EP0841453A2 - Valve device for a fluid pressure actuated door system - Google Patents

Abstract

A valve for a pressurised medium operating a door installation has various features. At least one pressure inlet (1) is available, which can be connected to a supply of the pressurised medium. There is at least one outlet available. There is available at least one working connection (40) that can be joined to at least one door adjusting device (80), like a positioning cylinder. The valve has at least two control connections (11, 21) which can be joined to a control unit (an electronic one, for example) and which serve to control the flow of the pressurised medium through the valve. Through the control connections the valve has means to join the work connection(s) alternately with the inlet (s) or outlet(s). At least at two places the valve has a flow cross-section and a changeover valve is available to switch between the one or other of them. This can be operated by the control pressure created by the control signal at one control connection.

Description

The invention relates to a valve device for a by a pressure medium operated door system according to the Preamble of claim 1.

Such a valve device is from DE 37 08 989 A1 known.

A preferred area of application for valve devices The generic type are pressure-operated door systems in motor vehicles, especially in buses. The operation of the door in such a door system is usually done by an actuating cylinder is pressurized by the valve device. The valve device can be used to open or close the door the pressure in one or more chambers of the actuating cylinder can be changed. It is desirable that the door does not open or close stops abruptly in their respective end positions, but shortly before reaching the respective end position a dampened movement with reduced speed executes. Otherwise, when opening or closing However, the door should move as quickly as possible.

In the known valve device, such a Damping near the end positions of the door, the approximate the respective end positions of the actuating cylinder correspond, achieved in that the pressure medium outlet the valve device has two parallel outlet flow paths has, of which the one with a Throttle is provided and the other by an electric one actuatable solenoid valve either closed or opened without throttling when the solenoid valve is actuated is. By actuating the solenoid valve thus a larger passage cross section for the outflowing Pressure medium set. By appropriate control of the solenoid valve can be from an unthrottled thus to a throttled pressure reduction in the Close to the end positions of the actuating cylinder. As a result, the positioning speed of the Actuating cylinder and thus the door reduced.

The known valve device has the disadvantage that next to the the direction of movement of the actuating cylinder controlling valves an additional solenoid valve that is complex and expensive at the pressure medium outlet of the valve device necessary is. The additional solenoid valve has an electromagnet by a electronic control unit can be operated electrically got to. This is another control output on the electronic Control unit required. Hence the Effort and the cost of producing such Valve device and a suitable control device quite high.

The invention is therefore based on the object Valve device for an actuatable by a pressure medium Specify door system in the case of very little Effort and without using additional control connections on the valve device, in particular without Using an additional electromagnet that pressure medium flowing through the valve device at least can flow through throttled at times.

This object is achieved by the specified in claim 1 Invention solved. Training and advantageous Embodiments of the invention are in the subclaims specified.

The invention has the advantage that for switching between a first and a second passage cross section a changeover valve is provided for the Actuation of those already present in the valve device Components can be used. This is in particularly favorably by the design of the changeover valve achieved as a pressure-operated valve, operated by the same control pressure which is already applied to the valve device available taxable funds. Because of this Control pressure by a control signal on one of the also existing control connections of the valve device is therefore no further control connection necessary on the valve device. The changeover valve can also be very simple and does not need any other parts such as B. an electromagnet for actuation. Because the operation of the changeover valve from by a control device generated control signals at the control connections depends, it is possible to choose a desired method Control of the changeover valve by appropriate To achieve training of the control device. Using an electronic control unit with a a control program executing microprocessor as Control device is used to implement a control method only an additional one for the changeover valve Program step in the control program necessary.

In an advantageous. Further development of the invention is the changeover valve as a result of simultaneous or almost simultaneous application of two control connections can be operated with control signals. This allows the Actuation of the changeover valve necessary control signals very simple, d. H. without complex control signal patterns such as pulse width modulated signals will. Through the simultaneous or almost simultaneous Actuation of two control connections with control signals it is possible to operate with the Switching valve such switching states of the valve device, which are undesirable in this operating mode or to limit it to a very short period of time, so that the effects of unwanted switching states can be neglected.

