PL102439B1 - CONSTANT PRESSURE REGULATOR, ESPECIALLY FOR VARIABLE DISCHARGE PUMPS - Google Patents

Description

The subject of the invention is a constant pressure regulator especially for variable displacement pumps.

The known constant pressure regulators consist of a valve overflow pipe connected upstream to the carrier the discharge valve of the controlled pump and on the discharge side from the chamber of the spring-supported actuator, the piston rod is connected to the control lever pump and oil drain with a hose installed in it.

Oil under pressure in the main controlled branch the pump passes through the overflow valve and supplies the chamber an actuator with a stub at the outflow. Value the pressure established in this chamber is compared with the pressure value given by the spring tension, and the difference in these pressures acts on the piston actuator and appropriate switching of the pump lever.

After turning off the pump, oil pressure in the actuator chamber the actuator drops to zero and the spring causes a trip tilting the pump disk.

Starting the pump in such conditions is unfavorable momentary pressure increases detrimental to the pump.

When using this type of pressure regulator for operation it is necessary to use several pumps in parallel several actuators, with due regard to difficulty in selecting the appropriate compatible characteristics the tick speezy of the pump will work at different pressure every it is not convenient for system operation.

The object of the invention is to build such a regulator constant pressure which does not occur when the pump is started will require the deflection of the pump dial and it will ensure that all pumps are running constantly under pressure parallel.

This goal was achieved by building a permanent regulator pressure especially for pumps with variable displacement, which has two chambers, one is located in one a two-stage piston and divides it into two spaces, with what the piston rod connects to the control lever pump, and in the second chamber, which has three cavities there is a three-stage piston supported by a spring with adjustable pre-tension and divides the middle output taking into two spaces. The three-stage piston has a channel axial with an integrated stub and two channels radial. The space through which the piston rod passes a two-stage piston is connected to the chamber by a channel which has a three-stage piston and second chamber space with two-stage piston field it is connected by a channel with a choice of a chamber with a three-piston gradual. The space of the central cavity with a three-stage piston it is connected to a channel via the third choice of this chamber with the flow of the medium, i.e. of cities, the second space in the middle is connected channel with the discharge pipe of the controlled pump.

By using two connected power circuits hydraulically, after switching off the pump, there is a decrease oil pressure throughout the system and the spring moves the piston two-stage to extreme position causing return the pump dial to the zero position. Placement in the crowd three-stage vortex and feed spring causes at operation of the regulator in a system of parallel operation of several pumps maintaining a constant pressure on all pumps. 102 439 102 439 3 The subject of the invention is illustrated in the example the embodiment in which FIG the design of the constant pressure regulator with the diagram below connecting the regulator to the pump-motor system, fig. 2, detail three-position piston seating in longitudinal section.

The constant pressure regulator has a chamber 1 in which it is placed the two-stage piston 2 and the chamber 3 are connected in it with a three-stage piston 4. The piston 2 divides chamber 1 into space 5 and space 6 through which it passes piston rod 7 with spring 8 connected to the control lever 9 Pump 10. Chamber 3 has openings 11, 12 and 13 and places it includes a three-stage piston 4 with a diameter and 14 divisions picking 12 into two spaces 15 and 16. Space 6 chamber 1 is connected by conduit 17 to chamber 3, and Shaft 5 of the chamber 1 through channel 18 with a recess 11 in the chamber 3. The cavity 15 of the cavity 12 is connected via the switch taking 13 on channel 19 with a runoff of 20, and space on field 16 it is connected to the channel 21 with the controlled discharge line 22 pump 10. 4-stage piston placed in chamber 3 it has an axial channel 23 with a stub 24 and two radial channels 25 and 2fc, being radial channel 25 forms edge 28 with diameter 27 and is overlapping so that it connects through the longitudinal channel 23 the chamber 3 with the recess 11 and a radial channel 26 connects chamber 3 with the space It has 16 openings 12. The 4-stage piston is on the side spaces 15 tapered extrusion 29 with radial passing 30 forming with diameter 27 edge 31. Piston 4 three-stage from the side of chamber 3 on the surface 32 The end face has a tapered seat 33 embedded therein a spherical pin 34 supported by a spring 35 which rests by the area of the frontal area of the 3 chamber. 4 transfer the medium from channel 23 to chamber 3 at the end of the piston 4 there are radial channels 37.

Claims (2)

1. Claims 5 1. A constant pressure regulator, in particular for pumps with variable displacement, characterized in that it has a chamber (1) in which a two-stage piston (2) is located, dividing it into spaces (5) and (6) , the piston rod (7) of which is connected to the pump control lever (9) (10) and the chamber (3) with selections (11), (12) and (13), in which the piston (4) is located, a three-stage spring supported (35) with adjustable bias dividing the cavity (12) into two aisles (15) and (16), which has an axial channel (23) with a knot (24) mounted therein and channels (25) and (26). ) radial, where the space (6) is connected by a channel (17) with the chamber (3), the space (5) is connected by a channel (18) with an opening (11) and the space (15) with a channel (19) ) with the drain (20), while the shaft (16) is connected by a channel (21) with the discharge line (22) of the controlled pump (10). 2. Constant pressure regulator according to claim The three-stage piston (4) as claimed in claim 1, characterized in that its three-stage piston (4) has a conical recess (29) with a radial transition (30) to the diameter (27), the distance from the edge (31) to the edge (28) of the channel (25) of the radial shaft is equal to or smaller than the width of the recess (11) and on the face (32) of the three-stage piston (4) there is a conical seat (33) for a spherical pin (34), springs (35) and radial channels (37) between the taper ( 24) and the spherical plug (34) discharging the medium from the axial channel (23) into the chamber (3). 15 20 25 102 439 8 1?. 5 16 3 35 24 23 4 19 12 15 16 28 13 ^ / - / f 1 - ^ - UJ11 / ZL! 22 [u i] t 10 T (V LU Fia. 1 3 34 32 33 37 24 V. 2S 25 4 23 fig. *