DE2825351A1 - ACCUMULATOR CHARGE VALVE - Google Patents

Description

ALS ¹ RED TEV3S GM3H P 4630 2.5.1978

-G-

Accumulator loading valve

The invention relates to an accumulator charging valve with a pressure connection connected to a pump, with a memory connection which is connected to a pressure accumulator and a first consumer and which can be connected to the pressure connection via a throttle point and a check valve, with a second one Consumer connection, which can be connected to the pressure connection via a by-pass valve, with a by-pass piston of the by-pass valve, whose Virkfläche can be acted upon in the opening direction is connected to the pressure connection and its Virkfläche, which protrudes into a control chamber and can be acted upon in the closing direction, is below it of a certain accumulator pressure via a throttle point lind a switching valve that switches depending on the accumulator pressure is connected to the pressure connection and, when the specific accumulator pressure is reached, to a return.

DE-OS 2 364 413 discloses a storage valve known, which has a pressure connection connected to a pump, which has a throttle point and a Check valve can be connected to a storage connection. The memory connection is with a first consumer and connected to a pressure accumulator. The pressure connection is also connected to a bypass valve second consumer connection connectable. The by-pass valve has a by-pass piston, one of which can be acted upon in the opening direction of the by-pass valve is connected to the pressure connection and the other acting surface acted upon in the closing direction via a Throttle point with the pressure connection or with a

909851/0129

ALFIiED TEVSS GKBK? 465O May 2, 1978

Return is connectable * Exe circuit of the connection the Virkflache that can be acted upon in the closing direction with the pressure connection or the return is carried out through a switching valve, which is located in the from the pressure connection to the in

"5 closing direction acted upon active surface leading connection is arranged and depending on the Storage pressure switches. Below a certain storage pressure is this ¥ i :: fc area with the pressure connection connected and when the specific accumulator pressure is reached, the switching valve switches over and connects this area with the return.

If a consumer is connected to the storage connection, for which the pressure medium flow is sufficient at Ilcrma! which the throttle allows in the connection of the Druekan closure suEi Speioheraiischluß, but under under certain operating conditions a significantly larger pressure medium flow is required, this can be known Accumulator charging valve does not meet this requirement. These operating conditions are z.3. then given if that Accumulator charging valve is arranged in a motor vehicle and a hydraulic brake booster on the accumulator valve and an anti-skid system are connected, while on the second consumption connection a power steering connected. The Bx-os is in that of the pressure connection Line leading to the accumulator connection, which is required to allow the accumulator to be charged too quickly to prevent, although allows a sufficient flow of pressure medium to load the accumulator and to Actuate the hydraulic brake booster. ¥ ¥ ¥ However, it is a considerably larger amount of pressure medium The required anti-skid system is switched on, that's enough

909851/0123

ALFRED TEYES GiIBH P 463O 2.5.1978

this Druckmittelstrcn no longer out. A branch the larger amount of pressure medium required for anti-skid at the beginning of this branching process, a considerable pressure surge would occur directly from the pressure connection cause in the second consumer conclusion, since the By-pass piston at this sudden discharge of his Virkfläche acted upon in the opening direction would move quickly in the closing direction. One of those However, pressure surges in the power steering can lead to dangerous reactions in the car driver.

It is therefore an object of the invention to provide an accumulator charging valve to create according to the Oberbagriff, in which the consumer connected to the storage connection if necessary with a pressure medium flow that is greater than its normal requirement can be supplied without causing significant pressure surges when the larger pressures are switched on he second consumer connection comes.

This object is achieved according to the invention in that the pressure connection via a side depends on the storage pressure switching valve can be connected to the accumulator connection

is that apparently at a lower accumulator pressure than the accumulator pressure that is used to switch the switching valve in the switching position connecting the pressure connection with the control chamber of the by-pass valve is.

