DE102020110018A1 - Valve and use of a damping device - Google Patents

Abstract

The invention relates to a valve (1), in particular a piston valve, comprising a stationary housing part (2) and an actuating element (3) which is adjustable relative to the housing part (2) and which is in an operative connection with a valve body (4), wherein the valve body (4) can be adjusted between an open position releasing an outlet (5) and a closed position closing the outlet (5) by actuating the actuating element (3), the valve (1) having a damping device (6) for extending a closing time of the valve (1) in that an adjusting force applied to close the valve (1) is opposed to a damping force generated by the damping device.

Description

The invention relates to a valve, in particular a piston valve, with a stationary housing part and an actuating element which can be adjusted relative to the housing part and which is in operative connection with a valve body, the valve body being between an open position releasing an outlet and a closed position closing the outlet by actuation of the actuating element is adjustable.

Valves of the type mentioned at the outset are known per se and are used, for example, in the sanitary sector. They can be used to regulate a water outlet in that the water outlet can be closed or released by means of the valve.

Investigations on known valves of the type mentioned at the beginning have shown that when the valve is closed, pressure surges can occur which are more than three times higher than a permissible maximum value. To DIN EN 15091: 2014-03 a maximum permissible pressure hammer value of 8 bar at a flow rate of 23 liters per minute is allowed at 5 bar. On the other hand, pressure surges of up to 25 bar were measured.

The invention is therefore based on the object of creating a valve of the type mentioned at the outset, which through DIN EN 15091: 2014-03 specified values of a pressure shock are met.

The object is achieved according to the invention by a valve having the features according to claim 1.

In particular, according to the invention, a valve of the type mentioned at the outset is proposed to achieve the object, which is characterized in that the valve has a damping device with a damping element that is adjustable relative to the actuating element and / or the fixed housing part, that by the damping device at least a return adjustment of the valve body from the open position is damped to the closed position. Thus, when the valve is closed, at least a reduction in a pressure shock that occurs can be achieved, so that in particular the specifications according to FIG DIN EN 15091: 2014-03 to be met. Valves of the type mentioned are usually closed quickly. Tests have shown that relatively high pressure surges can occur due to a relatively abrupt return of the valve body from the open position to the closed position. As a result of the extension of the closing time of the valve achieved by means of the damping device, such high pressure surges no longer occur.

The term fixed can refer, for example, to an installation situation. If the valve is inserted into a corresponding valve seat, the stationary housing part is not adjusted relative to the valve seat when the valve is actuated.

Advantageous refinements of the invention are described below which, alone or in combination with the features of other refinements, can optionally be combined with the features according to claim 1.

According to an advantageous development, the damping device can have a damping chamber in which the damping element is arranged. The damping element can be designed, for example, as an axially adjustable damping piston. In particular, the damping element can subdivide the damping chamber into two sub-chambers, the respective volumes of which can be changed as a function of the closed position and / or the open position of the valve. In other words, the damping element can be adjusted within the damping chamber. In this way, a damping force can be generated which counteracts the adjusting force acting on the valve body at least during a closing process of the valve. The damping device can thus be used to set up a resistance against which the valve body must be adjusted. As a result, at least the closing time of the valve can be increased and pressure surges can be reduced.

In order to enable the valve to be opened and closed easily, the valve can have a push-push adjustment mechanism that can be actuated by the actuating element. In particular, a bistable adjustment of the valve body between the open position and the closed position can take place in each case by pressing the actuating element. Thus, on the one hand, the operation of the valve is simplified and, on the other hand, it is almost impossible for a user to operate the valve incorrectly. It can also be provided that more than two bistable positions can be set by means of the push-push adjustment mechanism, so that at least one intermediate position between the maximum open position and the closed position can be set with reduced flow.

