4WRA6EA20-1X/24NK4/M
2X/G24N9K31/A1V
R9009134434WRA6W15-2X/G24N9K4/V
R9009134454WRAE6W1-30-2X/G24N9K31/A1V
R9009134464WRAEB6EA30-2X/G24N9K31/A1V
R9009136464WRAE10W30-2X/G24N9K31/A1V
R9009166014WRAE10EA60-2X/G24N9K31/A1V
R9009171934WRA10EA60-2X/G24N9K4/V
R9009177024WRA6W20-1X/24N9K4/M
R9009200554WRAE10W60-2X/G24N9K31/F1V
R9009205574WRA6E15-2X/G24N9K4/V
R9009205884WRAE10E30-2X/G24N9K31/A1V
R9009212454WRA6E30-2X/G24N9K4/V-589
R9009217394WRA10E30-2X/G24N9K4/V
R9009224414WRA10W30-2X/G24N9K4/V
R9009234724WRA6W07-2X/G24N9K4/V
R9009243774WRA6EB30-2X/G24N9K4/V
R9009250064WRAE6E07-2X/G24N9K31/A1V
R9009254564WRAE6E07-2X/G24N9K31/F1V
R9009255534WRA6EA07-2X/G24N9K4/V
R9009263644WRA10E40-1X/24NK4/M
R9009263654WRA10E60-2X/G24N9K4/V-589
R9009264734WRAE10EB60-2X/G24N9K31/A1V
R9009269754WRA6W30-2X/G24N9K4/V-589
R9009269854WRA10EA30-2X/G24N9K4/V
R9009284124WRA6W07-2X/G24K4/V
R9009293184WRAE10E60-2X/G24N9K31/F1V
R9009314854WRAE6E30-2X/G24N9K31/F1V
R9009317214WRA10W60-2X/G24K4/V-589
R9009320034WRAE6W07-2X/G24N9K31/A1V
R9009320554WRA6E1-07-2X/G24N9K4/V
R9009337924WRA6EB15-2X/G24N9K4/V
R9009343764WRA6E1-30-2X/G24N9K4/V
R9009346064WRA10EB60-2X/G24N9K4/V
R9009355354WRA6WA30-2X/G24K4/V
R9009356234WRA10WA60-2X/G24N9K4/V
R9009356294WRA10W1-30-2X/G24N9K4/V-589
R9009356304WRA6W15-2X/G24N9K4/V-589
R9009357394WRA10W1-60-2X/G24N9K4/V-589
R9009360064WRAE10W1-60-2X/G24N9K31/A1V
这些阀组合了先导辅控式平衡阀和经C3端口进行制动的梭阀的功能;它们能用在两侧等截面、并带有超限负载和弹簧加载保持制动功能(典型的设备,是由液压马达驱动的绞盘)的执行器上。
在绞盘回路中,当负载下降时,由超限负载所引起的压力保持不变,可将先导比R选得尽可能高,以便加快速度并节省能量。但必须考虑到的是,打开平衡阀所需的“先导压力”,必须始终“高于”制动解锁压力(一般为15~20bar)。实际上,当负载开始下降时,建立的先导管路压力必须达到制动卸荷的压力设定值,才能打开平衡阀,并使马达开始转动。对于液压马达而言,打开平衡阀所需的先导压力值可由以下公式计算得到:
Ppil = ( Pt-Pload ) / ( R+1 )
低先导压力(Ppil)为: (Ppilmin)= ( Pt – Ploadmax ) / ( R+1 )
这里:
Pt = 压力设定值(溢流阀设定)
Pload = 负载所引起的压力
R = 先导比
举例:
Ploadmax =170bar ( f负载所引起压力的大预期值)
Pt = 325bar (> 1.3*170 bar )
R = 8:1 ( 先导比 )
制动卸荷压力 > = 17 bar
(Ppilmin) = (350-170) / (8+1) bar = 20bar > 17bar
由于低先导压力大于17bar,因此所选的平衡阀,相关参数为R=8:1 且Pt=350bar,符合正确的下降顺序要求。
如果不符合要求,就应当选择其它的先导比或压力值。
4WRA6EA20-1X/24NK4/M
13349832663