A-10/210;AGMZO-A-10/210/18;AGMZO-A-10/210/E;AGMZO-A-10/210/Y;AGMZO-A-10/315;AGMZO-A-10/315/E;AGMZO-A-10/315/Y;AGMZO-A-20/210;AGMZO-A-20/315;AGMZO-A-20/315/Y;AGMZO-A-32/315;AGMZO-AE-10/210;AGMZO-AE-10/315 10;AGMZO-AE-20/315/Y;AGMZO-AE-32/315;AGMZO-TER-010/210/I;AGMZO-TER-10/100/I;AGMZO-TER-10/210;AGMZO-TER-10/315/Y;AGMZO-TER-20/210;AGMZO-TER-20/315/Y
AGMZO-TER-10/210/EI;AGMZO-TER-10/210/I;AGMZO-TER-10/315;AGMZO-TER-10/315/I;
