SU754133A1 - Machine-toll power-unit feed hydraulic drive - Google Patents

Description

(54) HYDRAULIC DRIVES FOR SUBMISSIONS OF POWER UNIT OF METAL CUTTING MACHINE

one

The invention relates to the field of machine tool construction, in particular to hydraulic feed lines, and can be used in hydroficated machine tools.

A known hydraulic drive scheme for the feed of the power heads, comprising the working feed pumps, the hydraulic panel and the cylinder of the power head 1.

A disadvantage of the known drive is the complexity of the control equipment of the operating cycle: the cycle transitions are carried out only in a certain sequence incorporated in the design of the multi-position spool.

The closest solution of the known ones is the hydraulic drive of the power supply of the power unit of the metal-cutting machine, comprising a power cylinder with a pinhole and piston cavities, pumps of working feeds and rapid moves, communicated by hydraulic lines from the cylinder cavities, and a choke with a regulator installed in the hydroline telling cylinder cavity with pumps 2.

A disadvantage of the known drive is a large energy loss, since the pressure of the feed pump is selected from the maximum load condition during the cycle.

The aim of the invention is to reduce energy losses, i.e., reduce the heating of oil in a hydraulic system by unloading the high-speed pump during a working feed, regardless of the oil pressure in the 5 feed line of the feed pump caused by the load on the power unit.

This goal is achieved by the fact that the high-speed pump is equipped with a spring-loaded pressure valve with two control cavities, the control cavity from the spring side communicating with the regulator output, and the other with the regulator input and throttles.

The drawing shows a diagram of the hydraulic drive.

The hydraulic actuator contains a power cylinder 1 with a pinhole 2 and a piston 3 cavities, a pump of 4 working feeds and a pump of 5 fast strokes. In hydraulic line 6, which connects the piston cavity 3 of cylinder 1 with pumps, throttle 7 with regulator 8 and check valve 9 are installed in parallel. The pump 5 fast strokes is equipped with a spring-loaded pressure slide valve 10 with two control cavities - a cavity 11 on the spring side and a springless cavity 12. The control cavity 11 communicates with the output of the regulator 8 by the hydroline 13, and the cavity 12 communicates with the input of the regulator 8 and the throttle 7 with the hydroline 14.

Pumps 4 and 5 communicate with each other through a check valve 15 and with cylinder 1 through a reversing slide valve 16, at the outlet of which a check valve 17 and a backpressure valve 18 are installed.

At the output of the regulator 8, a spool 19 is installed, which is also directly connected to the piston cavity 3 of the cylinder.

The maximum system pressure is determined by the setting of the safety valve 20.

The hydraulic drive of the power units operates according to the following cycle: fast subworker feed-fast retract-stop in the initial position.

In the initial position shown in the drawing, the oil from pumps 4 and 5 through the reversing slide valve 16 is discharged into the tank. In this case, the piston cavity 3 of the cylinder 1 through the valve 19 and the reversing valve 16, and the rod cavity 2 through the reversing valve 16 and the backpressure valve 18 are connected to the tank. The backpressure valve 18 prevents cylinder 1 from moving forward in the event that the pressure in the piston cavity 3 of the cylinder, which is determined by supporting it in the drain lines, is sufficient to overcome the frictional forces.

The fast approach is carried out as follows.

When the reversing spool 16 is turned on in the “forward” position (left position according to the scheme) oil from the high-speed pumps 5 and the working feed 4 through the reversing spool 16, the spool 19 enters the piston cavity 3 of the cylinder 1. The oil from the rod end 2 of the latter through the reverse spool 16 and the check valve 17 enters the piston cavity 3 of the cylinder 1. The pressure in the control hydrolines 13, 14 is leveled and the pressure slide valve 10 is closed by its spring.

The transition to the work feed is carried out when the spool 19 is switched by any known means to the work feed position (the upper position in the diagram). In this case, the spool blocks the direct passage of oil into the piston cavity of the cylinder and part of the oil enters it through the throttle 7 with the regulator 8, and the rest is discharged through the spool 19 into the tank (not shown).

The pressure in the hydraulic line 14 opens the pressure valve 10, and the oil from the pump

fast strokes 5 are drained into the tank. The piston of the cylinder 1 is moved to the right in the drawing, the oil is forced out of the rod end through the reversing valve 16, the backpressure valve 18 and the pressure valve 10 into the tank.

To perform a quick retraction, the reversing spool is set to the fast retraction position (the right-hand position). Oil from pumps 4, 5 through reversing valve 16 enters the rod end of cylinder 1. The rod of the latter moves to the left, and oil from the piston cavity is drained into the tank, the passage successively is a check valve 9 and reversing valve 16. In this case, pressure in line 14 is absent, and pressure head

the valve with its spring closes the drain of oil from the pumps.

Claims (2)

1.Bron LS, Tartakovsky J.E. Hydraulic drive of modular machine tools and automatic lines. M., Mechanical Engineering, 1974. 2. Catalog of the company Hydraulik Ring (Germany) Hydraulik-Bauelemente und Hydraulik-Anlagen, 1968. 20 / U i7 ff