DE102008056960B3 - Valve e.g. back stroke valve, for arranging between valve chambers for controlling flow of fluid, has inclined planes adjusted with respect to flow of direction under angle, where blocking lobes are attached respective to inclined planes - Google Patents

Abstract

The valve e.g. back stroke valve (10), has a movable pressure element (34) arranged on a side of valve chambers (16), where the pressure element is designed in such a manner that flat blocking lobes (24) are pressed against a valve seat (18). The valve seat includes two inclined planes that incline in an opposite direction, where the inclined planes are adjusted with respect to flow of direction under an angle (alpha) larger than 15 degree and smaller than 80 degree, where the blocking lobes are attached respective to the inclined planes, and are made up of elastic deformable material.

Description

The The present invention relates to a valve for arrangement between a first valve chamber and a second valve chamber with a valve housing, on a valve seat is formed, and with a blocking element, which is designed in a locking position to a valve opening in Close the area of the valve seat to make a connection between to lock the first and second valve space, and in an open position designed to the valve opening to release the connection between the first and the second Valve space release, the fluid in the open position along a flow direction from the first valve space into the second valve space can flow, wherein the valve seat is formed as an inclined surface is, wherein the blocking element is a flat locking tab of a having elastically deformable material in the locked position abuts the inclined surface and in the open position lifts off the bevel, to release the connection, wherein on the side of the second valve chamber a movable pressure element is arranged, which is designed to press the locking tab against the valve seat.

One Such valve in the manner of a check valve is known. A check valve is used generally for directional determination of the flow of a fluid and is a directional valve that controls the passage of the fluid in one of the two flow directions automatic locks.

Known are in particular so-called ball check valves, in which the blocking element is formed by a ball, which by a spring pressed into the valve seat becomes.

In an alternative embodiment the valve seat is arranged perpendicular to the flow direction and closed by a flap. The flap can in particular suspended from an upper area be so automatically in the Locked position arrives.

Problematic in such check valves is the one big one Number of components. On the other hand, especially in the check valve with flap, the fluid flow in the open position because of the first approximately perpendicular to the flow direction aligned flap disturbed. this leads to to a relatively low efficiency. Furthermore, the achievable Frequencies with rapid change from locked position to open position and conversely, relatively low.

From the German patent application DE 10 2008 006 686 A1 a non-return valve with an oblique valve seat is known, against which an elastic locking tab rests. The DE 10 2008 006 A1 constitutes a state of the art according to § 3 (2) of the German Patent Law.

Further So-called float valves are known by a float to be controlled. The fluid is usually a liquid, and the float has a lower density than the liquid. The float floats on the liquid and activates Locking element of the valve in dependence from the level of the liquid.

Other valves can be found in the publications EP 0 724 098 A1 . US 3,951,168 A and DE 34 14 077 A1 ,

In front In the above background, it is the object of the invention to provide an improved Specify valve.

The The above object is according to a first aspect of the invention in the aforementioned valve characterized solved, the valve seat has two inclined surfaces, which are inclined in the opposite direction and in longitudinal section form a V-shape and at an angle with respect to the flow direction greater than 15 ° and less than 80 ° aligned are, with each bevel one Locking flap is assigned.

hereby can achieve a high flow rate in a relatively small space become. The valve thus includes two parallel valves. On this way you can also the occurring radial forces be compensated against each other. Therefore, this training is suitable preferably also when the valve is part of a flow direction movable system is arranged, for example on a piston is.

According to one second aspect of the invention, the object is achieved by the aforementioned valve, wherein the inclined surface with respect to the flow direction at an angle greater than 15 ° and smaller aligned as 80 ° is that the blocking element has a fastening portion, by means of of which the blocking element is attached to the valve housing, wherein the Attachment portion has a ring portion which in a annular mounting recess of the valve housing is used, wherein the ring portion over at least one longitudinal web portion connected to the locking tab.

The attachment to the valve housing can be done by means of screws, by gluing or by other types of fastening. Thus, the blocking element can be fixed without further measures in the radial direction of the valve housing. This can be particularly advantageous if the valve is disposed on a movable member such as a piston.

Further is a one-piece Formation of the locking element allows, wherein the longitudinal web portion the ring section and the locking tab (or the two locking tabs) connects with each other.

By the measure, form the valve seat as an inclined surface, can the fluid in the open position unhindered or fluidic better flow into the second valve chamber. at the transition from the locked position to the open position presses the fluid the flat Locking tab from the valve seat and can along the so deflected Locking flap in the second valve chamber flow without the fluid here across from the flow direction is strongly distracted, as for example in classical flap check valves the case is. In addition, the valve of the invention comes out with few components. Preferably, the valve consists only of the valve housing and the blocking element.

