DE1006685B - Device for regulating the pressure within narrow limits in a hydraulic system and / or a memory - Google Patents

Description

GERMAN

It is already a pressure control device in a hydraulic system and a memory known by a continuously running Pump is fed with hydraulic fluid via a check valve, which is a discharge from the hydraulic System and the storage tank prevented when the pump is unloaded. This facility consists of a bypass valve, which has a valve member, the working surface of which with the delivery pressure from the pump, is in communication and has a control valve whose working surface is permanently subjected to the pressure within the hydraulic system and the accumulator, so that, if the pressure within the overall system exceeds a predetermined value, the valve member of the bypass valve moves to a position that bypasses the continuously running pump lets work.

The invention relates to such a device for regulating the pressure within narrow limits a hydraulic system and / or a memory, which by at least one continuously circulating Pump is fed with hydraulic fluid via a check valve. This prevents a loss of pressure the hydraulic system and / or the accumulator when the pump is relieved. The establishment shows a bypass valve with provided at the ends of its valve member spaces, which have a with a line provided with a throttle are connected to one another. The liquid can come from the space that is permanently open to the delivery side of the pump, with a controlled speed in the one located at the opposite end of the valve member Space flow to keep the valve member in hydraulic equilibrium. Furthermore, the facility a regulating or control valve with a valve member, which at one end is constantly under pressure is acted upon within the system and by this pressure when it reaches a predetermined value has risen, is moved to open one of the spaces at the ends of the valve member of the bypass valve to the outlet and thereby the to allow the pump delivery pressure prevailing at the opposite end, the valve member of the bypass valve to move to a position in which the total delivery rate of the pump to the outlet can flow. The valve member of the bypass valve is, moreover, as it is in devices for similar Purposes is already known, provided with a device which works automatically to the diversion of the pump output flow to the outlet until the valve member of the bypass valve moves to its fully open position Has.

Device for regulating the pressure

within narrow limits in one

hydraulic system and / or a

Storage

Applicant:

Electraulic Presses Limited, Rodley, Leeds (Great Britain)

Representative: Dr. E. Wiegand, Munich 27,

and Dipl.-Ing. W. Niemann, Hamburg 1, Ballindamm 26,

Patent attorneys

Claimed .priority:
Great Britain from 1.1. July, 1951 and July 7, 1952

John Maurice Towler and Frank Hathorn Towler,

Rodley, Leeds (UK),

have been named as inventors

The special feature of the invention is that this current limiting device consists of a spring-loaded There is bushing, which is movable / arranged on the valve member relative to it and. a Has flange which, when the valve member is moved into its fully open position, together with the socket is inserted into the valve bore and with this a restricted annular passage which forms the inlet for the bypass flow from the outlet for the bypass flow separates, the arrangement being made such that when the valve member of the bypass valve is in its fully open position, the socket is due to the pressure of the liquid to be diverted moved out of the valve bore relative to the valve member and thereby the restriction of the The passage from the inlet to the outlet cancels.

Due to the special design according to the invention of a control device of the type in question here Art is particularly prevented that the entire output flow of the pump or pumps suddenly is diverted to the outlet when the bypass valve is opened. This ensures that no sudden shock is exerted on the hydraulic system, which could cause serious damage could lead.

609.86W222

3 4

The working surface of the ven-shaped valve member 5 facing the inlet with a lapped sliding fit element of the bypass valve can be matched with the.

side of the pump or pumps continuously in operation Assuming that the valve in the

binding stand, with an opening movement made vertical. Position is used - when the valve member of the bypass valve is used by the 5, it can of course assume any pump or the pumped hydraulic fluid appropriate position - is the lower in the bypass completely via an outlet from space 2 through an inlet 6 to the main feed when the pressure within the hydraulic line of one or more pumps B (FIG. 7) and / or accumulator is permanently connected to a predetermined value and the upper space 3 exceeds a value. io housing for a light spring 7, which is used to

