DE3006468C2 - - Google Patents

Description

The invention relates to a pressure control device device for a pressure accumulator, especially for motor vehicles testify with a brake slip control device, the Pressure accumulator is fed by a pump that can be switched off and at least two consumers who are required to be flawless required different minimum feed pressures the pressure accumulator are switchable, according to the preamble of Claim 1.

The problem of such a supply of different Pressure fluid consumers is that the approved lowest storage pressure after the largest minimum meal pressure of all connectable consumers must be determined. The pump delivery will be designed so that the Pressure in the pressure accumulator is not below the required min residual pressure can drop. As a result, the pumps funding must be turned on relatively often, though the consumer with the greatest minimum feed pressure only sel ten is put into operation.

Such pressure regulations are described in the book by Dr.-Ing. Erwin Samal "Floor plan of practical control engineering", published by R. Oldenburg, 1967. On Page 136 shows a pressure regulator that is dependent the pumps from the pressure in a pressure accumulator  funding on or off. Another example is shown on page 137 of this book a water level controller the Hö with the help of an electrical circuit he regulates a water level in such a way that he submitted, predeterminable minimum pump delivery is switched and the water level up to a definable Maximum grows when pump delivery is reached is turned off.

Also in the manual "Vickers Hydraulic Manual", 1966, pressure switches are shown in which a hy draulic liquid acts on a piston that works against the force of a spring is movable and according to a certain actuated a microswitch. Such a scarf However, ter can only be used to switch one on or off System are used so that at a desired, greater hysteresis such a switch in double Execution should be available. Such hydraulic Switch with adjustable minimum switching pressure and set bar maximum switching pressure are on pages 96 and 97 of the Manual described.

A pressure medium source, which comprises a pressure switch, the the pressure in an accumulator between one The minimum and maximum values are regulated in DE-OS 22 01 973 described. The pressure switch includes a button, a Shift piston and a pressure piston. The plunger will burdened by the accumulator pressure and against the force of a spring moved as long as the pump is pumping into the store and the pressure level is increased there. After replacement The pressure piston engages a certain distance  NEN first stop of the switching piston, which is now with the Pressure piston is moved and a button to turn it off of the pump motor actuated. The pressure in the memory has now peaked. As a result of leakage losses and the pressure drops when consumers remove pressure medium in the accumulator, reducing the load on the pressure piston and this moves against its previous movement direction shifts. The shift piston is moved by this movement not touched at first, so that the pump motor out switches remains. Only when the minimum pressure in The pressure piston attaches itself to a second cylinder hit the switching piston and remove it from the button, so that the pump motor starts again.

The switching elements listed in the prior art can However, pressure regulation is not always exonerated digend solve. Especially when you have a printer several, different consumers are connected, it is desirable to increase the pressure in the pressure accumulator in this way regulate that only the minimum feed pressures of the specified closed consumers are guaranteed. Especially when braking slip control devices is used to control Druckver needs a pressure medium that is under one if possible constant pressure. However, the accumulator feeds at the same time hydraulic power support for actuation brake system, possibly even other hy drastic consumers. At the hydraulic braking force amplifiers are not derar to the controllable pressure harsh constant conditions like this with a pressure medium which is used to regulate the pressure ver is used for the brake slip control device, gefor  is.

It is therefore the object of the invention to create a pressure rain lungseinrichtung of the type mentioned to sheep by providing the necessary pressure means for several consumers with different min despeise press using a common pressure accumulator is possible and the necessary energy to provide of the storage pressure is reduced. Beyond that the device is safe in operation and easy to use Be construction.

A similar task is the US-PS 39 64 260 underlying, which is solved by the fact that when switching on the pressure scarf of a certain hydraulic consumer ter is bridged electrically, so that now the pump unbe influenced by a pressure control by the pressure switch in promotes the consumer. However, this arrangement has the Disadvantage that the pressure is not limited to an upper one Value. The object of the invention therefore also includes the requirement that when switching on the one consumer not to limit the pressure to a maximum Force is set.

The above task will be with a pressure control direction of the type mentioned in the invention with the features of the characterizing part of claim 1 ge solves.