According to a particularly advantageous development, it can be provided that the damping device has a damping fluid, in particular an oil, which can be or is displaced by the damping element at least when the valve body is moved back from the open position to the closed position. The damping fluid can preferably be controlled by a regulating gap, preferably variable in size, and / or a bypass can be or be displaced. The viscosity of the damping fluid and / or the size of the regulating gap and / or the size of the bypass can thus determine a resistance against which the damping element and / or the valve body are adjusted. In particular, the damping fluid can be or can be displaced from one sub-chamber into the other sub-chamber of the damping chamber. The regulating gap can therefore be formed between the sub-chambers. Alternatively or in addition, a bypass can be formed between the sub-chambers, which is open regardless of the direction of movement of the valve body, so that, for example, damping fluid flows through the bypass when the valve body is adjusted. According to a particularly preferred embodiment, the regulating gap can preferably be completely closed by a regulating element when the valve body is moved back from the open position to the closed position, so that the damping fluid can flow exclusively through the bypass.

According to an independent solution, which can also be combined as an advantageous further development at least with the features according to claim 1, it can be provided that the damping element is at least in an open position at a distance from a stop formed by the stationary housing part. As an alternative or in addition to this, the damping element can rest against a stop formed by the stationary housing part, at least in a closed position. Thus, when the valve body is moved back, the damping device and in particular the damping element can be moved back up to the stop until the damping element finally rests against the stop. In order to achieve complete closure of the valve, the damping element must now be pressed against the stop and is moved relative to the damping chamber. The damping element is retracted against a damping force generated by the damping device. The closing time of the valve can thus be increased so that the valve body is moved more slowly into the valve seat.

According to an advantageous development of the valve, it can be provided that a spring element is arranged within the damping chamber, in particular within a sub-chamber of the damping chamber, preferably which is compressed in a closed position of the valve and / or which is relaxed in an open position of the valve. The damping element can be adjusted, in particular retracted, against the spring force of the spring element during a closing process of the valve. During an opening process, the damping element can be extended again by the spring force of the spring element if the distance between the damping chamber and the stop increases.

According to an advance development, it can be provided that the valve has a restoring element which is arranged in such a way that the valve body can be or is adjusted against the restoring force of the restoring element of the valve during an adjustment from the closed position to the open position and / or that a The valve body is reset from the open position to the closed position at least partially by the restoring force of the restoring element. The restoring element can for example be designed as a spring. The restoring element can preferably be supported on a stationary part, in particular on one or the stationary housing part, of the valve and on the valve body, or at least transmit a force to it in each case.

According to a further advantageous embodiment, the valve body can have a valve piston which, in the closed position, closes a valve seat of the valve and / or which, in the open position, is displaced out of the valve seat in the direction of the outlet. The valve seat can preferably open and / or widen in the direction of the outlet. An improved closing of the valve can thus be achieved.

In order to be able to set a damping force which is intended to increase the closing time at least during a closing process, the damping device can have at least one control element, by means of which an opening dimension of a control gap between two sub-chambers of a damping chamber, for example the aforementioned damping chamber, is dependent on the adjustment direction of the damping element and / or the valve body can be changed or is changed. The regulating gap can preferably be adjustable in such a way that the opening dimension of the regulating gap is smaller when the valve body is moved from the open position to the closed position than when the valve body is moved from the closed position to the open position. Thus, a greater damping effect can be set during a closing process than during an opening process. According to a particularly advantageous embodiment, the regulating gap can be completely closed when the valve body is moved from the open position to the closed position. When moving from the closed position to the open position, it can be provided that the regulating element releases the regulating gap, in particular so that the regulating gap is open to the maximum. The regulating body is preferably designed as at least one O-ring.

According to an advantageous development, it can be provided that the valve body is in operative connection with the damping device. In particular, the operative connection can be set up in such a way that the valve body adjustably acts on the damping device. Preferably, when the valve body is moved back from the open position to the closed position, the damping element can be pressed or pressed against a stop or the stop by a force transmitted from the valve body to the damping device and / or the damping element can be adjusted or adjusted relative to the damping chamber. The closing time of the valve can thus be set easily and constantly.

