DE19719745B4 - Pressure switching valve arrangement with overload protection function for a hydraulic consumer - Google Patents

Abstract

Pressure switching valve arrangement with overload protection function for a hydraulic consumer (7, 70, 107), in particular for a lifting cylinder of a hydraulic tilting device of a vehicle,
wherein the pressure switching valve arrangement (1; 101) comprises a supply line (3; 103) for supplying a hydraulic pressure medium from a pump (5; 105) conveying the pressure medium from a container (10; 110) to the hydraulic consumer (7,70; ) And in the supply line (3, 103) has a check valve (9, 109) to be opened in the direction of the hydraulic consumer (7, 70, 107),
wherein the pressure switching valve arrangement (1; 101) further comprises a circulation line (20; 120) branched between the pump (5; 105) and the check valve (9; 109) from the supply line (3; 103) and leading to the container (10; ) And in the circulation line a pressure relief valve (22, 122) which opens against the force of a valve closing spring (24, 124) to the container (10, 110) when the pressure in the supply line (3, 103) one of the power of ...

Description

The The invention relates to a pressure switching valve arrangement with overload protection for one hydraulic consumer, in particular for a lifting cylinder of a hydraulic Tilting device of a vehicle, wherein the pressure switching valve arrangement a supply line for the supply of a hydraulic pressure medium from a pressure medium a container promoting Pump to the hydraulic consumer - and in the supply line a direction towards the hydraulic consumer to open check valve wherein the pressure switching valve arrangement further comprises a between the Pump and the check valve branched off from the supply line and leading to the container circulation line - and in the circulation line a pressure relief valve which opens against the force of a valve closing spring toward the container when the pressure in the supply line exceeds a reference pressure value dependent on the force of the valve closing spring, the pressure switching valve assembly further having an overpressure valve having cooperating means after opening the pressure relief valve this in the open Holding position, until the in the supply line between the check valve and the consumer prevailing pressure due to discharge of pressure medium from the consumer is lowered below a certain value.

A pressure switching valve arrangement of the aforementioned type, as for example from the DE 31 02 581 C2 is known, has proven itself as a tilting valve for a hydraulic tilting device for tilting a vehicle-mounted structure in practice. As soon as the pressure in the supply line to the lifting cylinder during tipping exceeds a permissible maximum value, the pressure relief valve opens and then closes the check valve, so that the pressure on the lifting cylinder does not increase further - but on the other hand is maintained. The co-operating with the pressure relief device has the subject of the DE 31 02 581 C2 a displaceably guided in a chamber piston, which divides the chamber into a pressure of the pressure medium in the circulation line upstream of the pressure relief valve exposed first chamber area and the pressure of the pressure medium in the supply line between the check valve and the consumer exposed second chamber area and a through Having the first chamber area to the pressure relief valve extending approach, which acts on the excess pressure when the reference pressure value is exceeded and holds in the open position until the pressure prevailing in the supply line between the check valve and the consumer pressure by discharging pressure medium from the consumer below a certain value becomes. The acted upon by the pressure on the lifting cylinder piston follows with its approach to the closing body of the pressure relief valve when it opens to the container, and holds the pressure relief valve in the open position, to the lifting cylinder pressure relief is brought about by discharge of pressurized fluid. As long as the pressure relief valve is opened, the pump can pump the hydraulic pressure medium substantially without pressure over the circulation line to the container. The pressure switching valve arrangement thus ensures that no inadmissible overpressure on the lifting cylinder as a consumer, such as when reaching the extended end position, and that the pump after opening the pressure relief valve can work in a gentle manner substantially without pressure until a new tilting process is initiated.

The pressure relief valve serves in the manner described above the overload protection on the lifting cylinder the tilting device, wherein the force of the valve closing spring of the pressure relief valve determines the maximum pressure at the lifting cylinder (hydraulic Consumer) for safety reasons not exceeded shall be.

