DE8236439U1 - Current limiting valve - Google Patents

Description

Beb 82/1 - "3 -

Current limiting valve

The invention relates to a hydraulic flow limiting valve. Such a flow limiting valve is used in particular in addition, in the case of consumers that are unilaterally loaded by external forces, a load-independent speed To ensure the action of external forces, while the system works against the external forces Flow limiting valve is flowed through essentially unaffected.

The invention solves the problem of making such a flow limiting valve so small that it can be used as a Eiiibaupatrone can be used in pipelines, and that the pipelines consequently in a control flow direction with essentially constant flow and in the countercurrent direction with essentially - through the valve - unthrottled Flow can be flowed through.

By the German patent 2 4 08 422 is a flow limiting valve known, in which the current-limiting function in the countercurrent direction is thereby overridden and activated unthrottled flow ensures that the Orifice is movable relative to the piston and only rests positively on the piston in the control flow direction, and forms a throttle point, while it becomes inoperative in the countercurrent direction due to its mobility and releases the flow unthrottled.

According to the present invention, however, the diaphragm is firmly connected to the piston. The aperture creates a 30th

Beb 82/1 - 4 -

Pressure difference both in control flow direction and in%

Countercurrent direction. This pressure difference is countercurrent used to open one or more check valves, which are in a bypass to the diaphragm.

Ί In the following an exemplary embodiment is described

It should be emphasized that the peculiarity of this execution i

example lies in the fact that the check valve §

is connected to the piston. However, there are also execution $

conceivable in which the check valves are stationary ν

are arranged in the cartridge and the bypass channels also | lie in the cartridge.

The flow-limiting valve shown in FIG. 1 can be installed in a pipe through which there is flow in the directions 7 and 12 will. The regulated flow direction, in which an essentially constant, load-independent flow is guaranteed is indicated by arrow 7. The flow in the countercurrent direction 12 is essentially dependent on the flow

limiting valve independent, which is explained below |

will. The flow-limiting valve provides a cartridge 2, which can be screwed into the tube 1 by means of a thread. 1 in the inner cylinder 3 of the cartridge 2, a piston 4 movable axially%. He is by a spring 9 against the control current | direction 7 supported. The piston is axially pierced. Its end face 5 forms control edges with the outlet openings 6 of the cartridge. On the inlet side, the piston has an orifice 8 in its central channel. In the direction of the control flow, a pressure difference arises at the orifice 8, which causes the piston to be pressed against the spring force 9 in the direction of the control flow. Since the pressure difference depends on the flow rate, an essentially constant flow is established in the control flow direction 7. In the example shown, the piston travel is determined by pin 10,

Beb 82/1 - * "$ · -

which is guided in a groove 11, limited.

In the countercurrent direction 12, the cartridge 2 and its inner cylinder 3 as well as the piston 4 are also axially traversed. There is a pressure difference at the diaphragm 8 in the opposite direction, so that the openings 6 completely be opened. Nevertheless, throttling losses occur at the orifice 8. To compensate for this, the piston points the radial outlet channels 18, which in front of the aperture 8 in Countercurrent direction 12 viewed - discharge radially outward from the central piston channel. The channels 18 are closed by a check valve 13. In the illustrated embodiment, the check valve is 13 designed as a self-contained ring 14, which is axially displaceable on the piston end and by a spring 15 is supported, which is against the countercurrent direction 12 works. The end face 16 of the ring is beveled. Its foremost tip forms a sealing seat with the collar 19 of the piston. As a result, the beveled one End face 16, which has an annular space with the outer jacket Forms connection to the piston interior, loaded with the pressure inside the piston. The opposite The end face 17 of the ring 14 is naturally loaded with the pressure of the pipe. Since in the countercurrent direction 12 inside of the piston, i.e. there is a higher pressure in front of the orifice 8 than in the tube behind the orifice 8, the ring 14 is opposed the only weak spring 15 moved so that the outlet channels 18 are opened. That way, the Compensated for throttle losses at the measuring orifice.

Beb 82/1 - 6 -

The exemplary embodiment of FIG. 2 shows ^ ea & pipe 1 with the screwed-in cartridge 2 and the controlled by spring force 9 on the one hand and by the differential pressure on the other side of piston 4, wherein the outlet openings 6 up and heading. In its upper area, the piston has radial openings which serve as an orifice. Furthermore, the body 20, which serves as a check valve and which is pressed onto the seat 22 by the spring 21, is seated in the piston 4. When there is flow through in the control flow direction 7, the check valve is closed. When the flow passes through the pipe 1 in the counterflow direction 12, the check valve is opened against the spring force 21. As a result, an additional oil flow can take place through the radial openings 18, bypassing the diaphragm openings 8.

With an adjusting screw 23 is designated, through which the spring force 9 can be adjusted.

Beb 82/1 - 7 -

REFERENCE CHARACTERISTICS

1 tube

2 cartridge

3 inner cylinders

4 pistons

5 face

6 outlet openings

7 Direction of control flow

8 aperture, aperture, aperture

9 spring

10 pen

11 groove

12 Countercurrent direction

13 check valve

14 ring

15 spring

16 front side

17 front side

18 radial outlet channel

19 seat, federal government

20 bodies

21 spring

22 seat

23 Adjustment screw

• *

• ♦ ι

Claims (3)

Annex to the letter dated December 13, 1983 file number G 82 36 439.7 Our reference: Beb 82/1 A claim (new version) 1. Current limiting valve for a controlled flow in the control flow direction (7) and an unaffected flow in the countercurrent direction (12), 1.1 with a cartridge (2) which can be inserted into a tube (1) and which has openings (6) on the outlet side in the direction of the flow that communicate with the tube , 1.2 with a piston (4), the 1.2.1 is guided in the cartridge and flowed through axially, 1.2.2 has a diaphragm (8) in its interior through which the air flows, 1.2.3 is supported against the control flow direction (7) by a spring (9), 1.2.4 with the openings (6) of the cartridge (2) - in the control flow direction - forms a control edge on the outlet side, 1.2.5 has radial outlet channels, which are arranged in front of the orifice of the piston, marked by 1.3 a check valve (13), 1.3.1 which is axially displaceable as sitting on the outside of the piston Ring (14) is formed, 1.3.2 which by a countercurrent flow direction (12) acting spring (15) is pressed against a seat (19) and in this position the radial outlet channels of the piston closes. Beb 82/1 - 2 - 2. Flow limiting valve according to claim 1, characterized in that the ring (14) serving as a check valve is beveled in the region of the radial outlet channels (8) in such a way that that a circumferential annular channel is created on the outer circumference of the piston. 3. Current limiting valve according to features 1.1 to 1.2.4. characterized in that the piston has radial openings serving as a diaphragm (8), and that - in the control flow direction (7) there is a check valve in front of the radial orifice openings (8), which additional channels (18) opens when the flow is in the countercurrent direction (12).