According to a further advantageous embodiment, it can be provided that a valve seat, in particular the valve seat already mentioned, is arranged between an inlet chamber of a fluid and an outlet chamber of the fluid, the valve seat opening in the direction of the outlet chamber, and the valve body through the inlet space is passed through, and that the valve body is led out with its free end from the outlet space, in particular is led out into an air-filled space in which atmospheric pressure prevails. It is thus possible to adjust the valve body without counterpressure from a line downstream of the outlet.

According to an advantageous development, it can be provided that a boundary, in particular a distal boundary, of the outlet space is set up at least partially via at least one outlet space seal. In particular, the outlet chamber seal can be arranged between a side wall of the valve body and an inner wall of the outlet chamber. The outlet chamber seal can preferably be arranged on the valve body and / or can be adjusted together with the valve body.

The invention also relates to the use of a damping device for damped return adjustment of the valve body of a valve, in particular as described and / or claimed herein, from the open position to the closed position to avoid pressure surges.

The invention will now be described in more detail on the basis of several exemplary embodiments, but is not limited to these exemplary embodiments. Further exemplary embodiments result from the combination of the features of individual or multiple claims with one another and / or with individual or multiple features of the exemplary embodiments.

• 1 eine Schnittansicht einer möglichen Ausführungsform eines erfindungsgemäßen Ventils, wobei das Ventil in einer Offenstellung gezeigt ist, in welcher der Auslauf maximal geöffnet ist, wobei das Dämpfungselement ausgefahren ist und von einem Anschlag des feststehenden Gehäuseteils beabstandet ist,
• 2 eine Schnittansicht der möglichen Ausführungsform des erfindungsgemäßen Ventils aus 1, wobei das Ventil in einer teilweisen Offenstellung während eines Schließvorgangs gezeigt ist, wobei das Dämpfungselement teilweise eingefahren ist und an dem Anschlag des feststehenden Gehäuseteils anliegt,
• 3 eine Schnittansicht einer möglichen Ausführungsform des erfindungsgemäßen Ventils aus den 1 und 2, wobei das Ventil in einer Schließstellung gezeigt ist, in welcher der Auslauf vollständig verschlossen ist, wobei das Dämpfungselement maximal eingefahren ist und an dem Anschlag des feststehenden Gehäuseteils anliegt,
• 4 eine perspektivische Darstellung der Ausführungsform des erfindungsgemäßen Ventils gemäß den 1-3,
• 5 eine Explosionsansicht der Ausführungsform des erfindungsgemäßen Ventils gemäß den 1-4,
• 6 eine Detailansicht einer möglichen Ausführungsvariante einer Dämpfungsvorrichtung,
• 7 eine Schnittansicht einer weiteren möglichen Ausführungsform eines erfindungsgemäßen Ventils, wobei das Ventil in einer Offenstellung gezeigt ist, in welcher der Auslauf maximal geöffnet ist, wobei das Dämpfungselement ausgefahren ist und von einem Anschlag des feststehenden Gehäuseteils beabstandet ist, wobei die gezeigte Ausführungsvariante gegendruckunabhängig ausgebildet ist, indem der Ventilkörper aus dem Auslaufraum herausgeführt ist,
• 8 eine Schnittansicht der möglichen Ausführungsform des erfindungsgemäßen Ventils aus 7, wobei das Ventil in einer teilweisen Offenstellung während eines Schließvorgangs gezeigt ist, wobei das Dämpfungselement teilweise eingefahren ist und an dem Anschlag des feststehenden Gehäuseteils anliegt,
• 9 eine Schnittansicht einer möglichen Ausführungsform des erfindungsgemäßen Ventils aus den 7 und 8, wobei das Ventil in einer Schließstellung gezeigt ist, in welcher der Auslauf vollständig verschlossen ist, wobei das Dämpfungselement maximal eingefahren ist und an dem Anschlag des feststehenden Gehäuseteils anliegt.