In the arrangement according to the invention there is the switch direction from a first pressure piston, which from the Spei  pressure is applied, a second pressure piston, be from the pressure of a return line of a consumer is opened, and an electrical switch, the Switch together from the first and the second pressure piston ben is controlled. This way you can be more advantageous Way two different pressures from a switching device tion scanned and according to the pressure conditions of the Switches are operated.

Refinements in the context of Er invention result from subclaims 2 to 10.

To determine the hysteresis of the switching arrangement, i.e. of maximum distance of the switching thresholds, it is advisable that the first pressure piston and the switching piston by a Lost motion clutch are connected and a friction member is present, which acts on the switching piston. A particularly simple arrangement of the friction member consists in that it is in an opening of the housing of the switching device is arranged and radially against the by means of a spring The outer surface of the second piston is pressed.

So with sufficient pressure in the pressure accumulator and the same timed application of the second pressure piston of the pump pen drive is not switched on and that of the pressure piston limited space temporarily fulfills a storage function the actuator is connected to the pressure piston in such a way that the pressure piston during a movement in the sense of the one switch the switch via a spring on the actuation link and with reverse movement directly on the actuator act. The force of the spring is greater than the frictional connection between the friction member and the second piston.  

The features of claims 8 and 10 serve to Ver avoid jamming the lever assembly.

An embodiment of the pressure rain according to the invention lungseinrichtung is schematically Darge in the drawing represents and is explained in more detail below.

The drawing shows in section the housing 1 of a hy draulic / electrical switching arrangement 2 which, depending on the speed in the pressure accumulator 3 and the pending pressure of the line 4 , actuates a microswitch 5 which electrically switches a relay 8 via electrical control lines 6 , 7 .

Pulls the relay 8 and closes the contact 9 , the positive voltage is applied via the line 13 to the Elektromo gate 10 , which in turn shows a ground connection 14 . The electric motor 10 put into operation in this way is driven by a common drive, the pumps 11 and 12 , the pump 11 via the suction connection 15 Druckmit tel from the pressure medium reservoir 16 via a hydraulic branching device 17 in the pressure accumulator 3 . In the pressure line 18 , a check valve 19 is hen hen, which opens against the pressure of the pressure accumulator 3 and thus ensures that the pressure accumulator 3 cannot empty when the pump 11 is leaking.

A filter 20 is provided in the suction connection 15 in order to filter out any dirt particles present in the pressure medium.

Via a pressure line 21 , the pressurized pressure medium of the pressure accumulator 3 is fed to a pressure chamber 22 of the electro-hydraulic switching arrangement 2 . Starting from this pressure line 21 , a further pressure line 23 leads to the consumers HV and AS.

In the pressure chamber 22, a first pressure piston 24 is arranged, the sealing of the pressure chamber 22 passes through an end wall 25 with its smaller diameter portion formed 26th Between the end wall 25 and the largest diameter portion 27 of the first pressure piston 24 , a spring 28 is arranged, the spring force of the first pressure piston 24 has to overcome movement in the direction of the end wall 25 .

The smaller section 26 of the first pressure piston 24 projects into a space 29 and ends in this space with a head 30 of larger diameter. In this space 29 , a switching piston 31 is arranged, which bears with its end face 32 without play against a contact pin 33 of a microswitch 5 permanently inserted in the housing 1 .

On the face 32 side facing away from the switching piston 31 engages the head 30 so that the first pressurizing piston 24 and the switching piston 31 in the illustrated inoperative position lung are in abutment with each other. The head 30 and thus the first pressure piston 24 can be moved by an axial play x relative to the switching piston 31 . This interconnection of the first pressure piston 24 with the switching piston 31 in the sense of a lost motion clutch causes, as will be described later, a certain hysteresis of the monitoring switching arrangement. The switching piston 31 , which is only axially limited movable between the stops 34 and 35 , is loaded by a ra dial acting on it friction member 36 . This friction member is held by a spring 27 , which is arranged in a bore 38 lying radially to the switching piston 31 , with a predeterminable force radially against the switching piston 31 .