909851/0129

ALFIlEJJ TEVES GiOH P 4 ^ 30 2.5.1978

This inventive design of the accumulator charging valve leads to the fact that in the case of a high pressure medium requirement at the first consumer, the switching valve is first in the The switching position connecting the control chamber to the pressure connection switches so that the by-pass piston moves in the closing direction is pressurized and before the opening of the passage of the second storage pressure-dependent switching The valve from the pressure connection to the accumulator connection is already in a position that largely shuts off the bypass. As a result, the by-pass piston can no longer make a rapid movement in the closing direction, so it can there is no significant pressure surge in the second consumer connection. It is also advantageous when the switching position for switching the switching valve into the switching position that shuts off the pressure connection from the control chamber required accumulator pressure is higher than the accumulator pressure required to close the second valve.

A space-saving design can be achieved in that the switching valve is a double seat valve, one of which Valve member a connection from the pressure connection to the control chamber or a connection from the control chamber to the Return can be shut off. The closure member of the double seat valve is advantageously one in one with the Control chamber connected to the valve chamber arranged ball and the valve seats of the double seat valves are the mouths the lines opening into the valve chamber, via which the pressure connection with the valve chamber and the Return can be connected to the valve chamber. The switching valve can have a switching piston that is opposite to the

909851/0129

ALFRED TEVES GMBiI P 4630 2.5.1978

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Force of a compression spring and the force acting on the valve member of the pressure prevailing at the pressure connection is acted upon by the accumulator pressure and by overcoming the spring force and on the valve member acting pressure force lifts the valve member from the valve seat of the connection to the return and onto the valve seat the connection from the pressure connection can be pressed.

It is inexpensive to manufacture if the throttle point is in the connection leading from the pressure connection to the switching valve is formed in that the valve seat is at the connection opening into the valve chamber from the pressure connection is formed with a cross section forming a throttle point.

A quick switching through of the switching valve can be achieved that the force characteristic of the compression spring is degressive.

Overloading of the pressure accumulator due to possible high pressures at the second consumer connection can thereby be prevented that the storage connection can be connected to the pressure connection via the switching valve. Here can the storage connection must be connected to the valve chamber.

TJm to enable that compared to the normal IT requirement additionally required amount of pressure medium can be relatively large, is advantageously the passage cross-section of the valve larger than the passage cross-section of the switching valve via which the pressure connection with the accumulator connection is connectable.

909851/0129

ALFRED TSVSS GIaBK P & £ jO 2.5.1978

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An advantageous embodiment of the valve is that the valve comprises a valve disposed in a connected with the memory terminal chamber closure member and that formed at the opening into the Kaniiaer Hündung a leading from the pressure port to the chamber line a Ventilsita _s on which the closing member can be pressed. In this simply constructed valve, the closing member is advantageously a ball.

The valve advantageously has a switching piston on, which is acted upon by the accumulator pressure against the force of a compression spring and by which it is overcome the spring force, the closing member can be pressed onto its valve seat.

The difference in the switching pressures of valve and switching valve can advantageously be achieved by that the acted upon by the memory pressure effective area of the Switching piston of the switching valve is smaller than that of the holding piston of the valve.

A space-saving channel routing in the accumulator charging valve can be achieved by using the valve and the switching valve are connected to the pressure connection via a common line. Likewise, the valve and the Switching valve can be connected to the accumulator connection via a common line. Furthermore, it is space-saving, when the Wiri: surfaces of the switching pistons are connected to the pressure accumulator via a common line.

An embodiment of the invention is shown in the single figure of the drawing and is described below described in more detail.

