DE2927895A1 - Accumulator charging valve with multiple points - has separate control valve joined to charging valve - Google Patents

Abstract

The charging valve has a pressure connection joining the supply pipe to a pump. The non return valve connects with the passage to a second accummulator. A second connection may also be made through the valves. The connection is made to the fluid pressure and the hydraulic amplifier. The valve is closed by the ball according to the pressure in the accumulator. The connecting passage joins the chamber to the non-return valve and to the connection. The feed passage joins the chamber to the control valve.

Description

Accumulator loading valve

Addition to patent e (file number P 2849877.3) The main patent relates on an accumulator charging valve with one connected to a pressure medium source Pressure connection, with a first consumer connection, to which a first consumer can be connected to a second consumer connection to which a pressure accumulator and a second consumer with a closed center can be connected, with one Storage pressure dependent switching valve arrangement, through which the pressure connection below a certain Spei.cherdruclcs via a throttle point with your second consumer connection and connectable to the first consumer connection above a certain accumulator pressure is, wherein the valve arrangement is a shut-off valve controllable by a control pressure aufweis t, through which the connection of the pressure connection below the certain accumulator pressure first consumer connection can be shut off, the valve passage of the locking valve can be shut off when the middle of the second consumer is open.

In the case of the one described in the main patent ..... (file number P 2849877.3) Accumulator loading valve, which corresponds to the generic term, can quickly shut off the valve passage of the shut-off valve can only take place when the cement of the second consumer is open. this happens because when the center is open, a normally on an unpressurized Container connected piston chamber, which is attached to a Face of an actuating piston is limited, connected to the second consumer connection and so is pressurized.

Since this piston chamber is permanently connected to the effective area of a control valve is connected, when the pressure is applied to the control valve, a connection of the Control pressure to the shut-off valve opens, the Piston chamber pressurized the effective area and thus the control valve in its the control pressure is switched to the shut-off valve opening position. Because of then If the shut-off valve is closed, the pressure accumulator can now be charged.

Since the pressure prevailing at the second consumer connection is also the pressure is, from which the control valve iii opening direction is acted upon, and since this Pressure corresponds to the pressure contained in the pressure accumulator, is due to leakage losses completely emptied pressure accumulator even when the middle of the second consumer is open no switching of the control valve possible, so that no charging of the pressure accumulator can be done.

It is therefore the object of the invention to provide a storage charging valve after To create a generic term that results in a significant reduction in noise generation ensures a charging of the accumulator.

According to the invention, this object is achieved by the fact that the second Consumer a pressure-generating unit can be actuated, which has a pressure chamber, in which is Druckaifbaubar when the middle of the second consumer is open, the Supply of the control pressure to the shut-off valve through a depending on the pressure in the pressure chamber switching control valve is controllable. This achieves a storage charge and thus pump delivery at high pressure can only take place if the Accumulator pressure has fallen below a certain level and at the same time the second Consumer is actuated, with no functional impairment when completely emptied Pressure accumulator takes place.

In an advantageous embodiment of the invention, the control valve be a 3/2-way valve, in one of which the control pressure feed line and in its other switching position a pressureless return with the shut-off valve connected is.

The control valve can be a closing element with an active surface have, in the sense of a connection of the supply line of the control pressure with the check valve pressure can be impacted and the mt of the pressure chamber of the pressure generating unit connected is. Advantageously, the closing member of the control valve of a Spring into which the connection of the supply line of the control pressure to the shut-off valve is blocked Be applied to the switching position, the spring force of which is less than that of the active surface acting pressure force of the pressure that can be built up in the pressure chamber.

The supply of the control pressure advantageously leads from the Pressure connection leading to the second consumer connection Connection behind the throttle point to the shut-off valve, with a switching valve in the supply line and the control valve in Are arranged in a row.

The switching valve can be a 3/2-way valve that maintains the accumulator pressure as a function of the accumulator pressure be, by the above a certain accumulator pressure of the switching valve to the Part of the supply line leading to the shut-off valve with an unpressurized return and below the specific accumulator pressure with that of the connection to the switching valve leading part of the supply line is connected.