The functioning of the previously described part of the electrical / hydraulic switching arrangement 2 is as follows:

In the rest position shown, the switching piston 31 is at the stop 35 , the microswitch 5 is closed. The relay 8 is energized and thus the contact 9 is closed, so there is electrical voltage at the motor 10th The pump 11 delivers pressure medium from the pressure medium reservoir 16 into the pressure accumulator 3 ; the pressure present in the pressure accumulator 3 is transmitted to the space 22 via the pressure line 21 . The pressure in the chamber 22 acts on the first pressure piston 24 and moves it against the force of the spring 28 in the direction of the microswitch 5 . Is the axial clearance x to shift piston 31 overcome, the switching piston 31 is entrained by the first pressure piston 24 and ter against the micro scarf 5 moves. Through the contact pin 33 , the previously closed contact of the microswitch is opened. By interrupting the circuit of the relay coil, the relay 8 drops, whereby the contact 9 is opened and the pumping is interrupted. The switching piston 31 will contact the built-up final pressure at the stop 34 , the order is now in a left end position in which the pressure accumulator 3 is charged to 90 bar, for example. If the pressure slowly falls below 90 bar, the spring 28 will move the first pressure piston 24 to the right, so that an end face 40 will rise from the end face 41 of the switching piston 31 . However, the switching piston 31 itself will not move because it is held in position by the friction member 36 . This friction member 36 must be out so that it can hold the spring-loaded contact pin 33 in position.

If the pressure drops further, the spring 28 will shift the first pressure piston 24 further to the right, and the head 30 approaches the stop 39 of the switching piston 31 . If the rear edge of the head 30 rests against the stop 39 , the spring 28 will move the entire arrangement of the first pressure piston 24 and switching piston 31 to the right when the pressure is further reduced, the contact pin 33 of the microswitch 5 will follow this movement and the pump delivery is switched on again. This could be the case, for example, with a storage pressure of approx. 70 bar.

The accumulator is now charged up to 90 bar, the head 30 must finally cover the axial play x which has arisen again from its end face 40 to the end face 41 of the second switching piston 31 . Only when this distance is covered, the pressure will have increased to about 90 bar by then, the switching piston 31 can be moved to a further switching operation.

The dead member, consisting of switching piston 31 and head 30 of the first pressure piston 24 , therefore has the task of determining the width of the hysteresis, in the case shown of approximately 20 bar, in association with the spring 28 and the friction member 36 . It is easy to see that the hysteresis can only be achieved by a ge suitably selected spring 28 in a once con struited arrangement.

This part of the switching arrangement 2 is a further part connected in parallel, which engages via a lever 42 in a ra diale courage 43 of the switching piston 31 . The lever 42 is rotatably mounted on an axis 44 which is fixed in the housing 1 . The formed as a ball head end 45 of the lever 42 is so arranged in the switching piston 31, that the ball head is substantially 45 with its center near the axis of the second piston 31 during a movement. The other end of the lever 42 is connected to an actuating member 46 , which is supported by a spring 48 on a second pressure piston 47 . Here, the actuator 46 is inserted in the second pressure piston 47 of the type that the spring 48 holds the end 49 formed as a head in the second pressure piston 47 against stops 50 of the pressure piston. The actuator 46 has at its end engaging the lever 42 an oval opening 51 into which a pin 52 attached to the end of the actuator 46 engages. The oval opening 51 ensures that when the actuating member 46 is allowed to move axially, the lever 42 and the axis 44 remain pivotable without the arrangement becoming jammed.

The second pressure piston 47 is sealingly arranged in the housing 1 ver slidably so that it separates a pressure chamber 53 from the usual pressure-free space 54 . In order to have a defined pressure chamber 53 available in the drawn rest position, a stop 55 is provided in the housing 1 , against which the second pressure piston 47 bears in its rest position. In this rest position, the second pressure piston 47 is held by a spring 56 which lies in an annular groove 57 in the second pressure piston 47 and is supported against a stop 58 in the housing.