The invention is basically suitable in context with a valve device for actuating a Door system to be used advantageously, the one single work connection to connect to a Has actuating cylinder for actuating the door system. In In this case, however, the Actuating cylinder or the door system a return spring contains the actuating force of the through the work connection actuating volume supplied with pressure medium Actuating cylinder counteracts. Door systems in motor vehicles however, often have no such return spring on. In this case, actuating cylinders come with two Pressure medium connections for supplying two to each other counteracting control volumes are used. These two Pressure fluid connections are usually with a two working connections valve device connected. Such a valve device is such. B. known from DE 34 20 632 A1.

Öffnen der Türanlage durch Verbinden des einen Arbeitsanschlusses mit dem Druckmitteleinlaß und des weiteren Arbeitsanschlusses mit dem Druckmittelauslaß;

Schließen der Türanlage durch Verbinden des einen Arbeitsanschlusses mit dem Druckmittelauslaß und des weiteren Arbeitsanschlusses mit dem Druckmitteleinlaß;

Stillstand und manuelle Betätigbarkeit der Türanlage durch Verbinden beider Arbeitsanschlüsse mit dem Druckmitteleinlaß.

This valve device has two 3/2-way valves for controlling the pressure medium flow, which are each assigned to a working connection of the valve device and alternately connect the working connection assigned to them to the common pressure medium inlet or the pressure medium outlet of the valve device. By means of three control valves acting on the 3/2-way valves and operated via three control connections, this valve device can operate the actuating cylinder and thus the door system in three operating modes:

Opening the door system by connecting the one working connection to the pressure medium inlet and the further working connection to the pressure medium outlet;

Closing the door system by connecting the one working connection to the pressure medium outlet and the further working connection to the pressure medium inlet;

The door system comes to a standstill and can be operated manually by connecting both working connections to the pressure medium inlet.

The latter operating mode serves to increase the Operational safety of the door system or to avoid it of dangerous situations in the event of malfunctions in the door system. The three operating modes can be activated one of the control valves can be set.

In an advantageous development of the invention The type of valve device of DE 34 20 632 A1 is Changeover valve by simultaneous or almost simultaneous Actuation of the first and the third or the second and third control valve operable. By the actuation of the first or the second control valve can the 3/2-way valves defined in their respective Switch position are held and by the Actuation of the third control valve can the changeover valve operated without influencing the 3/2-way valves will. This results in undesirable switching states Valve device such as the connection of both work connections avoidable with the pressure medium outlet.

It is possible in principle, the two through the changeover valve switchable passage cross sections of the Valve device either at the pressure medium inlet, at Pressure fluid outlet or on one or both work ports to arrange the valve device. Depending on the type the arrangement can be used for different valve devices Applications are used. However, it is particularly advantageous, the first and the second Arrange passage cross section at the pressure medium outlet. In In this case the door movement is damped by Switching from the larger passage cross section to the smaller passage cross section at the pressure medium outlet performed. The larger one is always at the pressure medium inlet Passage cross section effective, so that the actuating cylinder Always pressurized even when the door movement is damped is and the door even with dampened movement does not become weak. When arranging the first and the second passage cross section would be at the pressure medium inlet For example, the actuating power of the door system when it is damped Movement decreased.

In a particularly advantageous development of the invention the changeover valve is designed as a membrane. This makes the changeover valve very simple and inexpensive to manufacture and operate very reliably.

In a further particularly advantageous further development the invention, the membrane is in one piece Sealing element for sealing the housing parts of the valve device executed. This has the advantage that no additional in the manufacture of the valve device Installation step for the installation of the changeover valve is required. You also need to manufacture of the changeover valve no other parts were made be, it just has to be the existing seal the housing parts to be expanded by the membrane.

The invention is based on an embodiment explained in more detail with the help of drawings.