In an alternative embodiment, the switching valve can also be a function of the accumulator pressure switching 4 /? - way valve, through which above the certain storage pressure the supply line leading from the switching valve to the shut-off valve with an unpressurized return and a line leading to the second consumer connection is connected in which a non-return valve blocking a return flow from the second consumer to the switching valve is arranged, and by the below the certain storage pressure that of the switching valve Supply line leading to the shut-off valve with one from the pressure connection via a throttle point tin switching valve leading connection and the line is connected.

The second consumer can be a brake booster and the pressure-generating one Unit be a master cylinder, the pressure chamber of which with the active surface of the control valve connected is. This master cylinder can be a tandem master cylinder with a first and a second pressure cylinder Eeifl, each assigned to a brake circuit, wherein the pressure vessels via a valve arrangement with the working surface of the control valve are connectable.

The pressure chambers are advantageously via pressure lines with a control line and via this with the effective surface of the control valve - connected, whereby in the pressure lines - each one blocking the return flow to the pressure chamber Check valve is arranged. This has the advantage that part of the failure of one of the both brake circuits, the pressure present in the intact brake circuit is still the same Can act on the effective area of the control valve.

Also to safeguard the function in the event of failure of one of the two It is used for braking circuits when the pressure chambers each via a pressure line are connected to a 3/2-way valve, in its first switching position the one Pressure line and in its second switching position, the second te pressure line with a control line leading to the active surface of the control valve is connected, wherein the directional control valve is in the rest position and when both pressure chambers are under pressure the first starting position and with the first pressure-relieved and pressure-loaded z-pus Pressure chamber is in the second switching position. This is basically the intact brake circuit is connected to the active surface of the control valve. The 3/2-way valve can be spring-loaded into the first switching position; as well as from the pressure of the first pressure chamber in the second switching position and from the pressure of the second Druckkaiimer be pressurized in the first switching position.

To in the event of failure of the brake circuit connected to the first pressure chamber to ensure a permanent connection between the second pressure circuit and the effective surface can with a pressure-relieved first pressure chamber and a pressure-loaded second pressure canine the 3/2-way valve can be locked in its second switching position.

The tandem master cylinder can be a stepped tandem master cylinder, the first pressure chamber being the smaller and the second pressure chamber being the larger Level forms.

The single figure of the drawing shows an accumulator charging valve according to the invention shown in section and is described in more detail below.

The accumulator charging valve 1 shown has a pressure connection 2 on, to which a pump 3 is connected with its delivery line. Via a shut-off valve 4, the pressure connection 2 is connected to a first consumer connection 5 a circulating ser- steering a motor vehicle can be connected.

Via a throttle point 6 and a switching valve 7 and a check valve 8, the pressure connection 2 can also be unitarily connected to a second consumer connection 9. At the second consumer connection 9 there is both a hydro-pneumatic pressure accumulator 10 and a hydraulic brake booster 11 are connected.

The switching valve 7 has a chamber 12 in which a ball 13 is arranged as a valve member. The connection 14 opens opposite one another from the pressure connection to the switching valve 7 and one leading to a pressureless return 15 Line into the chamber 12, the mouths of the connection 14 and the return line 15 leading line in the rammer 12 form valve seats on which the ball 13 can hang up as a closing member. Softer of these two I) central canals from the Ball 13 is shut off depends on the accumulator pressure in the pressure accumulator 10.

Above a certain storage pressure, the ball 13 of a the switching piston acted upon by the accumulator pressure against the force of a spring 17 16 moved into the switching position blocking the connection 14, while below a certain accumulator pressure the talk 17 the switching piston 16 in the opposite Direction shifts so that the ball 13 the connection from the chamber 12 to the return 15 shut off.