The room 53 is connected via line 4 to a consumer AS . Via the suction port 59 , the pump 12 promotes the pressure medium from the pressure chamber 53 via a check valve 60 that opens against the pressure of the pressure accumulator 3, with the motor 10 switched on, into the pressure accumulator 3 . The suction port 59 is also connected via a check valve 61 to the pressure medium reservoir 16 . Here, the spring 62 of the check valve is designed so that a pressure of, for example, a maximum of 2 bar can build up in the pressure chamber 53 . If a pressure medium under higher pressure is fed into the pressure chamber 53 via the line 4 , the check valve 61 will open and the excess pressure medium will be passed on to the pressure medium reservoir 16 .

If the consumer connected to line 4 switches on AS , a pressure of approx. 1 to 2 bar will build up in the pressure chamber 53 due to the return of the pressure medium. If one assumes that at the time of switching on the consumer in the pressure accumulator 3 there was a pressure of approx. 80 bar, the head 30 will have a certain path on the one hand to the end face 41 of the switching piston 31 , but on the other hand also to the stops 39 to have a certain game.

Due to the pressure in the pressure chamber 53 , the two pressure pistons 47 will move, the actuating rod 46 will move the lever 42 and the forward movement of the pressure piston 47 is converted into a backward movement on the switching piston 31 via the pivot point 44 of the lever 42 . However, since the ball head 45 of the lever in the radial groove 43 has 42 a small axial play, it is only after a slight forward movement of the second pressurizing piston 47, the ball head kom to rest 45 on the side 63 of the groove 43 men and then upon further movement of the second Push piston 47 to shift piston 31 to the right. This has the consequence that intervenes in the switching area of the upper Schaltvor direction and an immediate pump delivery is switched on by closing the micro switch 5 .

Here, not only the pump 11 will now deliver pressure medium from the pressure medium reservoir 16 into the accumulator, but also the pump 12 will feed the pressure medium present in the pressure chamber 53 into the pressure accumulator 3 .

The pressure in the pressure accumulator will now rise to 90 bar and at this moment the end face 40 of the head 30 will rest against the end face 41 of the switching piston 31 and push it now against the force of the lever 42 to the left and thus turn off the microswitch 5 again and interrupt the pump delivery. If pressure medium 53 is further supplied via line 4 to pressure chamber 53 , then second pressure piston 47 will be moved further to the left, but here its forward movement cannot be transmitted to lever 42 . In order to be able to carry out a forward movement anyway, the spring 48 is easily seen, which is compressed by the force on the second pressure piston 47 . The switching arrangement accordingly not only has the function of pressure monitoring, the pressure chamber 53 also serves as a volume store for the pump 12 .

If now in this position due to higher Druckmittelbe the connected consumer may drop the pressure in the pressure accumulator, the first pressure piston 24 will again move away from the microswitch 5 due to the force of the spring 28 . In this operating state, however, the switching piston 31 does not remain in its position pushed by the first pressure piston 24 , because the actuating member 46 and the lever 42 act on the force of the spring 48 on the switching piston 31 and hold it in contact with the head 30 . The microswitch 5 will thus move with slight movement of the first pressure piston 24 to the right and will be closed again immediately; the pressure is immediately raised to 90 bar.

The entire switching arrangement 2 thus has the following effect:

Under normal operating conditions, regulated by the first pressure switch 24 and in the sense of a lost motion clutch attached to the first pressure piston 24 switching piston 31 , 3 pressure fluctuations up to 20 bar are permitted in the pressure accumulator. This is fully sufficient to supply the connected HV consumers. With such a relatively large approved hysteresis range, the engine is rarely put into operation. However, if the additional consumer AS is switched on, which requires a higher, considerably more constant pressure level, the arrangement of a second pressure piston 47 , actuating element 46 and lever 42 will influence the rest of the switching arrangement in such a way that the hysteresis range down to a few bar (1 to 2 bar) is reduced.

Switching arrangements of this type are particularly advantageous in vehicles with antiskid control devices. As the first consumer HV connected to the pressure accumulator 3 , a hydraulic brake booster can be provided which permits relatively large pressure fluctuations. However, if the purpose of the pressure medium in the pressure accumulator 3 is to achieve an antiskid control, the accumulator pressure must be relatively constant in order to ensure error-free control. This can be achieved by the described embodiment of the inventive switching arrangement with light means. The increase in the switch-off threshold can be determined by the dimensioning of the spring 48 .