Fig. 1

eine schematische Darstellung einer bevorzugten Anwendung der erfindungsgemäßen Ventileinrichtung in einer durch ein Druckmittel betätigbaren, elektrisch gesteuerten Türanlage und

Fig. 2

eine Schnittdarstellung der erfindungsgemäßen Ventileinrichtung nach Fig. 1 im unbetätigten Zustand und

Fig. 3

eine Schnittdarstellung der erfindungsgemäßen Ventileinrichtung nach Fig. 1 bei Betätigung des dritten Steuerventils und

Fig. 4

ein Diagramm des zeitlichen Ablaufs der elektrischen Signale der Türanlage gemäß Fig. 1 beim Öffnen und Schließen der Tür.

Show it:

Fig. 1

a schematic representation of a preferred application of the valve device according to the invention in an electrically controlled door system which can be actuated by a pressure medium and

Fig. 2

a sectional view of the valve device according to the invention of FIG. 1 in the unactuated state and

Fig. 3

a sectional view of the valve device according to the invention of FIG. 1 when the third control valve and

Fig. 4

a diagram of the timing of the electrical signals of the door system of FIG. 1 when opening and closing the door.

1, 2, 3 and 4 are the same reference numerals used for corresponding parts. In the Fig. 1 are pressure lines with continuous lines and electrical lines with dashed lines shown.

The valve device according to that described below Embodiment has as external connections a pressure medium inlet (1), a pressure medium outlet (2), two working connections (40, 50) and three control connections (11, 21, 31). The connections (1, 40, 50) are for connecting pressure medium lines (71, 46, 56) intended. The connections (11, 21, 31) are for connection provided by electrical lines (64, 65, 66).

In the preferred application shown in FIG. 1 the valve device (9) in one by one Pressure medium actuated door system, e.g. B. a pneumatic Door control in a bus is the pressure medium inlet (1) with a compressed air line (71) a compressed air reservoir (70) connected. The work connection (40) is via a compressed air line (46) and a throttle (45) with a compressed air connection pneumatic actuator (80) connected. On one further compressed air connection of the actuating cylinder (80) the further work connection (50) via a compressed air line (56) and a throttle (55) connected.

The pressure medium outlet (2) serves to vent the Actuating cylinder (80) and the valve device (9) and is therefore directly connected to the atmosphere. Of the Actuating cylinder (80) is designed so that when acted upon of a compressed air connection with compressed air and at the same time venting the other compressed air connection the piston (81) of the actuating cylinder (80) in an actuating direction is moved. By opposite Actuation or ventilation of the compressed air connections the piston (81) can move in the opposite direction be moved.

The actuating cylinder (80) is mechanical via a linkage with a door adjustment device to be operated (82) connected to a motor vehicle. With the door adjustment device (82) are also means (67) for sensing the respective end positions of the door mechanically connected. The means (67) for sensing can, for. B. as electrical limit switches, Hall sensors or preferably as a rotation angle sensor detecting the opening angle of the door, e.g. B. a potentiometer. The means (67) for sensing give electrical signals to an electronic control unit (60).

The electronic control unit (60) is electrical Lines (61, 62, 63) with the potentiometer (67) and via electrical lines (64, 65, 66) with the electrical actuatable control inputs (11, 21, 31) of the Valve device (9) connected.

As shown in FIG. 2, the valve device to control the pressure medium flow between the Pressure medium inlet (1), the pressure medium outlet (2) and the work connections (40, 50) two pneumatically controllable and additionally mutually influencing 3/2-way valves (41, 42, 51, 52). The two 3/2-way valves (41, 42, 51, 52) are two opposing, axially displaceable switching pistons with one piston head (42 or 52) and one piston skirt (41 or 51) executed. Each piston skirt (41 or 51) has a tapered area through which the connection between arranged in the valve device Compressed air ducts like a 3/2-way valve can be controlled. The compressed air channels in turn are either with the pressure medium inlet (1), with the pressure medium outlet (2) or with one of the working connections (40, 50) connected. The piston heads (42 or 52) are provided with a radial circumferential seal.

Via the three control valves (10, 20, 30) the as Reset devices (44, 54) facing each other End faces of the piston heads (42, 52) and the serving as adjusting devices (43, 53) facing away from each other End faces of the piston heads (42, 52) with Compressed air. This makes them Switching piston within the valve device of one first to a second switch position and vice versa adjustable. That position is the first switching position viewed by the taper in the piston skirt (41 or 51) the respective work connection (40 or 50) with the pressure medium inlet (1) of the valve device is connected. In the second switch position is the respective work connection (40 or 50) with the Pressure medium outlet (2) connected.

