SU1603081A1 - Hydraulic drive - Google Patents

Abstract

The invention relates to hydraulic drives with a differential cylinder and can be used, in particular, in the machine tool industry. The purpose of the invention is to increase the efficiency and idling speed of the piston. When switching the distributor 6 to the right (according to the drawing) position of the working fluid from the pump 9 through the effector 10 enters the piston cavity 5 of the hydraulic cylinder 1. The piston 2 moves to the left, which is displaced from the rod cavity 4, the working fluid that is idle under pressure greater than the pressure in the pressure line 8 enters the additional ejector 12. In this case, an additional amount of working fluid from the tank 13 is sucked in. The total fluid flow passes through the check valve 11 and is sucked in by the ejector 10. The total fluid flow STI enters the piston cavity 5 of the hydraulic cylinder, increasing the idling speed of its piston and increasing its efficiency. When a load is added to the load rod, the pressure in the pressure line 8 increases, the check valve 11 closes and the fluid is pumped into the tank through the suction chamber of the additional ejector 12. 1 sludge.

Description

The invention relates to hydraulic drives with a differential cylinder and can be used, in particular, in the machine tool industry.

The purpose of the invention is to increase the efficiency and idling speed of the piston.

The drawing shows a diagram of a hydraulic drive.

The hydraulic drive contains a hydraulic cylinder 1, the location of which in space can be any, piston 2 with one-way rod 3. Rod cavity 4 and piston cavity 5 of hydraulic cylinder 1 are communicated through distributor 6 with drain line 7 and pressure line 8 of pump 9. Ejector 10 is installed in the pressure line 8. The hydraulic actuator also contains a check valve 11, an additional ejector 12. tank 13. At the same time, the inlet of the pump 9 is connected to the tank 13, and the outlet through the pressure line 8 is connected to the inlet of the ejector 10, the output of which is directed to the side l 6. The suction chamber of the ejector 10 is connected to the outlet of the check valve 11. The inlet is connected to the outlet of the additional ejector 12. The additional ejector 12 is installed in the drain line 7 and connected to the inlet to the distributor 6, and the suction chamber to the tank 13. Moreover, the pump 9, The ejector 10 and the additional ejector 12 are located below the level 14 of the working fluid 15 in the tank 13.

Hydraulic drive works as follows.

When switching the distributor 6 to the right (according to the drawing) position of the working fluid 15 coming from the tank 13, the pump 9 supplies the pressure pump through the pressure line 8 and the ejector 10 installed in it and through the valve 6 to the piston cavity 5 of the hydraulic cylinder 1. The piston 2 moves the side of the rod 3, the working fluid that is expelled from the rod cavity 4, which, when the piston is idling under a pressure greater than the pressure in the pressure line 8, passes through the distributor 6 and the drain line 7 to the additional ejector 12, passes it at a high speed This also sucks in an additional amount of working fluid from the tank 13 and already in the total amount the check valve 11 passes and enters the suction chamber of the ejector 10 from the pump 9 and via the pressure line 8 through the distributor 6 enters the total quantity into the piston cavity 5, Sha Efficiency and idling speed of the piston of the hydraulic cylinder and, consequently, the hydraulic drive.

When the load appears, the speed of the piston 2 decreases, the flow rate of the working fluid by the pump 9 decreases, its pressure increases, the check valve 11 closes, the movement of the working fluid to the ejector 10 through its suction chamber from the rod end 4 and the tank 13 closes. cavity 5 when loading comes working fluid

0 only from pump 9 under high (working) pressure. In this case, the working fluid displaced from the rod cavity 4 is drained through the suction chamber of the additional ejector 12 into the tank 13.

R

When switching the distributor b to

The left (according to the drawing) position of the working fluid is pumped by pump 9 through the ejector 10 and the pressure line 8 into the rod cavity 4 0 of cylinder 1. The piston 2 with the rod 3 starts to move towards the piston cavity 5, displacing the working fluid from it 6, drain line 7. When idling, due to 25 differences in effective areas of piston 2, the pressure of working fluid in piston cavity 5 is less than at the outlet of pump 9, therefore, from the drain line 7, the working fluid is partially sucked through the check valve 11 30 by ejector 10 , but astichno is discharged through the suction chamber 12 an additional ejector into the tank 13. The speed of movement of the piston 2 at idling (toward the piston chamber 5) and 35 more. When the load appears, the speed of movement of the piston 2 decreases, the pressure at the outlet of the pump 9 increases to the working pressure, the check valve 11 closes and working 40 fluid is supplied only from the pump 9, and from the piston cavity 5 all the working fluid drains through the suction chamber the ejector 12 in the tank 13.

In the middle position of the distributor 6 45 the working fluid supplied by the pump 9 is freely drained into the tank 13, since the pressure head 8 and the drain line 7 are connected at the same time

inside the distributor 6. The average position of the distributor 6 may be different (for example, with the cavities 4 and 5 locked and with the working fluid drained by pump 9, through the overflow valve, which is not indicated in the drawing, into tank 13). The middle position may not be.

55 The location of the pump 9, ejector 10 and additional ejector 12 is below the level, 14 of the working fluid 15 in the tank 13 is necessary for their non-cavitation operation.

The use of the proposed invention increases the efficiency and idling speed of the hydraulic drive when the piston moves in the direction of the rod.

Claims (1)

The invention Hydraulic drive containing a hydraulic cylinder, the piston and rod cavity of which is communicated through the distributor with the pressure line of the pump and the drain line, an ejector installed in the pressure line of the pump and connected to its 0 the inlet to the outlet of the latter, a check valve connected to the suction chamber of the ejector, and a tank, characterized in that, in order to increase the efficiency and idling speed of the piston, it is equipped with an additional ejector, which is installed in the drain line and connected to the distributor, outlet - to the inlet of the check valve, and a suction chamber - to the tank.