The valve opening can have a plurality of single openings which are jointly closed by a blocking element become.

by virtue of the formation of the locking flap of an elastically deformable Material can be achieved that the locking flap due to the own elasticity is biased in the locked position. As a result, the lock position can also be generally be achieved safely.

The Function of the valve according to the invention is similar to Function of fish gills, which due to the flow Evolution are also optimized. Even at comparatively high operating frequencies the valve results in no flutter.

By the measure, on the side of the second pressure chamber, a movable pressure element provided, which is designed, the locking tab against the valve seat to press, the blocking effect of the valve in the blocking position can be increased. The pressure element can be actuated from the outside, for example by means of a suitable actuator integrated in the valve or may be separately formed therefrom. This actuator can be formed electromechanically or fluidly. The pressure force can be regulated or for example with a spring on one be set to a specific value.

From However, it is particularly advantageous when the pressure element as a float is formed, which is arranged in the second pressure chamber and of the fluid against the locking tab is pressed to in the locked position to increase the blocking effect.

at this particular embodiment may the valve is designed as a kind of float-assisted check valve be. In such an embodiment the valve generally has the function of a check valve, wherein a Fluid in the first pressure chamber usually has a different pressure as in the second valve space. Unless the pressure in the first valve chamber is higher, the locking tab is pushed away from the valve seat, so that fluid from the first valve space can flow into the second valve chamber. Unless the pressure higher in the second valve space is, the locking tab of the fluid itself against the valve seat pressed, to the blocking effect of a check valve to create. The float can increase this blocking effect by: the float presses the locking tab against the valve seat.

The Valve can in this embodiment, however Also be designed as a pure float valve, in which the fluid not necessarily one in the first valve space and in the second valve space has different pressure. Rather, the barrier effect achieved by a fluid level (in particular a fluid level) on the side of the second valve chamber so that the float upon reaching a certain level the locking tab against the valve seat presses and thus a barrier effect is achieved.

It It should be understood that the float preferably has a lower density as the fluid, allowing the float to rise from a rising fluid level is taken. Furthermore, it is understood that the valve in this embodiment is preferably used in such a mounting position that the float due to the Archimedean principle generally on the surface of the Fluids float, with increasing fluid level in the direction is moved to the locking tab.

From It is particularly advantageous if the angle of the inclined surface is greater as 30 °.

hereby the valve can be fluidic be further optimized.

The same applies to the preferred case that the angle of the inclined surface is smaller than 60 °.

According to one another preferred embodiment is the blocking element at a rear seen in the flow direction Area of the inclined surface on the valve housing established.

In this way it is guaranteed that the Locking tab is aligned obliquely forward relative to the mounting area, so already approximately in the flow direction.

there It is particularly advantageous if the two locking tabs integral with each other are connected.

hereby The number of components can be kept low.

From However, it is particularly advantageous if the valve housing a Fastening recess which, transverse to the flow direction is aligned, wherein the attachment portion in the mounting recess is used to form-fit the locking element in the flow direction the valve housing set.

On this way, the attachment of the locking element to the valve body without other components or materials take place. Conceivable here is that the blocking element is a transverse to the flow direction Has bead which in a corresponding transverse recess of the valve housing is used to achieve an axially positive connection.

Further it is advantageous if the longitudinal web section in a longitudinal direction aligned recess of the valve housing is arranged.

hereby For example, the attachment portion of the locking element be integrated into a cylinder contour of the valve housing, without the attachment portion in the radial direction outwards relative to the Cylinder contour protruding. In particular, this training is therefore for the Use of the check valve suitable for a movable element.

in this connection It is particularly advantageous if two locking tabs on a crosspiece connected to each other (for example in V-shape), whose ends are connected to the ring section.

These embodiment allows an axially stable connection between the locking tabs and the ring section.

All in all it is further preferred if the valve housing has a cylinder portion comprising at least one longitudinal channel connected to the valve opening wherein the valve seat on an end face of the cylinder portion is trained.

These embodiment allows on the one hand a simple housing structure. Because the second valve space can in this case, for example, by the Cylinder section and a second housing portion may be formed. The longitudinal channel then preferably forms a part of the first valve chamber. Further Here is advantageous that the valve in a simple way a cylindrical Integrate piston, and on the front side.

Further It is advantageous if the pressure element in the flow direction is movably mounted.

hereby can be achieved for a good barrier effect by the pressure element become. At the same time results in a simple structural design. Alternatively, it is also possible the pressure element in a direction perpendicular to the surface of the Movable store valve seat.

According to one Another overall preferred embodiment is the pressure element in the valve housing movably mounted.