From the US 3,550,617 is a pressure relief valve is known, which has a mecha nically actuated actuating device for increasing the spring bias of the valve closing spring. This actuator is used to temporarily increase the response pressure of the pressure relief valve to temporarily operate the only connected hydraulic consumer with a relative to the "normal operation" increased maximum pressure.

In the transport of goods, there are tractor units that can pull either semi-trailer with a high-pressure tilting or semi-trailer with a low-pressure tilting device and for each of these semitrailer types have a respective pressure switching valve arrangement, which differ from each other by the opening pressure of the respective pressure relief valve. In the so-called high-pressure systems, the maximum permissible operating pressure is, for example, in a range of 250-300 bar, whereas in the so-called low-pressure systems a maximum operating pressure in the range of, for example, 150-200 bar may occur. The various Druckschaltventilanordnungen for high-pressure operation and low-pressure operation, for example, be connected via a reversible shuttle valve to a common container and to a common pump, depending on the position of the shuttle valve either the pressure switching valve assembly for the high pressure operation or the pressure switching valve arrangement is selected for the low pressure operation, to control a corresponding tilting system of a semitrailer.

Several Druckschaltventilanordnungen of the type mentioned in a Towing vehicle, for example, in a tipper team in question in which the towing vehicle and the trailer with tilting devices have different pressure levels.

Of the Invention is based on the object, a pressure switching valve arrangement of the type mentioned above, optionally for the controller Hydraulic consumer with different maximum permissible pressures suitable - and can be realized with simple means.

outgoing from a pressure switching valve arrangement having the features of the preamble of claim 1, this object is achieved in that the pressure switching valve assembly for alternating operation of at least two hydraulic consumers usable with different maximum permissible pressures and the closing force of the Valve closing spring of the pressure relief valve for Purposes of adaptation of the overload protection function adjustable to the respective consumer, wherein the pressure switching valve arrangement a the clamping state of the valve closing spring influencing, by Actuation with a control pressure hydraulically controllable adjusting device for setting the closing force the valve closing spring wherein the control pressure in the respective operation of the consumer with the higher one maximum allowable pressure derived from the operating pressure of the consumer.

Returning on the example with the tractor for different semitrailers with hydraulic tilting devices of different pressure levels ranges a single pressure switching valve assembly according to the invention in conjunction with a corresponding pump and an associated container to the tilting device of the respective semitrailer type reliable and safely to control, wherein in the hydraulically controllable actuator the control pressure for the adjusting device, for example, from the operating pressure of each connected to the pressure switching valve arrangement tilting device can be derived.

It gives more examples for the use of a pressure switching valve assembly according to the invention Tipper vehicles, wherein the pressure switching valve arrangement alternately for controlling hydraulic tilting devices with different ones maximum operating pressure levels can be used. Such Example would be a tipper team with towing vehicle and trailer, wherein the tilting device the towing vehicle a different pressure level than the tilting device of the trailer having. In such a case, the two tilting devices would be over one controllable diverter valve or shuttle valve with the output of To connect pressure switching valve arrangement, so that depending on the setting of the switching valve the one or the other tilting device respectively over the Pressure switching valve arrangement is controllable. The adjusting device for Influencing the clamping state of the valve closing spring of the pressure relief valve depends on from the maximum allowable Pressure level of the connected to the pressure switching valve arrangement Consumer (tilting device) to control. It's enough in this too Case a single pressure switching valve assembly according to the invention and a single pump for the alternate operation of two tilting devices with different hydraulic pressure levels.

The Valve closing spring of the pressure relief valve is preferably one between a closing body of the pressure relief valve and a Federabstützelement the actuator effective compression spring in the form of a coil spring, wherein the spring support element between a first spring adjustment position and a second spring adjustment position is movable to change the clamping state of the valve closing spring.

to Realization of a simple construction is proposed that the spring support a slidably guided spring plate in the direction of the axis of the valve closing spring is that of a piston of a hydraulic actuator cylinder Actuator from the first Federeinstellposition in the second Federeinstellposition is to move.