Furthermore, one of the chamber opens on the opposite side 12 via the check valve 8 to the second consumer connection 9 line 18 and one from the chamber 12 via a control valve 19 to a pressure chamber 20 of the Stop valve 4 leading supply line 21 into the chamber 12. This is the supply line 21 and line 18 depending on the switching position of the switching valve 7 and thus also depending on the pressure level 111 pressure accumulator 10 is the pressure connection 2 or connected to your pressureless return 15.

The check valve 4 consists of a cylindrical bore 22 axially displaceable piston 23, which the cylindrical bore 22 in the pressure chamber 20 and one connected to the pressure connection 2 24 divided so that the for Druckkc "always 20 directed end face of the piston 23 can be acted upon by a control pressure and the end face directed towards the chamber 24 is acted upon by the delivery pressure of the pump 3 is. The piston 23 which opens radially into the cylindrical bore 22 first consumer connection 5 is at least largely shut off, the piston 23 in the opening direction from the delivery pressure of the Puinpe 3 and in the closing direction next to your Control pressure can also be acted upon by a compression spring 25.

The control pressure is a pressure due to the throttle point 6 compared to the pump pressure reduced pressure from the chamber 12 of the switching valve 7 only when the valve is open Switching valve 7 and with appropriately set control valve 19 via the supply line 21 can reach the pressure chamber 20.

The control valve 19, the closing member 26 of which is a slide, connects In one switching position, the pressure chamber 20 of the shut-off valve 4 with the pressureless one Return 15 and in the other switching position via the supply line 21 with the chamber 12 of the switching valve 7. The closing member 26 has an active surface 27 that opposes the force of a spring 28 can be pressurized.

A pressure-generating unit is attached to the brake booster 11 forming T ndemahuptylinder 35 grown, which of the push rod 37 of the brake booster 1 1 can be actuated.

The tandem master cylinder 36 has a first pressure chamber 38, the one Vorderachsbrelr.skreis 39 is assigned and a second pressure chamber 40, which is a Rear axle brake circuit 41 is assigned to.

The front axle brake circuit 39 and 39 is via a first pressure line 42 thus the first pressure chamber 38 and, via a second pressure line 44, the rear axle brake circuit 41 and thus the second pressure chamber 4-0 is connected to a 3/2-way valve. In its The first switching position is the first pressure line 42 and in its second switching position is the second pressure line 44 with one to the active surface 27 of the control valve 19 leading control line 45 connected. The 3/2-Wegwventil 43 is in its first Switching position spring-loaded and from the pressure of the first pressure chamber 38 in the second Switching position and the pressure of the second pressure chamber 40 in the first switching position pressure loaded. Also: u is the 3/2-way valve 43 in its second switching position lockable.

When the brake is actuated, the brake booster is actuated by the push rod 57 1 1 of the push rod piston 46 of the tandem master cylinder 36 as well as the one in the second Pressure medium located in the pressure chamber 40 of the piston 47 is applied so that in the two pressure chambers 38 and 40 builds up pressure. About the pressure line 42 and that 3/2-way valve 43, the pressure of the pressure chamber 38 acts on the active surface 27 of the closing element 26 of the control valve 19, so that when the brake is actuated, the control valve 19 makes the connection from the supply line 21 to the pressure chamber 20 of the shut-off valve 19 opens.

Should the Vorderachsbrcmskreis 39 be defective, so that in the Pressure chamber 38 does not build up any pressure during braking, but it still builds up in the second Pressure chamber 40 a pressure. Since the 3/2-way valve 43 is only in the second switching position is pressure loaded, it is against the spring load in the second switch position switched and engages in this. Now the in the second pressure chamber 40 The pressure prevailing via the pressure line 44 and the 3/2-way valve 43 and the control line 45 act on the active surface 27 of the control valve 19 and switch over to this.

When the brake is not actuated, the active surface 27 is not pressurized. The spring 28 then pushes the closing member 26 into the pressure chamber 20 with the unpressurized return 15 connecting switching position. If the storage pressure falls below a certain level and if the brake is not activated, the brake remains Pressure chamber 20 of the check valve 4 is relieved of pressure. The iii closing direction only from the compression spring 25, but acted upon in the opening direction by the delivery pressure of the pump 3 Piston 23 remains in the open position, so that the pressure medium delivered from the pressure connection 2 flows to the first consumer connection 5.