9098E1 / 0129

ALFRED T2V3S GKBH P 46JO 2.5.1978

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The illustrated accumulator charging valve according to the invention has a housing 1 with a pressure connection 2, a Storage connection 3 »a second consumer connection 4 and a return 5. With the printing end 2 is a pump 6 is connected, while the storage connection 3 is connected to a pressure accumulator 7 and a first consumer 8. The return 5 leads to a pressureless container 9 · The pressure connection 2 is connected to a cylindrical bore 10 in which a by-pass piston 11 of a by-pass valve 12 is arranged to be axially displaceable, through which the passage cross-section from Pressure connection 2 to the second consumer connection 4 can be regulated. The by-pass piston 11 is on a Virkflache acted upon by the pressure at the pressure connection 2 in the opening direction of the by-pass valve 12. Sine in the closing direction Dmckbeauf impactable Virkf lache 14 of the by-pass piston protrudes into a control chamber 15 formed in the cylindrical bore 10. In this control chamber 15 there is also one the by-pass piston 11 is arranged in the closing direction acting compression spring 16.

A line 17 leads from the pressure connection 2 to a switching valve 18 and a valve I9, one of which is another Line 20 leads to storage connection 3 via a check valve 21. Line 20 is through a link also connected to the control chamber 15.

The switching valve 18 has a switching piston 23 with a active surface 25 acted upon by the storage pressure counter to the force of a compression spring 24. From the shift piston the closure member 26 of the switching valve 18, which is designed as a ball, can be moved into its switching positions. The switching

909851/0129

ALFRED TEVlDS GIIBII P 463O 2.5.1978

valve 18 is designed as a double seat valve with a valve chamber 27 in which the closure member 26 is arranged is. The two valve seats 28 and 29 of the double seat valve are the opposite openings in the valve chamber 27 of the line 17 to the valve chamber 27 leading line and the valve chamber 27 with the return 5 connecting line. From the valve chamber 27, the line 20 continues to lead to Storage connection 3.

The valve seat 28 is designed with a cross section that forms a throttle point.

Like the switching valve 18, the valve 19 has a switching piston 30, the active surface 31 of which is larger than the active surface 35 is acted upon by the storage pressure counter to the force of a compression spring 32. By means of the switching piston J> 0 , the closing element 33 of the valve 19, which is designed as a ball and which is arranged in a chamber 34, can be pressed onto its valve seat 35. The valve seat 35 is formed at the junction of the line 17 opening into the chamber 34. The line 20 leads from the chamber 34 via the valve chamber 27 of the switching valve 18 and the line to the accumulator connection 3

The passage cross section at the valve seat 35 of the valve 19 is significantly larger than the passage cross-section of the valve seat 28, which is designed as a throttle point, so that a very large flow of pressure medium can be fed to the consumer if required.

909851/0129

ALPIiSD TEVISS GtMI P tfjO 2.5.1978

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The puncture of the accumulator charging valve is as follows: If the pressure accumulator 7 is filled, the closure member will be 26 and the closing element 33 onto the valve seats 28 by the switching pistons 23 and 30, which are loaded by accumulator pressure or 35 and block the connection from pressure connection 2 via lines 12, 20 and 20 * to the storage connection 3 from. In this switching position, the passage of the switching valve 18 on the valve seat 29 is open, so that the lines 20 and 20 'and, via the connection 22, also the control chamber 15 with the unpressurized return 5 are connected. The passage of the check valve 21 is also closed. The by-pass piston 11 is only acted upon by the compression spring 16 in the closing direction. The pressure medium flow conveyed by the pump 6 acts on the active surface 13 of the by-pass piston 11 and moves it this so far in the opening direction that the conveyed pressure medium passes through the passage of the by-pass valve 12 for the second consumption he can flow connection 4.

Now the storage pressure drops to a certain pressure from, so overcomes the one acting on the switching piston 23 Force of the compression spring 24 as well as that on the closure member 26 acting pressure force of the delivery pressure of the pump 6, those acting on the active surface 25 of the switching piston 23 Pressure force of the accumulator pressure and moves the switching piston 23 into the switching position shown, in which the Closure member 26 rests on valve seat 29.

Now builds up via the connection 22 in the control chamber 15, through the valve seat designed as a throttle point

909851/0129

ALFRED T3VES GKSH P 463O 2.5.1378

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a pressure which is reduced compared to the pump pressure and which acts on the effective area I4 of the bypass piston 11 and moves it in the closing direction until the forces acting on the active surfaces I3 and I4 are in equilibrium are. The cross section of the passage of the bypass valve 12 is reduced.