According to one preferred embodiment is based the spring plate in the first Federeinstellposition with his the Valve closing spring side facing away from a stop, wherein the spring plate of the stop away in the second Federeinstellposition by pressing the Actuator is movable.

Preferably the stop is a between the actuating cylinder and the spring plate arranged disc with a passage opening for a spring plate acting on Piston rod of the piston of the adjusting cylinder, the position the disc in the axial direction of the valve closing spring, if necessary, changeable is to the spring force of the valve closing spring in the first Federeinstellposition of Adjust spring plate. In a corresponding manner, the actuating cylinder be adjustable in position to the second spring adjustment position to adjust.

Preferably, the cooperating with the pressure relief device comprises a in a chamber slidably guided piston dividing the chamber into a first chamber area exposed to the pressure of the pressure medium in the circulation line upstream of the pressure relief valve and a second chamber area exposed to the pressure of the pressure medium in the supply line between the check valve and the consumer and passing through the first chamber area to the pressure relief valve extending approach which acts on the excess pressure when the reference pressure value is exceeded and holds in the open position until the pressure prevailing in the supply line between the check valve and the consumer pressure is lowered by discharging pressure medium from the consumer below a certain value.

embodiments The invention will be explained in more detail below with reference to the drawings. In this shows:

1 a sectional view of a first embodiment of a pressure switching valve assembly according to the invention, wherein the pressure switching valve arrangement according to 1 is designed as a tilting valve block for a hydraulic tilting device of a vehicle,

2 an adjusting device for influencing the clamping state of the valve closing spring of a pressure relief valve after 1 , wherein the adjusting device in 2 is shown in the pressurized state, and

3a - 3d Sectional views of a second embodiment of a designed as a tilting valve for a tilting device of a vehicle pressure switching valve assembly according to the invention in different operating conditions.

The tilting valve block 1 to 1 has a supply line 3 on that a pump 5 with a single-acting lifting cylinder 7 for tilting a superstructure on a vehicle. The supply line 3 contains a check valve 9 that is against the force of the spring 11 from the pressure of the pump 5 from the container 10 subsidized oil in the direction of the lifting cylinder 7 is to open the lifting cylinder 7 to supply for a tipping process with pressure oil. The lifting cylinder 7 is at the connection 17 (Low pressure output) of a switchable shuttle valve 13 connected, whose connection 16 with the exit 15 of the valve block 1 connected is. In the in 1 shown position connects the shuttle valve 13 the valve block outlet 15 with the lifting cylinder 7 , The connection 19 (High pressure outlet) of the shuttle valve 13 is in the in 1 locked position shown. At the shuttle valve 13 it may be, for example, a three-way stopcock or a pneumatic switching valve.

Between the pump 5 and the check valve 9 is in the tilt valve block 1 one to the container 10 leading circulation line 20 from the supply line 3 branched off, wherein in the circulation line a pressure relief valve 22 lies against the force of a valve closing spring 24 towards the tank 10 to open.

In the at 26 shown chamber is one with the pressure relief valve 22 cooperating piston 28 guided axially displaceable. The chamber 26 is on the one hand with the supply line 3 at a point between the check valve 9 and the connection 15 of the valve block 1 - And on the other hand with the circulation line 20 upstream of the pressure relief valve 22 connected, the piston 28 the chamber 26 in one the pressure of the oil in the circulation line 20 upstream of the pressure relief valve 22 exposed first chamber area 30 and a pressure of the oil in the supply line 3 between the check valve 9 and the lift cylinder 7 exposed second chamber area 32 divided. The second chamber area 32 facing effective end face F of the piston 28 is greater than the effective area F 'of the pressure relief valve 22 ,

The piston 28 has a rod-shaped approach 34 who with his in 1 upper end face on the closing body 23 the pressure relief valve 22 is applied. According to the embodiment 1 is a spring 36 provided the piston 28 constantly towards the closing body 23 suppressed.

Between the check valve 9 and the connection 15 of the valve block 1 is from the supply line 3 a return line 38 diverted into the circulation line 20 at a point downstream of the pressure relief valve 22 opens and a control valve 40 contains, by operating the spindle 42 is optional to open or close.

