SU1689671A1 - Hydraulic drive - Google Patents

Abstract

The invention relates to mechanical engineering and allows an increase in the production of a hydraulic drive operating in high pressure mode by automating the operation of the multiplier. The hydraulic line 2 of the injection pump of the electrically driven pump 1 is communicated via a sequentially installed two-position four-line distributor 3 with electric control and a check valve 4 to the high-pressure pipe 5. The tank 6 is in communication with the second inlet port of the distributor 3. The high pressure cavity 8 of the multiplier 7 is connected to the outlet of the valve 4, the low pressure cavity 9 is connected to the second output channel of the distributor 3, and the rod cavity 10 is connected to the valve inlet 4. Highway 5 is equipped with pressure control devices, electrically connected with the electromagnet of the control valve 3. 1 sludge.

Description

The invention relates to mechanical engineering, in particular to pump engineering, and can be used in hydraulic drives of auxiliary mechanisms of hydraulic devices, pullers, jacks, wrenches, table presses and other hydraulic devices used in automotive repair production and repair of agricultural machinery.

The purpose of the invention is to increase the performance of the drive operating in high pressure mode by automating the operation of the multiplier.

The drawing shows a structural diagram of a hydraulic drive.

The hydraulic drive contains an electric drive pump 1, the discharge hydraulic line 2 of which is communicated through sequentially installed two-position four-line distributor 3 with electric control and a check valve 4 with a high-pressure line 5, a tank 6 in communication with the inlet channel of the distributor 3, a multiplier 7 with cavities 8 and 9, respectively, high pressure and low pressure and rod cavity 10. High-pressure line 5 is equipped with a pressure switch 11, 12, 13 and a manometer 14. The hydraulic actuator is also equipped with safety and valves 15 and 16, the distributor 7> 18 and the adjustable throttle.

The hydraulic actuator operates as follows.

When the motor is turned on, rotation is transmitted to pump 1 and the oil flow created by it through the safety valve 16, the distributor 17 is discharged into the tank 6. When the distributor 17 is turned on, the oil flow through the distributor 3, check valve 4, high-pressure cavity 8 of the multiplier 7 is pumped into the high-pressure line and through the collector it is supplied to consumers (not shown in the diagram). At the same time, in the high-pressure cavity 8 of the multiplier 7, by the pressure of this flow, the piston rod and piston advance to the initial position for operation (lower in the drawing). When the pressure in the pressure line increases to a predetermined lower value (for example, 100 kgf / cm ² ), the pressure switch 11 is activated, from the electric signal of which the electromagnetic distributor 3 is activated. In the distributor 3, the spool moves and the oil flow from the pump 1 is sent to the low pressure cavity 9 , the multiplier 7, from the cavity 8 of the high pressure, the oil will be displaced into the high pressure line. The pressure of this flow will be higher than the pressure of the oil flow of the NASB many times as much as the cross-sectional area of the piston exceeds the cross-sectional area of the rod of the multiplier 7.

The flow of high pressure oil cannot go to drain, as this is prevented by a non-return valve 4. From the rod cavity 10 of the multiplier 7, the oil is drained through the distributor, 3 and the throttle 18 into the tank 6.

When the pressure of the high-pressure oil flow reaches a predetermined upper value (for example, 500 kgf / cm ² ), the second pressure switch 12 is activated, from the electric signal of which the electromagnetic valve 3 is activated. The valve of the hydraulic valve under the action of the spring returns to its original position, and the oil flow from the pump 1 is directed through the cavity 8 of the multiplier 7 into the high-pressure line 5. Under the influence of the pressure of this oil flow, the rod with the piston of the multiplier 7 returns to its original, lower position in the drawing.

In this case, the cavity 8 of the multiplier 7 is filled with oil, and from the cavity 9 the oil through the distributor 3, the throttle 1 is discharged into the tank. As soon as the piston with the stem of the multiplier is in its original position, the pressure in the line 5 rises and, having reached the lower, predetermined limit, turns on the pressure switch 11. The electrical signal from the relay is transmitted to the electromagnet of the hydraulic distributor 3. The valve spool moves, and the oil flow from the pump 1 is sent to the piston cavity 9 of the multiplier 7. The piston with the rod starts moving, in which the next portion of high-pressure oil will be pumped into line 5 and then to consumers . So, automatically, in portions, the oil will be pumped into line 5, providing a pulsating flow, until then, until the specified work is completed by the consumer.

The pressure value can be controlled by a manometer 14.

In the event of an emergency, pressure increase above the upper limit, a pressure switch 13 is provided in the hydraulic actuator, an electrical signal from which is supplied to the electromagnet of the distributor 17, the distributor 17 is activated and the oil flow from the pump 1 is discharged into the tank 6.

Claims (1)

Claim A hydraulic actuator containing an electric drive pump, the discharge hydraulic line of which is communicated through sequentially installed two-position four-line distributor with electric control and a check valve, a valve with a high-pressure line, a tank in communication with the second input channel of the two-position distributor, and a multiplier whose high-pressure cavity is communicated with the output of the non-return valve , characterized in that, in order to increase the performance of the drive operating in high pressure mode, by vtomatizatsii work multiplier, multiplier low pressure chamber communicates with the second outlet passage on-off distributor spindle cavity communicates with the multiplier input of the check valve, the high pressure line is provided with a pressure control apparatus, is electrically connected with the solenoid on-off control of the distributor.