I Auswirkung bei Betätigung des Steuerventils (10):

Das 3/2-Wegeventil (41, 42) wird in die zweite Schaltstellung geschaltet.

Das weitere 3/2-Wegeventil (51, 52) wird in die erste Schaltstellung geschaltet:

Der Arbeitsanschluß (40) wird mit dem Druckmittelauslaß (2) verbunden.

Der weitere Arbeitsanschluß (50) ist mit dem Druckmitteleinlaß (1) verbunden.

Der Stellzylinder (80) bewegt die Tür in einer ersten Richtung, in der die Tür z. B. geöffnet wird.

II Auswirkung bei Betätigung des Steuerventils (20):

Das 3/2-Wegeventil (41, 42) wird in die erste Schaltstellung geschaltet.

Das weitere 3/2-Wegeventil (51, 52) wird in die zweite Schaltstellung geschaltet.

Der Arbeitsanschluß (40) wird mit dem Druckmitteleinlaß(1) verbunden.

Der weitere Arbeitsanschluß (50) ist mit dem Druckmittelauslaß (2) verbunden.

Der Stellzylinder (80) bewegt die Tür in einer zweiten Richtung, die der ersten Richtung entgegengesetzt ist, und schließt damit die Tür.

III Auswirkung bei Betätigung des Steuerventils (30):

Beide 3/2-Wegeventile (41, 42, 51, 52) befinden sich in der ersten Schaltstellung.

Beide Arbeitsanschlüsse (40, 50) sind mit dem Druckmitteleinlaß (1) verbunden.

Der Stellzylinder und die Tür verharren in ihrer zuletzt eingestellten Position.

Die Tür kann manuell bewegt werden. Dieser Schaltzustand kann für Sicherheitseinrichtungen zur Vermeidung von Unfällen durch im Schwenkbereich der Tür befindliche Personen oder Gegenstände benutzt werden.

The first control valve (10) acts directly on the adjusting device (43) of the 3/2-way valve (41, 42) and indirectly via the end face of the piston head (42) opposite the adjusting device (43) the restoring device (54) further 3/2 -Way valve (51, 52). The second control valve (20) acts directly on the actuating device (53) of the further 3/2-way valve (51, 52) and, analogously, indirectly on the reset device (44) of the 3/2-way valve (41, 42). With the third control valve (30), the two reset devices (44, 54) are directly pressurized. The following switching states of the valve device can thus be generated by actuating one of the control valves (10, 20, 30):

I Effect when operating the control valve (10):

The 3/2-way valve (41, 42) is switched to the second switching position.

The further 3/2-way valve (51, 52) is switched to the first switch position:

The working connection (40) is connected to the pressure medium outlet (2).

The further working connection (50) is connected to the pressure medium inlet (1).

The actuating cylinder (80) moves the door in a first direction in which the door z. B. is opened.

II Effect when operating the control valve (20):

The 3/2-way valve (41, 42) is switched to the first switching position.

The further 3/2-way valve (51, 52) is switched to the second switching position.

The working connection (40) is connected to the pressure medium inlet (1).

The further working connection (50) is connected to the pressure medium outlet (2).

The actuating cylinder (80) moves the door in a second direction, which is opposite to the first direction, and thus closes the door.

III Effect when operating the control valve (30):

Both 3/2-way valves (41, 42, 51, 52) are in the first switching position.

Both working connections (40, 50) are connected to the pressure medium inlet (1).

The actuating cylinder and the door remain in their last set position.

The door can be moved manually. This switching state can be used for safety devices to avoid accidents caused by people or objects in the swivel range of the door.