The pressure switching valve arrangement according to 1 works in the following way: To "extend" the lift cylinder 7 becomes the control valve 40 brought into the closed position. The pressure of the pump 5 pumped oil opens the check valve 9 against the force of the spring 11 so that oil through the shuttle valve 13 to the lift cylinder 7 arrives to the lifting cylinder 7 "Extend". Comes the lifting cylinder 7 in its extended end position, so increases the pressure in the supply line 3 between the pump 5 and the lift cylinder 7 , whereupon the pressure relief valve exposed to this pressure 22 against the force of the closing spring 24 opens. The check valve 9 experiences pumping pressure relief, so that it under the action of the spring 11 and the stroke cylinder side pressure in the closed state, wherein in the supply line section between the check valve 9 and the lift cylinder 7 the previously built high pressure is substantially maintained. Because in the chamber areas 30 and 32 the chamber 26 a corresponding pressure difference arises, the piston follows 28 with his rod-shaped approach 34 the closing body 23 the pressure relief valve 22 to the pressure relief valve 22 against the force of the closing spring 24 to hold in the open position. That of the pump 5 subsidized oil now flows through the circulation line essentially without pressure 20 through to the container 10 back. Due to the fact that the second chamber area 32 facing effective end face F of the piston 28 is greater than the effective area F 'of the overpressure valve, it is ensured that the piston 28 the pressure relief valve 22 regardless of any pressure fluctuations in the circulation line 20 Reliable in the open position against the pressure of the closing spring 24 holds.

Should the oil from the pressure cylinder 7 be discharged to lower the tilted position structure of the vehicle in question, so the control valve 40 opened, whereupon the oil from the lifting cylinder 7 towards the tank 10 over the shuttle valve 13 , the return line 38 and the connected section of the circulation line 20 can flow back. The pressure in the supply line 3 between the check valve 9 and the lift cylinder 7 is lowered, so that the closing spring 24 the pressure relief valve 22 the piston 28 push back again until the pressure relief valve 22 the circulation line 20 closes. That of the pump 5 pumped oil then flows through the check valve 9 , the return line 38 and the connected section of the circulation line 20 to the container 10 back.

Should now the lifting cylinder 7 be "extended" again, so this is the control valve 40 to close again.

The advantages of a pressure switching valve arrangement of the type described above are that after reaching the extended end position of the lifting cylinder 7 the pressure relief valve 22 responds and then no further pressure increase on the lifting cylinder 7 takes place and that the pressure relief valve 22 after "extending" the lifting cylinder 7 automatically held in the open position so that the pump 5 the oil can promote substantially unpressurized in circulation.

The previously described operation of the pressure switching valve arrangement according to 1 and the addressed in connection with the described operation elements are essentially made of DE 31 02 581 C2 known.

Compared to the prior art, the pressure switching valve arrangement differs 1 However, according to the invention by the below explained in more detail hydraulically controllable adjusting device 50 for influencing the clamping state of the valve closing spring 24 the pressure relief valve 22 ,

The adjusting device 50 includes a spring plate 52 at which the valve closing spring 24 with her from the valve closing element 23 supported end. The spring plate 52 is in the at 54 to be recognized closing spring receiving chamber in the direction of the axis of the form of a helical compression spring valve closing spring 24 slidably guided. In the state according to 1 is the spring plate 52 in a first Federeinstellposition, where he with his the pressure relief valve 22 facing away from a stop 56 in the form of a spring chamber 54 fixed disc is applied. The adjusting device 50 further comprises a cylinder 58 with a displaceably guided piston 60 who a in 1 down from the cylinder 58 led out piston rod 62 having. The piston rod 62 extends with its front end through a central opening of the stop plate 56 and acts on the spring plate 52 on the valve closing spring 24 opposite side. The cylinder 58 is hydraulically over the line 66 with the shuttle valve 13 connected. In the position of the shuttle valve 13 according to 1 is the lead 66 but depressurized, with the result that the valve closing spring 24 the piston 60 the adjusting device 50 displaced upwards into an ineffective position. The clamping state of the valve closing spring 24 with the spring plate in the first spring setting position 52 corresponds to a predetermined opening pressure for the pressure relief valve 22 , In the state according to 1 this opening pressure is such that a low-pressure tilting system, to which the lifting cylinder 7 belongs and operates with a maximum operating pressure in the range of, for example, 150 to 200 bar, reliable and safe on the pressure switching valve assembly after 1 can be controlled.