The valve member of such a bypass valve to move the valve member 5 against the pump pressure moves extremely quickly from the completely closed loads. As shown in FIG. 7, the inlet 6 is in the completely open position when the pressure in the system with the main feed line A rises above a predetermined value at a point between the system. One of the pump B and the hydraulic system to be fed has the advantage that it is connected to the system and / or a memory C, very small differences in fluid pressure in which the fluid controlling the and between the branch to the inlet 6 and the device is operated hydraulic system or the accumulator is a return and that it also works satisfactorily, check valve D is provided to prevent that when the speed at which the pressure is applied to the system and / or the accumulator due to the change or fall, comparatively is small. 20 bypass valve E emptied when the pump B

The valve member can be pre-relieved under a load.

preferably the force of a spring, which is an intermediate part of the bore of the bypass

Counteracts pump pressure. valve is enlarged to provide an annular outlet

The connection between the opposing chambers 8 to form (Fig. 1), which by a lying Clearance at both ends of the valve 25 let 9 communicate with the delivery side. if member can by means of a provided in this the valve member 5 in the one shown in FIG Bore are formed, the throttle is a point lower position, the inlet 6 and the smaller diameter is. lower space 2 through valve member 5 from outlet 9

Furthermore, it can be separated on the outer circumference of the valve. When the valve member 5 is in the full member be provided an annular groove, which is located by 30 dig raised position, the interior is several radial bores with the longitudinal bore of the space 2 with the outlet 9 in connection, connected and through the wall of the valve bore The valve member 5 has a through bore

of the bypass valve body is closed until the 10, which the spaces 2 and 3 permanently together Valve member is raised so far that the Druckflüs- connects, and. at the lower end of this permeability a throttle 11 is formed from the pump via the outlet completely 35 going bore is derived. or used, which serves to transition from

Furthermore, under a load, the preferred pressure fluid can move from space 2 into space 3 wise a spring, upright valve piston of the control regulate, so that when the space 3 with an outlet valve through the pressure within the hydraulic communicates, the pressure within the Rau system or memory are shifted and there- 40 mes 3 drops and a pressure difference across the throttle 11 Connect several openings to an outlet, renz is created, which is sufficient that the valve member 5 the one of which to the space at the end of the bypass pressure of the light spring 7 overcomes and against valve while the other openings move to the pump relief position, towards the interior of the bypass valve bore. The bore 10 stands by means of radial bores 12

to open. 45 with an annular groove 13 in connection, which in the valve

In the process, the speed of the opening actuating member 5 is cut in, which is caused by the surrounding The bypass valve is usually closed by the gradual wall of the valve bore Borrowed opening of the passage assigned to the control valve is.

gears regulated, which makes it possible that the lower end of the valve member 5, which is

the escape of the pressure fluid from the space 50 is located within the space 2, forms three Abdes Bypass valve to the outlet gradually cut in front of you with different sized diameters, one goes. ■ Section 14, which has a smaller diameter than the

In the drawing, an embodiment with the full diameter of the valve member 5 is shown, for example a compensation. Section 15, which has a smaller diameter than that of FIG. 1, is a schematic section of the section 14 and a section 16, which has a small bypass valve and the control valve, which has the smaller diameter than section 15. Form control device according to the invention; On sections 14 and 15 there is a diagrammatic representation of which internal spring 18 influenced bushing 17 which can be displaced in five positions of the two valve members, which are reproduced by the spring 18 in the various working positions, and 60 is held in the position shown in FIG. Fig. 7 is a diagram showing the manner of bushing 17 having at its inner end a flange on which the device according to the invention 19, the outer diameter of which is somewhat smaller than that of the invention, is built into a hydraulic system. the full diameter of the valve member 5, so that there is in the illustrated embodiment, when the sleeve within the valve bore, the bypass valve ·, which is located in Fig. 7 generally by 65, is named a margin of reference character E between these parts of a Housing 1, a few hundredths of a mm is present. The relative softness has a through hole, which is enlarged in both directions at both ends of the movement of the bushing 17, in order to form closed spaces with stops, namely at the inward and 3-way movement through the cover plates 4 through contact with the shoulder are closed. In this bore the piston 70 is between the full diameter part of the valve

Claims (6)

