SU380478A1 - HYDRAULIC PRESS MANAGEMENT SYSTEM - Google Patents

Description

one

The invention relates to a hydraulic control system for metalworking equipment, in particular, is intended to control for the first presses.

A hydraulic press control system is known that contains working and return cylinders connected to a source of titanium through a fluid flow controller, a controllable main valve valve and a filling-drain valve, and with an additional source of supply valve through a servo valve of the main valve and stroke valve.

A disadvantage of the known hydraulic system is the possibility of a jet rupture in the additional pipeline when the mobile traverse is lowered in the idle mode. With a small hole in the throttle washer (fluid flow regulator), the movable traverse in the forced mode moves slowly.

In order to increase productivity and increase the reliability of the proposed system, the fluid flow regulator is designed as a two-position throttle consisting of a servo-cylinder and a differential valve, which connects the main valve distributor to the return cylinders, and the crankshaft of the servo-cylinder is connected to a sub-piston the main valve stem valve cavity of the main valve distributor, the differential valve cavity valve - with a valve valve cavity valve main valve distributor, and on the valve cavity - with return cylinders. The differential valve can be made floating.

FIG. 1 schematically depicts the proposed control hydraulic system; in fig. 2 -

controlled two-position choke, cut.

The hydraulic control system of the forging press / consists of the power system, shown; ia, the diagram in full lines and the auxiliary system, shown by dotted lines. For the power system, water per emulsion is used as the working fluid; 1, for the auxiliary, mineral oil. The power system through the valves 2 and 3 of the distributor 4 and the filling valve: the valve 5 feeds the worker 6 and the return 7 press cylinders /, the plungers of which are connected to the movable crosshead 8. The position of the valves 2, 3 and 5 is controlled by The control gear 9 connected to the IO shaft of the main distributor 4 through the hydraulic booster // and the system of traction arms and levers 12.

Auxiliary system from mausgano) KI

13 feeds through the switch 14 modes

and a valve for activating the stroke 15 of the hydraulic booster // and the servo cylinder 16.

The controlled two-position choke / 7, installed in the line running from the vowel distributor 4 to the return cylinders 7, consists of a housing 18, a floating differential valve 19, a seat 2 (7 valves and a servo cylinder 21. The piston cavities of the servo cylinder 16 and 21 are interconnected, which ensures simultaneous lift of valve 2 and differential valve 19. Differential valve 19 has an orifice 22 that permanently connects return cylinders 7 to the main valve 4. When the differential valve is raised 19, the flow area of the line increases as the liquid can simultaneously flow through the existing opening 22 and through the resulting gap between the valve 19 and the seat 20.

The hydraulic system provides for the work of the press in three modes: idle (under the action of the weight of moving parts), normal and forced. The mode change is accomplished by the three-position distributor orb associated with the mode selector knob.

In idle mode, the thorax cavities of the servo cylinder 16 and 21 of valve 2 and throttle 17 are permanently connected to the drain, and therefore valve 2 is controlled from shaft 10 of main distributor 4, and differential valve 19 is spring-pressed to saddle 20. When lowering the mobile yoke The 8 presses / working fluid displaced from the return cylinders 7 are throttled through the opening 22 in the differential valve 1.9. The diameter of the hole is chosen so that the lowering speed of the movable crosshead 8 does not even speed, at which a rupture is possible, in the filling pipe running from valve 5 to the working cylinder 6. When the movable crosshead 8 is lifted, the differential valve 19 under the pressure of fluid coming from the pump -Accumulator station, floats, compressing the spring, and opens the zoom passage. This provides an acceleration lift of the mobile crosspiece 8.

In the normal mode of operation of the press, the process of getting to the forging and lifting with the movement of the traverse 8 proceeds by analogy with the idle mode. At the end of the approaching stroke, when the mobile yoke 8 touches the forgings, a; valve 15 automatically activates, with the result that the flow of oil is directed to the cylinders 16 and 21, and valve 2 and valve 19 are raised. The high-pressure fluid from the HiacocHO-battery station enters the worker 5 and the return 7 cylinders / press. The mobile yoke 8, overcoming the resistance of the lifting cylinders 7, lowers and deforms the nokovku. In the cavity of the lifting cylinders 7, unacceptable peaks do not occur, since the differential; the digital valve 19 is raised and for the liquid. displaced from lift.libi.x cylinders 7, an enlarged passage is open.

In the forced operation mode of the press /, when it is necessary to ensure the possibility of fast forging, the gearbox cavities of the servo-cylinders 16 q 21 by the switch 14 are connected to the pressure line auxiliary

systems, whereby valve 2 and differential valve 19 are raised and remain on the up and down strokes permanently open. Throttle 17 provides easy access

high-pressure liquids entering the lifting cylinders 7 and displaced from them, thereby eliminating the possible occurrence of inaccessible pressure peaks in the cavities and pipelines of the lifting cylinders 7 and ensuring the possibility of fast forging in forced mode.

Due to the installation of a controlled two-pin drossel, the possibility of a jet break in the hydraulic system is eliminated,

press performance, increased lifespan of lifting cylinders, their seals and pipelines. Since the throttle operates automatically, control of the press after its installation is not complicated.

Subject and d on and e and

Claims (2)

1. A hydraulic press control system containing work and return cylinders connected to the power source by a pipeline through fluid flow controllers installed on it, controlled by the main valve distributor and filling-drain valve, and with an additional power source through the servo cylinder of the main valve distributor and the stroke switch-on valve, which in order to increase productivity and to increase the reliability of operation, the fluid flow regulator is made in the form of ycTaHOii in the pipeline connecting the main valve distributor with return cylinders, two-position throttles, consisting of a servo cylinder and a differential valve, with the servoslipdra subarmum cavity connected to the serping cylinder servo cylinder subchamber of the main valve distributor the cavity of the differential valve is with the subvalvular valve cavity of the main valve distributor, and the valve over the valve is with return cylinders. 2. The system according to claim 1, characterized in that, in order to provide accelerated lifting of the cross bar in idle and normal press operation, the differential valve is made floating 1, it. 7 75 one- Fig 7 eight 21 Fig 2