If necessary, the pressure switching valve arrangement can 1 However, for the operation of a working example, with a maximum operating pressure in the range of 250-300 bar high-pressure tilting device can be used. In 1 is at 69 a related lifting cylinder 70 a high-pressure tilting device (for example, a trailer of a tractor equipped with the lifting cylinder) on the line 66 connected. For alternative operation of the high-pressure tilting device, the shuttle valve 13 switched so that it is the connection 15 of the valve block 1 with the connection 19 connects and the connection 17 to the low pressure lift cylinder 7 locks. Such a configuration now has the consequence that in the Versor supply line 3 between the check valve 9 and the lift cylinder 70 established pressure over the line 66 to the piston 60 the adjusting device 50 passes and the piston 60 in 1 along the axis of the valve closing spring 24 moved down to stop position. This is the spring plate 52 from the first spring setting position according to 1 in a second Federeinstellposition according to 2 shifted down and thereby the clamping state of the valve closing spring 24 changed so that the opening of the pressure relief valve 22 required pressure is increased. In the second spring setting position of the spring plate 52 is the clamping state of the valve closing spring 24 adjusted so that the high pressure system (at 70 ) reliably and safely via the pressure switching valve assembly 1 can be controlled.

The stop disc 56 is in the spring chamber 54 screwed. The stop disc 56 has a radial gap on one side 74 which can be spread by a stud (not shown) around the stopper plate 56 secure with clamping effect in their thread. After loosening the stud, the stop disc 56 bolted in their thread to adjust the first spring adjustment position if necessary. The cylinder 58 is also one in the Federkammer 54 screwed-in element corresponding to the axis of the valve closing spring 24 screwed to adjust the second spring adjustment position of the spring plate.

In the 3a - 3d a second embodiment of a pressure switching valve arrangement according to the invention is shown.

Elements in the 3a - 3d Effectively elements in 1 are marked with corresponding reference numerals, increased by 100. Regarding the mode of action in the 3a - 3d Therefore, the second embodiment shown can be largely based on the description of the embodiment 1 Be referred. The following description is basically limited to differences between the first and second embodiments.

In the second embodiment of the 3a - 3d it is also a valve assembly 101 for a tilting device for tilting a superstructure on a vehicle. In the in the 3a - 3d In the configuration shown, the tilting device is a low-pressure system with a maximum operating pressure in the range, for example, of 150-200 bar.

The pressure switching valve arrangement 101 is pneumatically controllable and has for this purpose a double-acting pneumatic cylinder 80 with an axially displaceable piston 82 and two compressed air connections A, B on, via the compressed air alternately into that of the piston 82 separate compressed air chamber areas 80A and 80B can be added or deducted. The pneumatic assembly of cylinders 80 and pistons 82 is remote controllable, with the connections A and B via the lines 84 and 85 with a pneumatic directional control valve 86 are connected, which is a manually operated lever 88 having. In the in 3a shown position of the control lever 88 connects the directional control valve 86 one on the line 89 connected (not shown) pneumatic pressure source with the line 84 , so that compressed air through the port A of the pneumatic cylinder 80 in the chamber area 80A arrives. At the same time there is the directional control valve 86 The administration 85 free, so that air from the chamber area 80B of the pneumatic cylinder 80 can flow out. The piston 82 moves in the direction of the arrows X to the right according to 3a , one above the piston rod 142 with the piston 82 connected valve body 140a of the control valve 140 in the closed position to the valve seat 140b is pulled.