Exemplary for each of the control valves (10, 20, 30) 2 is the third control valve (30) in part shown in section. The control valve (30) has a valve piston (32) which by means of a Spring (33) is held in a first position. The valve piston (32) also serves as a movable armature an electromagnet arrangement, which also has an excitation coil (34) contains the valve piston (32) for Part surrounds. The excitation coil (34) is electrical with connected to the control input (31). By creating one electrical signal, the z. B. from an electronic Control unit can be generated at the control input (31) is by means of the excitation coil (34) Valve piston (32) against the force of the spring (33) from the first moved to a second position. Closes here the valve piston (32) the compressed air duct (35) and at the same time opens the compressed air duct (36). Of the Compressed air channel (36) is always with the pressure medium inlet (1) connected. By operating the control valve (30) can thus the compressed air from the compressed air reservoir (70) through the compressed air duct (37) flow and the reset devices (44, 54) with Apply pressure. If the control valve (30), however is not actuated, then the reset devices (44, 54) pressurized air Flow out into the atmosphere via the compressed air duct (35).

A valve device of the type previously described is also known from DE 34 20 631 C2.

The present valve device also has Pressure medium outlet (2) a first passage cross section (3) with a large cross-sectional area, a second passage cross-section (4) with a smaller cross-sectional area as well a switching valve (5) for switching between these two passage cross sections (3, 4). Hereby can be the venting rate of the valve device toggled between a small and a large value will. This makes it possible to the piston (81) of the Actuating cylinder (80) or the door connected to it fast movement or a slower, damped movement to be carried out. In connection with the means (67) for sensing the respective end positions of the door and an electronic control unit (60) can be nearby the end positions of the door from the rapid movement to the slower, damped movement can be switched.

The changeover valve (5) is particularly simple and cost-effectively as a one-piece membrane Sealing element (6) of the valve device is formed. The Membrane (5) is always via a compressed air channel (7) with the reset devices (44, 54) and over the previously described compressed air duct (37) with the third Control valve (30) pneumatically connected. When actuated of the control valve (30), the membrane (5) on the Compressed air ducts (37, 7) together with the reset devices (44, 54) pressurized. The The membrane (5) then closes the compressed air duct (8). The compressed air to be vented can then only through the Flush out compressed air duct with small passage cross section (4). If the control valve (30) is not actuated, then the membrane (5) pressurizing Air into the atmosphere via the compressed air channels (7, 37, 35) escape, so that the membrane (5) the compressed air channel (8) releases. This can be the vented Compressed air additionally over that with a larger passage cross section the provided compressed air duct (8) escape, so that the compressed air channels (4, 8) together the first passage cross-section (3) with a large cross-sectional area form.

Since the switch to the second passage cross section (4) of course not to dampen the door movement The door stands still, but only a moving door makes sense is and a movement of the door by pressing the first (10) or second (20) control valve the first (10) and the third (30) or the second (20) and the third (30) Control valve operated simultaneously. For Avoiding unwanted effects of this simultaneous actuation on the 3/2-way valves (41, 42, 51, 52) have the control valves (10, 20, 30) active surfaces of the Actuators and reset devices (43, 44, 53, 54) the same size. Therefore the persist 3/2-way valves (41, 42, 51, 52) despite simultaneous Actuation of the control valves in their last one Position.

3 is the valve device described above (9) upon actuation of the third control valve (30) shown. The control valves (10, 20) are here not activated. It should be noted that the 3 the description of the mode of operation of the changeover valve (5) and the 3/2-way valves (41, 42, 51, 52) is used. In this operating state however, it is neither a damped nor an undamped Movement of the door carried out as described above - Both work connections (40, 50) with the pressure medium inlet (1) are connected.

3 shows the valve piston (32) of the third control valve (30) in its second position. As a result, the compressed air duct (37) via the compressed air duct (36) with the pressure medium inlet (1), so that both reset devices (44, 54) of the 3/2-way valves (41, 42, 51, 52) with the am Pressure medium inlet (1) available pressure is applied will. The 3/2-way valves are therefore located (41, 42, 51, 52) each in their first switching position, so that the reset devices (44, 54) in Contrary to the representation in FIG. 2, not one another issue.

As a result of the actuation of the control valve (30) also the membrane (5) via the compressed air channel (7) with pressure acted upon and thereby actuated. The membrane (5) bends in the direction of the compressed air duct (8) through and closes it pressure-tight. Therefore the compressed air to be vented then only through the compressed air duct (4) to the pressure medium outlet (2).

