SU729096A1 - Press hydraulic drive - Google Patents

Description

(54) HYDRAULIC DRIVE PRESS

one

The invention relates to the field of metal forming, in particular to hydraulic presses.

A hydraulic press drive is known, which comprises two pumps, connected by means of a pressure and drain pipes via switchgears in the form of safety relief valves, with a hydraulic piston syndrome, with a piston and piston cavity flj.

However, this drive has an insufficiently high performance without the accelerated course of the working member, h

The object of the present invention is to increase press productivity.

This is achieved by the fact that the hydraulic drive of the press is equipped with connected in series controlled and non-return valves located on the pipeline section connecting the pressure line of one of the pumps with the hydraulic piston cylinder. When this piston valve cavity

control is connected to the pressure line of another pump.

The drawing shows a diagram of the hydraulic drive.

The drive consists of pumps 1 and 2 of working and reverse stroke. Pump 1 is connected to the over-piston cavity of the hydraulic cylinder 3 and to the input of the safety-discharge valve 4, Pump 2 is connected to the entrance of the safety-discharge valve 5 and through the retaining valve 6 to the piston-cylinder cavity of the hydraulic cylinder 3. In addition, the discharge line of the pump 2 is connected to the above-piston cavity of the hydraulic cylinder 3 A rotary cutout of 7 and a check valve of 8. The safety valve 5 is operated by a pressure slide valve 9,

The drive works as follows.

In the initial position both are included.

20 pump. The electromagnets a and b of the safety and unloading valves 4 and 5 are de-energized. The fluid from the pumps is discharged through open valves 4 and 5 to the tank.

The electromagnets a and b are turned on. The safety relief valves 4 and 5 are closed. The pressure in the lines of both cavities of the hydraulic cylinder 3 increases until they reach the values at which the control valve 7 opens. After that, the pressure in both cavities of the hydraulic cylinder is balanced. Due to the difference in the areas of the piston of the over-piston and sub-piston cavities of the hydraulic cylinder, the force on the piston on the side of the super-piston cavity is higher than on the side of the sub piston.

The piston moves down. Fluid from pump 2, mine retaining valve, together with the fluid displaced from the piston cavity through valves 8 and 7, enters the supra piston cavity of the hydraulic cylinder 3. Thus, liquid from the pumps 1 and 2 and from the piston cavity flows into the super piston cavity of the hydraulic cylinder 3. The accelerated stroke of the working body begins. When switching from rapid to working, the safety-unloading valve 5 opens, the valve opens when the electromagnet b is turned off from an external electrical signal or automatically when the tool stops in a part. The pressure of the fluid in the over-piston cavity of the hydraulic cylinder 3 will increase, and when it exceeds the setting pressure of the pressure slide valve 9, it will open and unload the valve 5. The valve 5 will open. The liquid from the piston cavity through the retaining b and open 5 valves together with the liquid coming from the pump 2, is discharged into the tank. The donation in the cylinder cavity of the hydraulic cylinder 3 will fall, and the check valve 8 will close. The piston cavity of the hydraulic cylinder enters the liquid only from the pump 1. The working stroke begins.

At the end of the working stroke, the electromagnet a and b are turned off and the safety relief valve 4 is opened. Fluid from pump 1 through valve 4

drained into the tank. Fluid pressure in the piston cavity drops. The operating member of the press is stopped. At the same time, the control valve 7 and the pressure valve 9 are closed. The electroarmtT b is turned off, so the valve 5 remains open.

An electromagnet b is turned on to reverse the travel. In this case, the valve 5 is closed. The fluid from the pump 2 through the retaining totap 6 enters the sub-piston cavity of the hydraulic fluid 3. From the working cavity the fluid drains together with the flow rate from the pump 1 through the open valve 4 to the tank. Reverse is performed. In the piston cavity of the hydraulic cylinder, there is no fluid pressure, therefore the controlled valve 7 remains closed and the lines of the pump and return stroke pumps are disconnected.

Claims (1)

At the end of the return stroke, the electromagnet 6 is turned on, the valve 5 opens and stops the working member of the press, the claims of the invention A hydraulic press drive containing two pumps connected by means of pressure and discharge pipelines through distribution devices in the form of safety and unloading valves to a hydraulic cylinder, to a super piston and sub piston cavity, a hydraulic cylinder, characterized in that, in order to increase productivity press, it is equipped with a connected sequential control and non-return valves, expanded on the pipeline section, connecting the pressure line of one of the pumps to the piston cylinder of the hydraulic cylinder, while the piston cavity of the control valve is connected to the pressure line of the other pump. Information sources, take into account in the examination 1. N. Dobrinsky. Hydraulic drive of the presses, M., Machiustroyoeie, 1975, p. 1S1, fig. 85 a. V