In the configuration according to 3a is the pressure switching valve arrangement 101 in Kippbetriebszustand in which the pump 105 Oil from the container 110 to the lift cylinder 107 the tilting means pumps to "extend" the latter, so that the vehicle body in question is tilted. The supply line 3 in 1 corresponding supply flow path is easily indicated by the arrows 103 understand. In this supply flow path is the check valve 109 , this in 3a under the pressure of the pump 105 subsidized oil against the force of the spring 111 to the lifting cylinder 107 is open.

In the state according to 3b is the lifting cylinder 107 held in a tilted position, which does not yet correspond to the end position. The holding state according to 3b is brought about by the fact that the lever 88 is brought into a neutral position. In this neutral position of the control lever 88 leads the directional control valve 86 Pressure relief in both chamber areas 80A . 80B of the pneumatic cylinder 80 cause. The piston 82 is doing of a neutral position spring 90 in the neutral position according to 3b emotional. The neutral position spring 90 rests on a spring plate 91 off, in the spring chamber 92 in the direction of the axis of the piston rod 142 is movable. In 3a is the spring plate 91 from the pneumatically actuated piston 82 against the force of the neutral spring 90 taken in the direction of the arrows X to the right.

In the position of the piston 82 according to 3b is the control valve 140 open, so that from the pump 105 to the supply line 103 pumped oil through the control valve 140 through in the return line branch 120c and through the return line branch 120c through to the container 110 can flow back. The pump side pressure on the check valve 109 is after opening the control valve 140 dropped so that the check valve 109 under the force of the spring 111 has passed into the closed state, but the pressure on the lifting cylinder 107 is held. The vehicle body is therefore held in the respective tilted position.

3c shows the pressure switching valve assembly in a state in which the lifting cylinder 107 has reached its extended end position after continuation of the tilting process. The pressure in the supply line 103 has risen so much that the pressure relief valve 122 in the circulation line 120 was opened. In the state according to 3c promotes the pump 105 the oil essentially without pressure on the circulation line 120 in the container 110 back. The closing body 123 the pressure relief valve 122 is from the piston 128 against the force of the valve closing spring 124 held in the open position. The chamber area 132 the piston 128 containing chamber 126 is about the pipe sections 132 ' with the supply line 103 at a point between the check valve 109 and the lift cylinder 107 hydraulically connected, so that the chamber area 132 facing surface of the piston 128 essentially from that on the lifting cylinder 107 prevailing pressure is applied.

In the state according to 3c becomes the lifting cylinder 107 held in its extended tilt-end position, the pump 105 is relieved in a gentle way, as it pumps the oil in the circulation substantially without pressure. The pneumatic system 80 - 89 is in the state according to 3a , where the control valve 140 closed is.

3d shows the pressure switching valve assembly in a lowering mode. The lever 88 the pneumatic directional control valve 86 is in a position in which the pneumatic valve 86 Compressed air in the pipe 85 and via port B into the chamber area 80B initiates and the chamber area 80A pneumatically relieved. The piston 82 is doing in the direction of arrows Y in 3d shifted to the left, with the neutral spring 90 compressed, the control valve 140 opened and the check valve 109 forcibly piloted in the open position, so that the oil from the lifting cylinder 107 through the check valve 109 and through the control valve 140 through in the return line branch 120c which can flow the oil to the container 110 returns. The lifting cylinder 107 returns while lowering the relevant vehicle body in its retracted position. By forcibly opening the check valve 109 by means of pneumatic control is the pressure in the pipe sections 132 ' to the actuator piston 128 and the pressure on the pressure relief valve 122 fallen so far that the valve closing spring 124 on the pressure relief valve 122 the pressure relief valve 122 closed again.

Based on the condition 3d can by folding the control lever 88 again the tilting operation initiated and the state after 3a be brought about.