4 is a typical course of the Lines (64, 65, 66) to the control inputs (11, 21, 31) of the valve device (9) supplied electrical Control signals and the electronic via the line (62) Control unit fed and the respective position electrical signal representing the door Potentiometers (67) as a timing diagram when opening and Shown closing the door. The signals in the lines (64, 65, 66) are square waves with a high and low level. The height Level can e.g. by switching on a control voltage and the low level by turning off the control voltage generated by the electronic control unit (60) will. The signal in line (62) can be in Stepless or depending on the position of the door fine-grained between an upper and a lower value to be changed. The lower one shown in FIG. 4 The value corresponds to the "door closed" state, the upper value corresponds to the "door open" state.

The dashed lines in Fig. 4 are only that Inserted and placed for the sake of clarity no waveforms.

It is initially assumed that the door is closed and the 3/2-way valve (41, 42) in the first Switch position and the further 3/2-way valve (51, 52) is in the second switch position. The sequence begins with a pulse (90) on line (64), through which the first control valve (10) is actuated and thereby the 3/2-way valve (41, 42) in the second Switch position and the further 3/2-way valve (51, 52) is switched to the first switch position. Here the control valves (20, 30) are not actuated.

As a result of the pulse (90) is the one pressure medium connection of the actuating cylinder (80) pressurized and the other pressure medium connection is vented. As a result, the piston (81), the door adjustment device (82) with the door and the potentiometer (67) emotional. This movement is in Fig. 4 by the rapid rise of the signal shown on line (62). In this case only the control valve (10) is actuated, the changeover valve (5) is thus not actuated and the compressed air to be vented can flow through the first large passage cross section (3) into the atmosphere emanate.

As can also be seen from FIG. 4, begins the movement of the door does not coincide with the beginning of the impulse (90), but only shortly afterwards. This delay time results from the speed at the two switching pistons of the 3/2-way valves (41, 42, 51, 52) from one to the other switching position be moved. The pulse (90) must therefore be sufficient be long to switch the 3/2-way valves safely (41, 42, 51, 52).

Detected by evaluating the signal in line (62) the electronic control unit (60) whether the Piston (81) or the door approaches the respective end position. In this case there is the electronic control unit (60) a pulse (91) in the line (64) and almost at the same time an impulse (92) in line (66). The pulse (91) begins shortly before the pulse (92) and ends shortly after the pulse (92). This overlap of the Impulse (91, 92) is required for the 3/2-way valve (41, 42) remains in the second switching position. A start of the pulse (92) before the pulse (91) would have result in the 3/2-way valve (41, 42) in the first Switch position is moved back. In this case it would come the door to a halt.

The previously started movement is triggered by the impulses (91, 92) the door continued, however, by turning on of the control valve (30), the changeover valve (5) is actuated and thus from the first passage cross section (3) on the second, smaller by comparison Passage cross section (4) is switched. Hereby the ventilation rate of the actuating cylinder (80) and thus the adjustment speed of the door is reduced. The door therefore moves at a slow speed in the "door open" position. Once the electronic Control unit (60) by evaluating the signal in the Line (62) recognizes that the end position has been reached, it immediately ends the pulse (92) and the pulse (91) shortly afterwards for the reasons described above.

The reverse process of closing the door will initiated by a pulse (93) in line (65). As a result, the 3/2-way valve (41, 42) from the second in the first switch position and the other 3/2-way valve (51, 52) from the first to the second Switch position switched. Then the door begins to close with high adjustment speed. Shortly before the end position is reached, this causes electronic Control unit (60) by means of the pulses (94, 95) Reduction of the adjustment speed. The door sets their movement then slowly until they reach the state "Door closed" continues.