The piston 23 of the shut-off valve 4 takes the same switching position also on when the accumulator pressure is above a certain pressure level.

But if the accumulator pressure is below a certain level, then so that the chamber 12 of the switching valve 7 via the connection 14 and the throttle point 6 is connected to the pressure port 2, and the brake is also operated, like this comes from one of the pressure chambers 38 or 40 pressure on the active surface 27 of the closing member 26 of the control valve 19 and switches this into the pressure chamber 20th of the shut-off valve 4 via the supply line 21 with the chamber 12 of the switching valve 7 connecting Position. As a result, the pressure which is used as the control pressure and which prevails in the chamber 12 can be used Pressure in the pressure chamber 20 act on the piston 23 and this together with the compression spring 25 shift in the closing direction. This is the first consumer connection 5 at least largely shut off from the pressure connection 2 and the pressure medium being pumped Via the connection 14, the throttle point 6, the switching valve 7 and the check valve 8 fed to the second consumer connection 9 and the pressure accumulator 10, so that this is charged.

A charging of the pressure accumulator, its accumulator pressure zwn example dropped below a certain pressure level due to leakage at the individual valves is, therefore only takes place when there is actually a pressure medium requirement on the brake booster prevails. Such emptying of the pressure accumulator can, for example, occur when driving on the motorway for a long time take place in which there has been no slippage for a long time.

With the invention wfrd avoided that the pump 3, although not an actual There is a need for the brake booster 11, work with high pressure and the pressure accumulator 10 needs to charge. The pressure level of the shut-off valve 4 is mostly in circulation switched power steering pressure is much lower than that to the Charging the pressure accumulator 10 required pressure.

Since the promotion of pressure medium with high pressure wesent Lich higher Noise caused as the conveyance of pressure medium at low pressure and through the storage charging valve according to the invention, the promotion of pressure medium with high Pressure is significantly reduced, there will also be a significant reduction in particular reached in the motor vehicle annoying noise.

L e r s e i t e

Claims (14)