The adjusting device 150 the pressure switching valve arrangement 101 corresponds in its structure and in its operation of the actuator 50 the pressure switching valve arrangement according to 1 respectively. 2 , As mentioned, in the illustrations after the 3a - 3d it has been assumed that the lifting cylinder 107 Part of a low pressure system is. In this case, it is not necessary to use the cylinder 158 the adjusting device 150 to connect to a pressure source.

Instead of the lifting cylinder 107 can in the already previously mentioned manner a hydraulic load a high pressure system with a maximum operating pressure of for example 250-300 bar to the pressure switching valve assembly 101 be connected. In this case, then the cylinder would be 158 the adjusting device 150 to connect to a pressure source whose pressure the piston 160 and with it the spring plate 152 from the in 3a - 3d shown shifted first spring adjustment position in the second Federeinstellposition to the valve closing spring 124 the pressure relief valve 122 to tighten more.

As already mentioned with reference to 1 described, the cylinder can 158 the adjusting device 150 be connected to the operating pressure of the high pressure system. However, this is not absolutely necessary. The pressure to move the spring plate 152 in the second spring adjustment position can alternatively be diverted from another source of pressure. In an alternative embodiment, the hydraulic cylinder 158 the adjusting device 150 be replaced by a pneumatic cylinder which would be connected to a source of compressed air to adjust the pressure switching valve assembly to high pressure operation.

Also an electric motor drive of the spring plate 52 respectively. 152 would be conceivable within the scope of the invention, for example, involving a spindle drive. Such a solution allows a continuous adjustment of the clamping state of the valve closing spring 24 respectively. 124 , depending on the print level type of the connected hydraulic consumer.

Claims (8)