5 6 valve member 5 and the section 14 and from which it can be seen that the lines 36, 37 and 38 are opened upward movement by a collar 20 on the Ab- in order to be through the associated annular cut 16. chambers 33, 32 and 31, respectively through into the bores The purpose of the socket 17 is to constrict the stream 29 and 30 and then through the central bore 27 of pressure fluid from the Rauim 2 to the outlet 9 5 and the bores 28 to the annular chamber 34 and to in such a way that ensures is to open outlet 35. However, the lines 38 are always sufficient within the space 2 and 36 still closed by the valve member 5, so that pressure is present so that the valve member 5 can access the liquid from the chamber 3 to move into the fully open position 35 only has line 37. Assumed, even if the lower edge of the part has moved with io, the bypass piston has moved into the position shown in FIG. 3 moved in full diameter into the outlet chamber 8, then the part has. If the valve member 5 has not yet completed its movement with its full diameter out of the valve, the bush 17 is moved out by the pressure within the bore, and the flange 19 of the space 2 is forced, against the pressure, also within the valve bore. The groove of its spring 18 relative to the valve member 5 in a 15 13 of the bypass piston begins to move the line 36 position in which the flange 19 expose the one which has already left the valve bore with the outlet 35 and is inside the blind is. As soon as the valve member 5 is out of the valve outlet chamber 8. Then liquid can emerge from the bore, the pressure in the chamber pushes the inlet 6 to flow freely to the outlet 9. Therefore mer 2 the socket 17 and the flange 19 is strong after, even if only a small pump in the main 20 above. Therefore increases with increased access line of the memory promotes, within the space 2 to the outlet 9, the pressure difference between the Räustets a sufficient pressure is available to the ven- men 2 and 3, which the VentilgKed 5 in its uppermost valve member 5 in a position move, in which it brings the position, as shown in Fig. 4, and the entire delivery rate is diverted. Another access to the outlet 35 along the line with the bypass valve is a control or 25 device 38 creates. It can be seen that the flange 19 is connected to the control valve, the housing 21 of which has a through the spring bushing 17 now the flow to the outlet from going bore, which regulates at one end through a the space 2 to the outlet chamber 8 and ensures spring housing 22 on its opposite end ensures that the pressure within the space 2 is closed by a cover plate 23 and is sufficiently high that the valve member 5 is provided in the uppermost one of the opening 24; to keep up with the storage position 30, although the current example, rather C is permanently connected. The valve piston 25 of the regulating or control valve is reduced in the Boh- could be reduced by a reduced pump output. When the accumulator pressure at the opening 24 moves against the liquid pressure from the accumulator, which drops the lower limit, the valve piston 25 is set on a working surface which is opposite the opening 24 by the spring 26 according to Fig. 2 is moved downwards, acts against the pressure of a spring 26. and closes the outlets of the lines 36, 37, but the valve piston 25 has a central bore 27, the line 38 is still open to the outlet. As soon as the is closed at both ends, and three rows of the accumulator pressure then reaches the lower limit, of radial bores 28, 29 and 30. The bore causes a further downward movement of the valve of the control valve is inside with four annular chambers 31, 40 piston25; this finally closes the output 32, 33 and 34 provided. The annular chamber 34 protrudes from the line 38 in that the bores by means of an outlet line 35 with an outlet in 28 move out of line with the outlet 35, permanent communication. The chamber 33 is with the This finally ends the entire passage bypass valve bore through a line 36 leading to the outlet 35, and as a result the pressure chamber 32 builds up with the space 3 of the bypass valve 45 in the space 3 to the same height as in the space 2 through a line 37 and the chamber 31 with the open, whereby the valve member 5 is hydraulically balanced in the axial direction bypass valve bore through a line 38, whereupon it is bound by the latter at a point, which spring 7 according to FIG moved into the lowest position above the entry point of the line 36. will. The bypass valve E is now closed. The control valve and the bypass valve are working and remain closed until the pressure in the memory ten as follows: rises again to the upper limit. Fig. 2 shows the positions of the valve member 5 and it is necessary that the force of each of the springs of the valve piston 25 when the pressure in the memory C 18, 7 and 26 in connection with the arrangement of and therefore at the opening 24 at the bottom of the Control various openings in the two valves so lies veutils below the lower limit; it is selected as a result that when the accumulator pressure reaches the upper limit of which both valves are in their lowest limit, the valve piston 25 first moves