It shows:

• 1 a sectional view of a possible embodiment of a valve according to the invention, wherein the valve is shown in an open position in which the outlet is opened to the maximum, wherein the damping element is extended and is spaced from a stop of the stationary housing part,
• 2 a sectional view of the possible embodiment of the valve according to the invention 1 , wherein the valve is shown in a partially open position during a closing process, wherein the damping element is partially retracted and rests against the stop of the stationary housing part,
• 3 a sectional view of a possible embodiment of the valve according to the invention from the 1 and 2 , the valve being shown in a closed position in which the outlet is completely closed, the damping element being fully retracted and resting against the stop of the stationary housing part,
• 4th a perspective view of the embodiment of the valve according to the invention according to the 1-3 ,
• 5 an exploded view of the embodiment of the valve according to the invention according to the 1-4 ,
• 6th a detailed view of a possible variant of a damping device,
• 7th a sectional view of a further possible embodiment of a valve according to the invention, the valve being shown in an open position in which the outlet is maximally open, the damping element being extended and spaced from a stop of the stationary housing part, the embodiment variant shown being designed to be independent of back pressure, in that the valve body is led out of the outlet space,
• 8th a sectional view of the possible embodiment of the valve according to the invention 7th , wherein the valve is shown in a partially open position during a closing process, wherein the damping element is partially retracted and rests against the stop of the stationary housing part,
• 9 a sectional view of a possible embodiment of the valve according to the invention from the 7th and 8th , wherein the valve is shown in a closed position, in which the outlet is completely closed, the damping element is maximally retracted and rests against the stop of the stationary housing part.

the 1-5 and the 7-9 each show a possible embodiment of a valve according to the invention, which is designated as 1 as a whole. However, the invention is not limited to these embodiments.

The valve 1 can for example be designed as a directly switchable piston valve.

In the 1-3 and 7-9 is the valve 1 each shown in the position of use, in which it is in a corresponding valve seat 23 is used to a tributary 27 from a drain 25th to separate. For example, the valve 1 a coupling point and the valve seat 23 have a corresponding negative feedback point.

The valve 1 has at least one fixed housing part 2 and one relative to the housing part 2 adjustable actuator 3 on.

The actuator 3 can be designed to be manually operable, for example as a push button.

To open and close the valve 1 to be able to control, the actuator can 3 be actuated, the actuating element 3 in operative connection with a valve body 4th stands.

The valve body 4th can thus between a spout 5 releasing open position and one the outlet 5 closing closed position by actuating the actuating element 3 adjusted.

The valve body 4th can during a switching process at least over part of the adjustment path of the actuating element 3 be disconnected. Thus there is a relative movement between the actuating element 3 and the valve body 4th possible.

About a pressure surge, especially when closing the valve 1 To be able to prevent or at least to be able to reduce the intensity of a pressure surge, the valve has 1 a damping device 6th on (see 6th ).

The damping device 6th is set up to set a closing speed of the valve body 4th during a closing process to reduce the closing time compared to valves without a damping device 6th to increase.

The damping device 6th comprises at least one relative to the actuating element 3 and / or the fixed housing part 2 adjustable damping element 7th . Through the damping element 7th a degree of damping can be set, which defines how fast the valve body can be reset 4th takes place from the open position to the closed position.

By means of the damping device 6th it is thus possible to prevent pressure surges from occurring, at least when the valve is closed 1 to prevent or to reduce an intensity of the pressure surges at least to a value that the DIN EN 15091: 2014-03 Fulfills.

The damping device 6th the in the 1-5 and 7-9 The illustrated embodiment variants each include a damping chamber 8th , in which the damping element 7th is arranged. The damping element 7th and / or a standard gap 13th can the damping chamber 8th in two sub-chambers 9 , 10 subdivide, with their respective volume depending on the closed position and / or open position of the valve 1 is changeable.

The opening dimension of the standard gap 13th is through a rule element 19th changeable. Preferably, the control element 19th the standard gap 13th between the sub-chambers 9 , 10 close completely, especially when adjusting the valve body 4th from the open position to the closed position. Thus, the control element 19th when adjusting the damping element 7th the standard gap 13th constrict or even completely close or release, depending on the direction in which the damping element is located 7th is adjusted.