Claims ei. Accumulator loading valve with one to - a pressure medium source connected pressure connection, with a first consumer connection to which a first Consumers can be connected, with a second consumer connection to which a pressure accumulator and a second consumer with a closed center can be connected, with one Spreichdruck dependent switching valve arrangement, through which the pressure connection below of a certain accumulator pressure via a throttle point with the second consumer connection and above a certain accumulator pressure with the first consumer connection can be connected, - the valve arrangement being controllable by a control pressure Has shut-off valve through which the connection below the specific memory pressure front pressure connection -wil first consumer connection can be shut off, whereby the valve passage of the shut-off valve can be shut off when the middle of the second consumer is open, according to Patent (file number P 25 49 877.3) by the fact that from second consumer, a pressure-generating unit can be actuated, which has a pressure chamber has, in which pressure can be built up when the middle of the second consumer is open, wherein the supply line (21) of the control pressure to the shut-off valve (4) through a dependent from the pressure in the pressure chamber switching control valve (19) can be controlled. 2. Accumulator charging valve according to claim 1, characterized in that g e -k enn z e i c h n e t that the control valve (19) a 3/2-way valve is in its In one switching position the supply line (21) of the control pressure and in its other switching position an unpressurized return (15) is connected to the shut-off valve (4). 3. accumulator charging valve according to claim 2, characterized in that g e -k e n n z e i c h n e t that the control valve (19) has a closing member (26) with an active surface (27), which in the sense of a connection of the supply line (21) of the control pressure with your check valve (4) can be pressurized and with the pressure chamber of the pressure generating unit is connected. 4. Accumulator charging valve according to claim 3, characterized in that g e -k e n n z e i c h n e t that the closing member (27) of the control valve (19) by a spring (28) in which the connection of the supply line (21) of the control pressure with the shut-off valve (4) locking switch position is applied, the spring force is less than that the pressure force acting on the active surface (27) which can be built up in the pressure chamber Pressure 5. Accumulator charging valve according to one of the preceding claims, characterized it is noted that the supply line (21) of the control pressure from the from Pressure connection (2) to the second consumer connection (9) leading connection (14) behind the throttle point (6) leads to the shut-off valve (4) and in the supply line (21) a switching valve (7) and the control valve (21) are arranged in series. 6. accumulator charging valve according to claim 5, characterized in that g e -k e n n z e i c h n e t that the switching valve is a 3-balance-2-position valve that switches depending on the accumulator pressure is due to the fact that above the certain storage print of the from Switching valve to the shut-off valve part of the supply line with a depressurized return and below the certain storage pressure with the switching valve from the connection tin leading part of the supply line is connected. 7. accumulator charging valve according to claim 5, characterized in that g e -k e n n z e i c h n e t that the switching valve (7) is a 4-way 2-position valve which switches depending on the storage pressure is, due to the tin from the switching valve (7) above the certain storage pressure Check valve (4) leading supply line (21) with a pressureless return (15) and a is connected to the second consumer connection leading line (18), in which a non-return valve blocking a return flow from the second consumer to the switching valve (7) (8) is arranged, and by the below the certain storage pressure the from Switching valve (7) to the shut-off valve (4) leading supply line (21) with one from the pressure connection (2j via a throttle point (G) to the switching valve 27) flowing connection (14) and the line (18) is connected. 8. accumulator charging valve according to one of the preceding claims, characterized it is noted that the second consumer is a brake booster (11) and the pressure-sucking unit is a master cylinder whose pressure chamber is connected to the active surface (27) of the control valve (19). 9. accumulator charging valve according to claim 8, characterized in that g e -k e n n z e i c h n e t that the master cylinder is a tandem master cylinder (36) with a first and a second pressure chamber (38- and 40), each of which has a brake circuit (39 and 4t) are assigned, the pressure chambers (38 and 40) via a valve arrangement with the Tftrkfläche (27) of the control valve (19) can be connected. 10. Accumulator charging valve according to claim 9, characterized in that g e -k e n n z e 1 c h n e t that the pressure chambers (38 and 40) via pressure lines (42 and 44) with a control line (45) and via this with the active surface (27) of the Stcuerventils (19) are connected, with a return flow in each of the pressure lines (38 and 40) to the pressure chamber (38 or 40) blocking ittickschlagventil is arranged. 1 1. accumulator charging valve according to claim 9, characterized in that g e -k e n n z e i c h n e t that the pressure chambers (38 and 40) each have a pressure line (49 and 44) are connected to a 3/2-way valve (4,) in its first switching position one pressure line (42) and, in its second switching position, the second pressure line (44) with a control line leading to the active surface (27) oil control valve (19) (45) is connected, the 3/2-way valve (43) in the rest position and under pressure both pressure chambers (38 and 40) in the first switching position and with pressure-relieved first pressure chamber (38) and pressurized second pressure chamber (40) are located in the second switch position. 12. Accumulator charging valve according to claim 11, characterized in that g e -k e n n z e i c h n e t that the 3/2-way valve (43) is spring-loaded in the first switching position, as well as from the pressure of the first pressure cans (38) in the second switching position and from Pressure of the second pressure chamber (40) is pressurized in the first switching position. 13. Accumulator charging valve according to claim 12, characterized in that g e -k e n n z e i c h n e t that with the pressure-relieved first pressure chamber (38) and pressure-loaded second Pressure chamber (40) the 3/2-way valve (43) in its second Switch position can be locked. 14. Accumulator charging valve according to claim 11, characterized in that g e -k e n n z e i c h n e t that the tandem master cylinder is a stepped tandem master cylinder, the first pressure chamber being the smaller and the second pressure chamber being the larger Level forms.