At the same time, pressure medium flows via line 17, valve chamber 27, line 20 and check valve 21 to the accumulator connection 3 ^and to the accumulator 7. When a certain maximum boost pressure is reached in the accumulator 7, the pressure force acting on the active surface 25 of the switching piston 23 overcomes the force the compression spring 24 and the pressure force acting on the valve member 26 and moves the switching piston 23 so that it lifts the closure member 26 from the valve seat 29 and presses it onto the valve seat 28. Thus, as previously described, the control chamber 15 is again relieved of pressure, so that the bypass piston 11 is displaced in the opening direction and the entire amount of pressure medium conveyed by the pump flows to the second consumer connection.

In normal operation, one is enough for the first consumer Supply via the pressure accumulator 7. Required by the first consumer under certain operating conditions a larger amount of pressure medium, so this can no longer through the pressure accumulator 7 and the supply line via the Switching valve 18 can be supplied alone.

909851/0129

ALFRED TEVES C-I3H? 463O May 2, 1978

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In this case, the accumulator pressure first drops to the level at which - as described above - the switching valve 18 of its passage leading from the pressure connection 2 to the storage connection 3 opens and the by-pass valve 12 largely opens closes.

Since the pressure medium requirement of the first consumer 8 has not yet been satisfied, the accumulator pressure continues to decrease up to a level at which the area 31 of the switching piston 30 of the valve 19 acting pressure force is less than the opposing force of the compression spring 32, so that the valve 19 opens. Because the cross section of the valve seat 35 de3 Tentils I9 considerably is larger than the cross section of the valve seat 28 of the switching valve 18, which is designed as a throttle point a large flow of pressure medium can now be fed to the first consumer 8.

Since, before the large passage of the valve 19 is opened, the switching valve 18 closes the passage from the pressure connection 2 has opened to the control chamber 15, the 3y-pass piston 11 has already largely moved in its closing direction, so that there is no major pressure surge due to a sudden major change in the pressure conditions at the Virkflachen I3 and I4 of the by-pass piston 11 can come.

If there is no longer the high pressure medium requirement at the first consumer 8, a pressure is built up again in the pressure accumulator J , through which the valve I9 closes first and, after further pressure build-up, the switching valve 18 also blocks the passage from the pressure connection 2 to the accumulator connection 3 again.

909851/0129

Claims (17)