Of course it is also possible, which is described here hydraulic effects through an electro mechanical switching arrangement or also by an electron to implement switching arrangement. This switching arrangement but would implement hydraulic pressure require signals in electrical signals, which in turn ei a certain effort.

The switching arrangement described can be done without difficulty and without particularly great electrical outlay use any printing system with different consumption  cher are connected to a pressure accumulator and the ver different consumers here different minimum Expect supply pressures from the store.

Claims (10)

1.Pressure control device for a pressure accumulator, in particular for motor vehicles with a brake slip slip device, the pressure accumulator ( 3 ) being fed by a pump ( 10 ) which can be switched off and at least two consumers, which require different minimum feed pressures for proper operation, to the pressure accumulator ( 3 ) are switchable, with a pressure switching device ( 2 ), the first pressure piston ( 24 ) of the storage pressure against the force of a spring ( 28 ) and whose on a friction body ( 36 ) sliding switching piston ( 31 ) a microswitch ( 5 ) for on - Switching the pump motor ( 10 ) on and off, the pressure piston ( 24 ) and the switching piston ( 31 ) being able to be coupled to one another in both directions of movement by means of a stop ( 30 , 39 or 30 , 41 ) with an intermediate free travel ( X ) , characterized by a second spring-loaded and Druckbe openable pressure piston ( 47 ), which also i n the switching piston (31) engages and in which the microswitch to moved back in its pressure load the standing still in the open position of the microswitch (5) switching piston (31) un depending on the position of the first pressure piston (24) (5) closing position, wherein a second pressure piston ( 47 ) be impacting pressure chamber ( 53 ) from a consumer originating from that United and through a check valve ( 61 ) certain counterpressure to a tank ( 16 ) flowing back pressure medium, which consumer has a higher minimum feed pressure than the rest of the consumption cher needed. 2. Pressure control device according to claim 1, characterized in that the second pressure piston ben ( 47 ) via a lever arrangement ( 42 , 26 ) with the switching piston ( 31 ) is connected. 3. Pressure control device according to claim 1 or 2, characterized in that the first pressure piston ( 24 ) and the switching piston ( 31 ) are interconnected by a lost motion clutch and a friction member ( 36 ) is present which acts on the switching piston ( 31 ). 4. Pressure control device according to claim 3, characterized in that the friction member ( 36 ) is arranged in an opening of the housing ( 1 ) of the switching device ( 2 ) and is pressed radially by means of a spring ( 37 ) against the outer surface of the switching piston ( 31 ). 5. Pressure control device according to claim 2, characterized in that the lever arrangement ( 42 , 46 ) has a pivotable lever ( 42 ) which engages with a ball head ( 45 ) fastened at one end to a radial opening ( 43 ) of the switching piston ( 31 ) , And an actuator ( 46 ) connected to the second pressure piston ( 47 ) and attached to the other end of the lever ( 42 ). 6. Pressure control device according to claim 5, characterized in that the actuating member ( 46 ) with the second pressure piston ( 47 ) is connected such that the second pressure piston ( 47 ) during a movement in the sense of switching on the switch ( 5 ) via a first spring ( 48 ) acts on the actuator ( 46 ) and in the reverse movement directly on the actuator ( 46 ). 7. Pressure control device according to claim 6, characterized in that the force of the spring ( 48 ) is greater than the frictional engagement between the friction member ( 36 ) and the second piston ( 31 ). 8. Pressure control device according to claim 5, characterized in that the spherical end ( 45 ) of the lever ( 42 ) in the radial opening ( 43 ) is arranged with axial play. 9. Pressure control device according to claim 6, characterized in that the second pressure piston ben ( 47 ) is acted upon by a further spring ( 56 ) in the same direction as by the first spring ( 48 ). 10. Pressure control device according to claim 5, characterized in that the actuating member ( 46 ) has a pin ( 52 ) which engages in an oval opening ( 51 ) of the lever ( 42 ).