according to position. If the pressure in the accumulator moves upwards, for example, whereupon the movement of the valve member 5 increases as a result of the start-up of the pump, it starts to follow, and that when the accumulator pressure on the lower valve piston 25 moves upwards and limit drops, the valve piston 25 is first going through an intermediate position as it moves AERTS in Fig. 6 _w 60 and then the downward movement of which is given, through. Since in the space 3 upper valve member 5 follows. Therefore, the bypass valve half of the valve member 5 is enclosed liquid is either open or closed and has no intermediate and the pressure in the chamber 2 by the throttle 11 is between position. Has access to the space 3, the valve member 5 is always still hydraulically balanced in the axial direction, 65 claims: and it is therefore still innermost by the spring 7 in the 1st device for regulating the pressure Position held. half-tight limits in a hydraulic system If the accumulator pressure reaches the upper limit and / or an accumulator that is through at least increases, see the valve piston 25 moves in its upper one continuously rotating pump Position, as shown in Figs. 3 and 4, from 70 pressure fluid via a non-return valve which prevents a pressure loss in the hydraulic system and / or the accumulator when the pump is relieved, the device having a bypass valve with spaces provided at the ends of its valve member which are connected to one another via a line provided with a throttle which the liquid from the one space, which is permanently open to the delivery side of the pump, can flow at a controlled rate into the space located at the opposite end of the valve member of the bypass valve in order to keep the valve member in hydraulic equilibrium, and the device further has a regulating or control valve with a valve member, which is continuously acted upon by pressure within the system at one end and is moved by this pressure, when it has risen to a predetermined value, to one of the spaces at the ends of the valve member of the bypass valve to open the outlet and thereby to allow the pump delivery pressure prevailing at the opposite end to move the valve member of the bypass valve into a position in which the entire delivery quantity of the pump can flow to the outlet, the valve member of the bypass valve being provided with a device which operates automatically to divert the To limit the pump output flow to the outlet until the valve member of the bypass valve has moved into its fully open position, characterized in that this current limiting device consists of a spring-loaded socket (17) which is arranged on the valve member (5) movable relative to it and a Has flange (19) which, when the valve member (5) is moved into its fully open position, is inserted into the valve bore together with the bushing (17) and with this forms a restricted annular passage which forms the inlet (6) for the bypass flow separates from the outlet (8) for the bypass flow, the A Arrangement is made such that when the valve member (5) of the bypass valve ( E) is in its fully open position, the bushing (17) moves out of the valve bore due to the pressure of the fluid to be diverted relative to the valve member (5) and thereby removing the restriction of the passage from the inlet (6) to the outlet (9). 2. Pressure regulating device according to claim 1, characterized in that the working surface of the valve member (5) of the bypass valve (E ) facing the inlet (6) is permanently connected to the delivery side of the pumps (B) , with an opening movement of the valve member (5 ) of the bypass valve (E) by the pump pressure, the pumped hydraulic fluid in the bypass can be completely diverted via the outlet (9) when the pressure within the hydraulic system and / or accumulator exceeds a predetermined value. 3. Device according to claim 1 or 2, characterized in that the A ^ valve member (5) below a load, preferably the force of a spring (7), which counteracts the pump pressure. 4. Device according to claim 1, 2 or 3, characterized in that the line between the opposing spaces (2, 3) to both end faces of the valve member (5) a provided in this bore (10) is formed, the throttle (11) one point less Diameter is. 5. Device according to one of the preceding claims, characterized in that an annular groove (13) is provided on the outer circumference of the valve member (5) which is connected to the longitudinal bore (10) by a plurality of radial bores (12) and through the wall of the valve bore of the bypass valve housing (Ij is closed until the valve member (5) is raised so far that the pressure fluid is completely drained from the pumps (B) via the outlet (9). 6. Device according to one of the preceding claims, characterized in that the lower a load, preferably a spring (26), standing valve piston (25) of the control valve (21) connects several openings (36, 37, 38) with an outlet, one of which (37) to the space (3) at the end of the valve member (5), while the other openings (36, 38) towards the interior open the bypass valve hole. Considered publications:
British Patent Nos. 586 727, 594 140,
949. 1 sheet of drawings © 609 869/222 4.57