The damping device 6th the end 6th also has a bypass 32 on, of the two sub-chambers 9 , 10 in addition to the standard gap 13th connects with each other and a steady flow of damping fluid 12th allowed, regardless of the direction in which the damping element 7th is moved. The opening dimension of the bypass 32 is therefore independent of the control element 19th and / or constant. With a complete closing of the standard gap 13th , especially when adjusting the valve body 4th from the open position to the closed position, damping fluid can only pass through the bypass 32 stream.

To a bistable adjustment of the valve body 4th To be able to adjust in particular in predefined end positions and / or at least one intermediate position, the valve 1 a push-push adjustment mechanism 11 on by the actuator 3 is actuatable. Thus there is a bistable adjustment of the valve body 4th between the open position and the closed position by pressing the actuating element 3 possible, with the push-push adjustment mechanism 11 locked in a stable position by pressing.

In the damping chamber 8th can be a damping fluid 12th , such as an oil, be arranged. The damping fluid 12th can through the damping element 7th at least when the valve body is reset 4th be displaced from the open position into the closed position. Thus, the degree of damping of the damping device 6th at least in part by the viscosity of the damping fluid 12th can be set.

The damping device 6th indicates the standard gap 13th on, through which the damping fluid 12th can be displaced or when the valve body is adjusted 4th is displaced. As an alternative or in addition, the degree of damping can thus also be determined by an opening dimension of the regulating gap 13th can be set. When the damping fluid is displaced 12th this is from a first sub-chamber 9 into a second sub-chamber 10 or vice versa, depending on the direction of adjustment.

On the fixed part of the housing 2 is a stop 14th formed by the damping element 7th can be acted upon in particular with a free end. Is the valve 1 in the open position, so is the damping element 7th spaced from the stop 14th , as in 1 and 7th is shown. During an opening process of the valve 1 the damping element rises 7th from the stop 14th from and / or during a closing process, it moves in the direction of the stop 14th , as in 2 and 8th you can see. Is the valve 1 finally as in 3 and 9 in the closed position, the damping element makes contact 7th through the fixed housing part 2 formed stop 14th .

Inside the damping chamber 8th can alternatively or additionally be a spring element 15th be arranged in a closed position of the valve 1 is compressed and / or in an open position of the valve 1 is relaxed. By the spring element 15th can during an opening process of the valve 1 an extension of the damping element by means of a spring force generated thereby 7th can be achieved.

The valve 1 also has a return element 16 on, which is arranged so that a restoring force that can be generated therefrom acts on the valve body 4th acts, the restoring force at least counter to the direction of actuation 22nd of the actuating element 3 works. When adjusting the valve body 4th from the closed position to the open position, this takes place against the restoring force of the restoring element 16 . Through the reset element 16 takes place when the actuating element is actuated 3 a return adjustment of the valve body 4th from the open position to the closed position.

To seal the valve tightly 1 to be able to adjust, has the valve body 4th a valve piston 17th on, which in the closed position has a valve seat 18th of the valve 1 locks. On the valve piston 17th can at least one sealing element 26th be arranged that in the closed position on the valve seat 18th and the opening of the valve seat 18th sealed liquid-tight. In the open position it is a valve piston 17th at least partially from the valve seat 18th spaced. The valve piston 17th is used to open the valve 1 towards the outlet 5 adjusted. The valve seat 18th so opens in the direction of the outlet 5 .

The damping device 6th has at least one control element 19th on, through which an opening dimension of the aforementioned standard gap 13th between the two sub-chambers 9 , 10 the damping chamber 8th depending on the adjustment direction of the damping element 7th and / or the valve body 4th is changeable or is being changed. This is preferably done in such a way that the opening dimension of the regulating gap 13th is smaller or larger when the valve body 4th is adjusted from the open position to the closed position as if the valve body 4th is adjusted from the closed position to the open position. For example, the rule element 19th at least partially in the standard gap 13th be pressed in to reduce the size of the opening. The standard gap 13th can at least partially through the damping element 7th and / or the damping chamber 8th be trained.

