SU1147858A1 - Power unit feed hydraulic drive - Google Patents

Abstract

POWER SUPPLY OF POWER KNOTS, containing a power source, switchgear, hydraulic cylinder, the rodless and rod cavity of which are communicated through the switchgear with the discharge line and with the drain line, two flow controllers, one of which is installed in the communication line of the junction cavity and drain line non-return valve, characterized in that, in order to simplify the design and increase reliability, the rodless cavity of the hydraulic cylinder communicates with the rod end through the second flow regulator and check valve The switchgear is made in the form of two two-way valves, each of which is connected between one of the cavities of the hydraulic cylinder and the injection and discharge lines. / p1 (L / / A NU CX) 01 and CX) w

Description

The invention relates to machine tool industry, in particular to hydraulic drives for supplying power units of modular machines and automatic lines.

Known hydraulic actuator comprising a power supply can be used _{is 5} coupled to the piston cavity through the actuator cylinder mounted parallel to the track and a choke valve forced labor and delivery, shut-off valve inlet and outlet, in which case p spolo- ¹⁰ with end caps wives valve control chambers, and a check valve, the output of the shut-off valve being in communication with the piston cavity of the cylinder by a hydraulic line with a forced feed throttle ₁₅ and a check valve [1] installed in series with it.

A disadvantage of the known hydraulic actuator is the design complexity and unreliability of operation due to the presence of a special 20 nig ° shut-off valve that cuts off the forced feed throttle.

Known hydraulic power supply units, comprising a power supply distribution apparatus predelitelnoe _{May 2,} cylinder, rodless cavity which communicates with the dispenser via discharge line and a discharge line, the two flow regulators, one of which is mounted in the link line with the stem cavity spruce - 30 VA, and non-return valve [2].

The disadvantage of this hydraulic actuator is also the complexity of the design and the unreliability of work due to the presence of a large number of control and regulatory equipment in it, as a result of which ³⁵ its reliability is reduced.

The purpose of the invention is to simplify the design and increase reliability.

This goal is achieved by the fact that, before the hydraulic drive for supplying the power units, containing a power source, a switchgear, a hydraulic cylinder, the rodless and rod cavities of which are communicated through a switchgear with a discharge line and a drain line, two ⁴⁵ flow regulators, one of which is installed in the line communication with the rod end of the drain line and the check valve cavity rodless cylinder communicates with the stem cavity through the second flow regulator ₅₀ torr and a check valve, and the device you raspredelitelnre It is completed in the form of two two-position hydraulic distributors, each of which is connected between one of the · cavities of the hydraulic cylinder and the discharge and discharge lines.

The drawing shows a schematic diagram of a hydraulic actuator.

The hydraulic actuator contains a hydraulic cylinder 1 with rodless and rod cavities 2 and 3, connected through valves and 5 to a power source 6, a flow regulator 7 is installed behind the valve 4. Rodless cavity 2 is in communication with rod cavity 3 through a check valve 8 and a flow regulator 9. Limit switches 10 and 11 control the operation of the electromagnets 12 and 13 of the control valves 4 and 5. The cavities 2 and 3 of the hydraulic cylinder 1 formed by the piston 14 are in communication with the discharge line 15 and the drain line 16.

The hydraulic actuator operates as follows.

When the electromagnet 12 of the control valve 4 is turned on, the piston 14 in the hydraulic cylinder 1, according to the differential circuit, makes a fast idle forward. 3 mm before the start of processing, the end switch 10 is activated, giving the command to turn on the electromagnet 13 in the control valve 5, as a result of which the rod cavity 3 of the hydraulic cylinder '1 through the flow regulator 7 is connected' to the drain line 16, and * the piston 14 makes its forward movement with forced feed, the value of which is determined by the adjustment of the flow section of the flow regulator 7, while the check valve 8 is in the closed position, since the oil pressure in the rod cavity 3 is greater than in the rod cavity 2 by rational difference of their effective areas. After the tool meets the workpiece (not shown in the drawing), the pressure in the rod cavity 3 drops and becomes less than the pressure in the cavity 2, as a result of which a certain amount of oil from the power source 6, limited by the flow regulator 9, begins to flow into the rod through an open backflow valve 8 the cavity 3 of the hydraulic cylinder 1. The speed of the piston 14 is thereby reduced to a value proportional to the difference in oil flow rate in the flow controllers 7 and 9. Further movement of the piston 14 at the working flow continues until it works fi nite switch 11 gives a command to turn off the electromagnets 12 and 13 in the control valve 4 and 5, whereby the rod side 3 is connected to the power source 6 and the rodless cavity 2 - with the drain line 16.

Under the action of the pressure drop at the ends of the piston ‘14, the latter makes a quick move to its original position. With the repeated inclusion of the electromagnet 12, the hydraulic drive cycle is repeated.

VNIIIPI Order 1551/31 Circulation 648 Subscription

Branch of the PPP "Patent", Uzhhorod, st. Project, 4

Claims (1)

HYDRAULIC SYSTEM FOR SUPPLYING POWER UNITS, containing a power source, switchgear, hydraulic cylinder, rodless and rod sections of which are communicated through a switchgear with a discharge line and a drain line, two flow regulators, one of which is installed in the communication line between the rod cavity and the line drain, and a check valve, characterized in that, in order to simplify the design and increase reliability, the rodless cavity of the hydraulic cylinder is in communication with the rod cavity through the second flow regulator and check valve, q holds the dispenser as two two-position directional control valves, each connected between one of the jack cavities and discharge lines and drain.