ALS ¹ HED TEYSS GIQH 2nd quay 1973 Prankfurt am Kain P 4630 ZL / k / Es J. Burgdorf - 47 Claims nj accumulator charging valve with a pressure connection connected to a pump, with a memory connection which is connected to a pressure accumulator and a first consumer and which can be connected to the pressure connection via a throttle point and a check valve, with a second consumer connection which is connected via a bypass -Valve can be connected to the pressure connection, with a by-pass piston of the by-pass valve, whose Virkflache can be acted upon in the opening direction is connected to the pressure connection and whose acting surface protruding into a control chamber and can be acted upon in the closing direction is below a certain storage pressure via a Throttle point and an accumulator pressure-dependent switching valve is connected to the pressure connection and, when the specific accumulator pressure is reached, to a return, characterized in that the pressure connection (2) can be connected to the accumulator connection (3) via a second accumulator pressure-dependent switching valve (19) which is connected to the accumulator connection (3) one lower accumulator pressure than the accumulator pressure which is required for switching the switching valve (18) into the switching position connecting the pressure connection (2) to the control chamber (15) of the bypass valve (12). 909851/0129 ORIGINAL INSPECTED ALFRED THVlSS GFiBII P 463 2.5.1973 2. accumulator charging valve according to claim 1, characterized in that the for switching the Switching valve (18) into the switching position that shuts off the pressure connection (2) from the control chamber (15) required storage pressure is higher than that required to close the second valve (19) Memory pressure. 3 · Accumulator loading valve according to one of the preceding claims, characterized in that that the switching valve (18) is a double seat valve, of whose valve member (26) a connection from Pressure connection (2) to the control chamber (15) hzw. one Connection from the control chamber (15) to the return (5) can be shut off. 4 · Accumulator charging valve according to claim 3 »characterized in that the valve member (26) of the double seat valve is arranged in a valve chamber (27) connected to the control chamber (15) The ball is and the valve seats (28,29) of the double seat valve are the openings in the valve chamber (27) are opening lines, via which the pressure connection (2) with the valve chamber (27) and the return (5) can be connected to the valve chamber (27). 5. accumulator charging valve according to one of claims 3 and 4, characterized in that the switching valve (18) has a switching piston (23), the counter to the force of a compression spring (24) and the force acting on the valve member (26) of the pressure prevailing at pressure connection 2 from the accumulator 909861 / Q129 ALFRED TEVISS GMBH? 4 ^ 50. 2 «, 5.1978 - 3 pressure "is applied, and by the overcoming the spring force and the pressure force acting on the valve member (26) removes the valve member (26) from the valve seat (29) of the connection sum return (5) can be raised and on the valve seat (28) of the connection from the pressure connection (2) can be priced. 6. Accumulator loading valve according to ice they of claims 3 to 5, characterized in that the Yentilsits (28) on the τόπι Bruo! -: connection (2) in the Yentilkamiaer (27) opening connection with a formed a cross section forming a throttle point is, 7. apeicharlaäeyeiitil na oh claim 5 »characterized by g e that the force characteristic of the compression spring (24) is degressive. 8. Speicherlaöeventil according to one of the preceding Claims, characterized in that that the storage connection (3) can be connected to the pressure connection (2) via the switching valve (18). 9 accumulator charging valve according to claims 4 and 8, characterized in that the Storage connection (3) with the valve chamber (27) connected is. 10. Accumulator valve according to one of the preceding Claims, characterized in that the passage section of the valve (19) S09851 / 0129 ALFRED TIiViS GrLUiI P 463O 2.5.1970 - Δ. - is larger than the passage cross-section of the control valve (18), via which the pressure connection (2) can be connected to the storage connection (3). 11. Accumulator charging valve according to one of the preceding claims, characterized in that that the valve (19) one in one with the memory connection (3) connected chamber (34) has arranged closing member (33) and that in the Chamber (34) opening into the mouth of a line (17) leading from the pressure connection (2) to the chamber (34) a valve seat (35) is formed, onto which the closing member (33) can be pressed. 12. Accumulator charging valve according to claim 11, characterized in that the closing member (33) ^ 5 is a sphere. 13. Storage loading valve ax one of claims 11 and 12, characterized in that the Valve (15) has a switching piston (30) which against the force of a compression spring (32) from the accumulator pressure is acted upon and by which the closing element (33) opens when the "spring force" is overcome its valve seat (35) can be pressed, 14 · Accumulator loading valve according to one of the preceding Claims, characterized in that the Virkfläche acted upon by the accumulator pressure (25) of the switching piston (23) of the switching valve (18) is smaller than the Virkfläche (31) of the switching piston (30) of the valve (19). 9098B1 / 0129 ALFHSD TBVSS GI-IBH P 4-630 2.5.1978 - 5 - 15 «Accumulator loading valve according to one of the preceding Claims, characterized in that the valve (19) and the switching valve (18) over a common line (17) Hiit the pressure connection (2) are connected. 16. Accumulator charging valve according to one of the preceding claims, characterized in that that the valve (19) and the switching valve (18) via a common line (20, 20 ·) with the storage connection (3) are connected. 17. Accumulator charging valve according to one of the preceding claims, characterized in that that the active surfaces (25,31) of the switching piston (23, 30) via a common line with the pressure accumulator (7) are connected. 909851/0129