The valve seat 18th is between an inlet space 20th a fluid and an outlet space 21 of the fluid arranged, wherein the valve seat 18th in the direction of the outlet area 21 opens out. The valve body 4th is through the inlet room 20th passed through. The valve seat 18th thus represents the boundary between the inlet space 20th and the outlet area 21 represent.

According to one in the 7-9 shown embodiment of the valve 1 it can be provided that the valve body 4th with its free end 29 from the outlet area 21 is led out, in particular in an air-filled space 30th (Air space) is led out, in which atmospheric pressure prevails. This means that there is no counter pressure from one of the spouts 5 downstream pipe (drain 25th ) on the valve body 4th when adjusting it.

The air-filled room 30th is in the 7-9 shown embodiment of the valve 1 opposite the outlet area 21 through a spout seal 28 sealed. The outlet seal 28 can preferably on the valve body 4th arranged and / or together with the valve body 4th be adjustable. The volume of the spout 21 and / or the airspace 30th can thus in volume depending on the position of the valve body 4th vary.

The air-filled room 30th can with the environment of the valve 1 through a compensation channel 31 be connected. Thus there is constant pressure equalization within the air space 30th possible.

The compensation channel 31 can, as in the 7-9 is shown at least partially through the valve body 4th be trained.

In particular, the compensation channel 31 through the valve seat 18th and / or the inlet space 20th and / or the outlet space 21 get lost. The compensation channel 31 is opposite the inlet room 20th and the outlet space 21 closed so that no fluid in the equalization channel 31 can penetrate.

The ones in the 7-9 The embodiment shown has the advantage that the valve body 4th with its free end 29 from the outlet area 21 led out and / or within the airspace 30th lies. This means that there is little or no counterpressure from the drain 25th on the valve body 4th if this is to be adjusted. In particular, it can thus be prevented that a direction perpendicular to the adjustment direction of the valve body 4th acting counterpressure occurs from the drain.

The invention thus relates in particular to a valve 1 , in particular a piston valve, comprising a fixed housing part 2 and one relative to the housing part 2 adjustable actuator 3 that is in operative connection with a valve body 4th stands or can be brought, the valve body 4th between a spout 5 releasing open position and one the outlet 5 closing closed position by actuating the actuating element 3 is adjustable, the valve 1 a damping device 6th to extend a closing time of the valve 1 having one for closing the valve 1 applied adjustment force is opposed to a damping force generated by the damping device.

List of reference symbols

1

Valve

2

Fixed housing part

3

Actuator

4th

Valve body

5

Outlet

6th

Damping device

7th

Damping element

8th

Damping chamber

9

First partial chamber

10

Second partial chamber

11

Push-push adjustment mechanism

12th

Damping fluid

13th

Standard gap

14th

attack

15th

Spring element

16

Reset element

17th

Valve piston

18th

Valve seat

19th

Control element

20th

Inlet room

21

Run-out space

22nd

Actuation direction

23

Valve seat

24

Another fixed housing part

25th

Drain

26th

Sealing element

27

inflow

28

Outlet seal

29

Free end of the valve body

30th

Air-filled room

31

Compensation channel

32

bypass

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Non-patent literature cited

• DIN EN 15091: 2014-03 [0003, 0004, 0006, 0034]

Claims (12)