Pressure switching valve arrangement with overload protection function for a hydraulic consumer ( 7 . 70 ; 107 ), in particular for a lifting cylinder of a hydraulic tilting device of a vehicle, wherein the pressure switching valve arrangement ( 1 ; 101 ) a supply line ( 3 ; 103 ) for the supply of a hydraulic pressure medium from a pressure medium from a container ( 10 ; 110 ) pump ( 5 ; 105 ) to the hydraulic consumer ( 7 . 70 ; 107 ) - and in the supply line ( 3 ; 103 ) towards the hydraulic consumer ( 7 . 70 ; 107 ) to open the check valve ( 9 ; 109 ), wherein the pressure switching valve arrangement ( 1 ; 101 ) one between the pump ( 5 ; 105 ) and the check valve ( 9 ; 109 ) from the supply line ( 3 ; 103 ) branched off and to the container ( 10 ; 110 ) leading circulation line ( 20 ; 120 ) - and in the circulation line a pressure relief valve ( 22 ; 122 ), which against the force of a valve closing spring ( 24 ; 124 ) to the container ( 10 ; 110 ) opens when the pressure in the supply line ( 3 ; 103 ) one of the force of the valve closing spring ( 24 ; 124 ), wherein the pressure switching valve arrangement further comprises a pressure relief valve ( 22 ; 122 ) cooperative organization ( 26 - 34 ; 126 - 134 ), which after opening the pressure relief valve 122 ; 122 ) holds it in the open position until it is in the supply line ( 3 ; 103 ) between the check valve ( 9 ; 109 ) and the consumer ( 7 . 70 ; 107 ) prevailing pressure by discharge of pressure medium from the consumer ( 7 . 70 ; 107 ) is lowered below a certain value, characterized in that the pressure switching valve arrangement for the alternate operation of at least two hydraulic consumers ( 7 . 70 ; 107 ) with unterschiedli chen maximum allowable pressures and the closing force of the valve closing spring ( 24 ; 124 ) of the pressure relief valve ( 22 ; 122 ) for the purpose of adapting the overload protection function to the respective consumer ( 7 . 70 ; 107 ) is adjustable, wherein the pressure switching valve arrangement a the clamping state of the valve closing spring ( 24 ; 124 ) influencing, by applying a control pressure hydraulically controllable adjusting device ( 50 ; 150 ) for adjusting the closing force of the valve closing spring ( 24 ; 124 ), wherein the control pressure in the respective operation of the consumer ( 70 ) with the higher maximum allowable pressure of the operating pressure of the consumer ( 70 ) is derived. Pressure switch valve arrangement according to claim 1, characterized in that the valve closing spring ( 24 ; 124 ) one between a closing body ( 23 ; 123 ) of the pressure relief valve ( 22 ; 122 ) and a spring support element ( 52 ; 152 ) the actuator ( 50 ; 150 ) is an effective compression spring in the form of a helical spring, wherein the spring support element between a first and a second Federeinstellposition is movable to change the clamping state of the valve closing spring. Pressure switch valve arrangement according to claim 2, characterized in that the spring support element ( 52 ; 152 ) in the direction of the axis of the valve closing spring ( 24 ; 124 ) slidably guided spring plate is that of a piston ( 60 ; 160 ) of a hydraulic or pneumatic actuating cylinder ( 58 ; 158 ) the actuator ( 50 ; 150 ) is to be moved from the first spring adjustment position to the second spring adjustment position. Pressure switching valve arrangement according to claim 3, characterized in that the spring plate ( 52 ; 152 ) in the first spring adjustment position with its valve closing spring ( 24 ; 124 ) facing away from a stop ( 56 ; 156 ) and that the spring plate away from the stop in the second Federeinstellposition by actuation of the actuating cylinder ( 58 ; 158 ) is movable. Pressure switching valve arrangement according to claim 4, characterized in that the stop ( 56 ; 156 ) one between the actuating cylinder ( 58 ; 158 ) and the spring plate ( 52 ; 152 ) arranged disc with a passage opening for a spring plate acting on the piston rod ( 62 ; 162 ) of the piston ( 60 ; 160 ) of the adjusting cylinder ( 58 ; 158 ), wherein the position of the disc ( 56 ; 156 ) in the axial direction of the valve closing spring ( 24 ; 124 ) is changed as needed to the spring force of the valve closing spring ( 24 ; 124 ) in the first spring setting position of the spring plate to adjust. Pressure-switching valve arrangement according to one of the preceding claims, characterized in that the actuating device ( 50 ) to the supply line ( 3 ) between the check valve ( 9 ) and the consumer ( 70 ) is connectable to the hydraulic control pressure for moving the Federabstützelementes ( 52 ) from the first spring adjustment position to the second spring adjustment position. Pressure switch valve arrangement according to one of the preceding claims, characterized in that the check valve ( 9 ) on the output side a shuttle valve ( 13 ) in the supply line ( 3 ) connected to the alternate operation of two connected consumers ( 7 ; 70 ) is switchable with different maximum allowable pressures, wherein the adjusting device ( 50 ) hydraulically with the outlet of the shuttle valve ( 13 ), where the consumer ( 70 ) with the higher maximum allowable pressure is sen. Pressure switching valve arrangement according to one of the preceding claims, characterized in that the pressure relief valve ( 22 ; 122 ) cooperative organization ( 26 - 34 ; 126 - 134 ) one in a chamber ( 26 ; 126 ) slidably guided piston ( 28 ; 128 ) having the chamber ( 26 ; 126 ) in a the pressure of the pressure medium in the circulation line ( 20 ; 120 ) upstream of the pressure relief valve ( 22 ; 122 ) exposed first chamber area ( 30 ; 130 ) and the pressure of the pressure medium in the supply line ( 3 ; 103 ) between the check valve ( 9 ; 109 ) and the consumer ( 7 . 70 ; 107 ) second chamber area ( 32 ; 132 ) and extending through the first chamber area ( 30 ; 130 ) to the pressure relief valve ( 22 ; 122 ) ( 34 ; 134 ), which opens the pressure relief valve () which opens when the reference pressure value is exceeded ( 22 ; 122 ) and held in the open position until the in the supply line ( 3 ; 103 ) between the check valve ( 9 ; 109 ) and the consumer ( 7 . 70 ; 107 ) prevailing pressure by discharge of pressure medium from the consumer ( 7 . 70 ; 107 ) is lowered below a certain value.