Claims (10)

Valve device for a door system which can be actuated by a pressure medium and has the following features: a) there is at least one pressure medium inlet (1) which can be connected to a pressure medium supply device (70), b) there is at least one pressure medium outlet (2), c) there is at least one working connection (40) which can be connected to at least one door adjustment device (80), in particular an actuating cylinder, d) the valve device has at least a first control connection (11) and a further control connection (21, 31), which can be connected to a control device (60), in particular an electronic control device, and serve to control the pressure medium flow through the valve device, e) the valve device has, via the control connections (11, 21, 31), controllable means (41, 42, 43, 44, 51, 52, 53, 54) for alternately connecting the working connection (40) to the pressure medium inlet (1) or the Pressure medium outlet (2), f) the valve device has at least one point a first passage cross section (3) and a second passage cross section (4) arranged parallel to the first passage cross section (3), g) there is a switching valve (5) for switching between the first (3) and the second (4) passage cross section,
characterized by the following feature: h) the changeover valve (5) can be actuated by pressure medium, i) at least some of the controllable means (41, 42, 43, 44, 51, 52, 53, 54) can be used as a result of at least one control signal at at least one of the control connections (11, 21, 31) for the purpose of controlling the pressure medium flow through the valve device are subjected to a control pressure, k) the changeover valve (5) can also be actuated by the control pressure generated by the control signal at the at least one control connection (11, 21, 31). Valve device according to patent claim 1, characterized in that the changeover valve (5) can be actuated as a result of simultaneous or almost simultaneous application of two control connections (11, 21, 31) with control signals. Valve device according to claim 1 or 2, characterized by the following features: a) through the control connections (11, 21, 31) controllable means (41, 42, 43, 44, 51, 52, 53, 54) have a connection between the working connection (40) and alternately the pressure medium inlet (1) or the 3/2-way valve (41, 42) controlling the pressure medium outlet (2), b) there is a further work connection (50) which can be connected to the door adjustment device, c) the means (41, 42, 43, 44, 51, 52, 53, 54) which can be controlled by the control connections (11, 21, 31) have a further connection between the further working connection (50) and the pressure medium inlet (1 ) or the pressure medium outlet (2) controlling 3/2-way valve (51, 52). Valve device according to at least one of claims 1 to 3, characterized by the following features: a) each 3/2-way valve (41, 42 or 51, 52) has an adjusting device (43 or 53) and a resetting device (44 or 54), each of which can be actuated by pressure medium, b) each 3/2-way valve (41, 42 or 51, 52) can be set from a first switching position into a second switching position via its adjusting device (43 or 53), c) each 3/2-way valve (41, 42 or 51, 52) can be set from the second switching position into the first switching position via its reset device (44 or 54), d) the actuating device (43) of the 3/2-way valve (41, 42) and the resetting device (54) of the further 3/2-way valve (51, 52) is connected by a first control valve (11) connected to the first control connection (11) 10) actuable, e) the actuating device (53) of the further 3/2-way valve (51, 52) and the resetting device (44) of the 3/2-way valve (41, 42) is connected by a second control valve (21) connected to the second control connection (21) 20) actuable, f) the reset devices (44, 54) of the 3/2-way valves (41, 42, 51, 52) can be actuated by a third control valve (30) connected to a third control connection (31) of the valve device, g) the changeover valve (5) can be actuated by simultaneous or almost simultaneous actuation of the first (10) and the third (30) or the second (20) and the third (30) control valve. Valve device according to at least one of Claims 1 to 4, characterized in that the second passage cross section (4) is smaller than the first passage cross section (3). Valve device according to at least one of Claims 4 or 5, characterized in that in the first switching position of the 3/2-way valve (41, 42) or the further 3/2-way valve (51, 52) the respective working connection (40 or 50) is connected to the pressure medium inlet (1) and in the second switching position the respective working connection (40 or 50) is connected to the pressure medium outlet (2). Valve device according to at least one of Claims 1 to 6, characterized in that the first (3) and the second (4) passage cross section are arranged at the pressure medium outlet (2). Valve device according to at least one of Claims 1 to 7, characterized in that the changeover valve (5) is designed as a membrane. Valve device according to claim 8, characterized in that the membrane (5) is made in one piece with a sealing element (6) for sealing the housing parts of the valve device. Valve device according to at least one of Claims 3 to 9, characterized in that the actuation of the change-over valve (5) is effected by switching on and switching off the first (10) and the third (30) or the second (20) and the third (30) at the same time. Control valve is done.

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