Valve (1), in particular a piston valve, with a stationary housing part (2) and an actuating element (3) which can be adjusted relative to the housing part (2) and which is in operative connection with a valve body (4), the valve body (4) between a The open position releasing the outlet (5) and a closed position closing the outlet (5) can be adjusted by actuating the actuating element (3), characterized in that the valve (1) has a damping device (6) with a relative to the actuating element (3) and / or the fixed housing part (2) has adjustable damping element (7) that at least one return of the valve body (4) from the open position to the closed position is damped by the damping device (6). Valve (1) Claim 1 , characterized in that the damping device (6) has a damping chamber (8) in which the damping element (7) is arranged, in particular wherein the damping element (7) divides the damping chamber (8) into two sub-chambers (9, 10), whose respective volumes can be changed depending on the closed position and / or open position of the valve (1). Valve (1) according to one of the preceding claims, characterized in that the valve (1) has a push-push adjustment mechanism (11) which can be actuated by the actuating element (3), in particular wherein a bistable adjustment of the valve body (4) takes place between the open position and the closed position by pressing the actuating element (3). Valve (1) according to one of the preceding claims, characterized in that the damping device (6) has a damping fluid (12), in particular an oil, which by the damping element (7) at least when the valve body (4) is reset from the open position is or is displaced into the closed position, preferably is displaceable or is displaced by a regulating gap (13) and / or a bypass (32), in particular wherein the damping fluid (12) from one sub-chamber (10) into the other sub-chamber (9) the damping chamber (8) can be displaced or is displaced. Valve (1) according to the generic term Claim 1 or according to one of the preceding claims, characterized in that the damping element (7) is at least in an open position at a distance from a stop (14) formed by the stationary housing part (2) and / or that the damping element (7) at least in a closed position a stop (14) formed by the stationary housing part (2) rests. Valve (1) according to one of the preceding claims, characterized in that within the damping chamber (8), in particular within a sub-chamber (9, 10) of the damping chamber (8), a spring element (15) is arranged, which in a closed position of the valve (1) is compressed and / or which is relaxed in an open position of the valve (1). Valve (1) according to one of the preceding claims, characterized in that the valve (1) has a restoring element (16) which is arranged such that the valve body (4) when moved from the closed position to the open position against the restoring force of the The restoring element (16) of the valve (1) is or is adjusted and / or that the valve body (4) is reset from the open position to the closed position at least partially by the restoring force of the restoring element (16). Valve (1) according to one of the preceding claims, characterized in that the valve body (4) has a valve piston (17) which in the closed position closes a valve seat (18) of the valve (1) and / or which in the open position out of the valve seat ( 18) is adjusted out in the direction of the outlet (5), preferably wherein the valve seat (18) opens and / or widens in the direction of the outlet (5). Valve (1) according to one of the preceding claims, characterized in that the damping device (6) has at least one regulating element (19), in particular an O-ring, through which an opening dimension of a regulating gap (13) between two sub-chambers (9, 10 ) one or the damping chamber (8) can be changed or changed depending on the adjustment direction of the damping element (7) and / or the valve body (4), preferably in such a way that the opening dimension of the regulating gap (13) is smaller or that the regulating gap (13 ) is completely closed by the control element (19) when the valve body (4) is moved from the open position to the closed position than when the valve body (4) is moved from the closed position to the open position, in particular with the control element (19) at an adjustment from the closed position to the open position releases the control gap (13). Valve (1) according to any one of the preceding claims, characterized in that the valve body (4) is in an operative connection with the damping device (6), in particular that the valve body (4) adjustably acts on the damping device (6), preferably with a Return of the valve body (4) from the open position to the closed position, the damping element (7) can be or is pressed against a stop (14) by a force transmitted from the valve body (4) to the damping device (6) and / or the damping element (7) is adjustable or is adjusted relative to the damping chamber (8). Valve (1) according to one of the preceding claims, characterized in that one or the valve seat (18) is arranged between an inlet space (20) of a fluid and an outlet space (21) of the fluid, the valve seat (18) being in the direction of the The outlet space (21) opens, and the valve body (4) is passed through the inlet space (20), and that the valve body (4) is led out with its free end (29) out of the outlet space (21), in particular into an air-filled one Space (30) is led out, in which atmospheric pressure prevails. Use of a damping device (6) for damped return adjustment of a valve body (4) of a valve (1), in particular according to one of the preceding claims, from the open position to the closed position in order to avoid pressure surges.

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