Though It is also generally conceivable that the pressure element, for example in the form of a float outside of the valve housing is movably mounted and over a mechanism or a mechanical connection acts on the locking tab. The arrangement in the valve housing leads however Overall, a compact design.

Further It is advantageous in this case if the pressure element in the flow direction on the valve body polarity protection guided is.

With In other words, the pressure element is generally in the flow direction free in the valve housing movably guided be, especially if the pressure element is designed as a float is. Through the formation of a twist protection can be achieved that the float in the oblique Valve seat is placed in the correct position on the valve seat.

Further it is generally advantageous if the pressure element at least a passage opening through which the fluid can flow in the open position.

at this embodiment Consequently, the pressure element is in the flow path of the fluid and is in the open position flows through the fluid. As a result, in particular in the radial direction, a compact construction will be realized. Furthermore, the guide in the flow direction be realized constructively simple.

alternative it is natural also conceivable to form the float so that the fluid outside of the Swimmer rushed by, so between the outside the pressure element and the inside of the valve housing.

Further It is generally advantageous if the pressure element is a closed Has contact surface, which is preferably closed ring-shaped and in a projection in the flow direction a valve opening surrounds in the valve seat.

at this embodiment can be achieved that the pressure element so the locking tab presses against the valve seat, that a ring-shaped Section of the locking tab around the valve opening against the valve seat is pressed. As a result, the blocking effect by means of the float be increased.

there It is particularly advantageous if the pressure surface of the Pressure element is adapted to the shape of the locking flap.

In a preferred embodiment the valve has locking tabs that are V-shaped. The contact surface of the Pressure element has a complementary shape, which in longitudinal section also V-shaped is trained.

The Pressure element can be designed as a ring member whose Front side, which faces the locking tab, to the shape of the locking tab is adapted (eg V-shaped is formed).

According to one another preferred embodiment grips the pressure surface in the area of the outer circumference of the locking tab on the locking tab on.

hereby will reach that valve opening formed relatively large can be. For another By means of the pressure element in this way greatest possible forces are exerted on the locking tabs. It is understood that the above and the following yet to be explained Features not only in the specified combination, but also usable in other combinations or alone are without departing from the scope of the present invention.

embodiments The invention are illustrated in the drawings and in the following description explained. Show it:

1 a schematic longitudinal sectional view through a first embodiment of a valve in a locking position;

2 the valve of 1 in an open position;

3 a further embodiment of a valve according to the invention in a schematic longitudinal section;

4 a longitudinal sectional view of another embodiment of a valve according to the invention;

5 a sectional view taken along the line VV in 4 ;

6 a side view of an inner part of the valve of the 4 ;

7 another side view of the part of the valve of the 4 rotated in a position 90 ° relative to the position of the 6 ;

8th one in the valve of the 4 to 7 used blocking element in perspective view;

9 one in the valve of the 4 to 7 used partial housing of the valve housing in a perspective view;

10 a longitudinal sectional view of another embodiment of a valve according to the invention;

11 an exploded view of another embodiment of a valve according to the invention;

12 the valve of 11 in the assembled state in a perspective view;

13 the valve of 11 in a view from above; and

14 a sectional view taken along the line XIV-XIV of 13 ,

In 1 is a first embodiment of a valve generally with 10 designated. The check valve 10 has a valve housing 12 on. The valve housing separates a first valve chamber 14 in which a fluid optionally has a first fluid pressure P ₁ , from a second valve chamber 16 in which the fluid optionally has a second pressure P ₂ .

The valve establishes a flow direction S through which fluid from the first valve space 14 in the second valve chamber 16 can get. The flow direction S is parallel to a longitudinal extent of the valve 10 ,

A first valve room 14 facing side of the second valve chamber 16 is as a valve seat 18 educated. The valve seat 18 is formed as an inclined surface, which occupies an angle greater than 15 ° and smaller than 80 ° with respect to the flow direction S, in particular greater than 30 ° and less than 60 °, im present case 45 °.

At the valve seat 18 is a valve opening 19 formed over a longitudinal channel 20 in the valve housing 12 with the first pressure chamber 14 connected is. The valve opening 19 may be a single valve opening or consist of a plurality of separate separate openings, which are connected to the first pressure chamber 14 are connected.

The inclined surface of the valve seat 18 can be designed as a flat surface, as in 1 is shown. However, the inclined surface may also be formed as a curved surface, which is formed concave or convex, for example, in longitudinal section and / or in cross-section.

In the valve chamber is also a blocking element 22 of the valve 10 arranged. The blocking element 22 is made of an elastically deformable material, in particular a plastic material and has a locking tab 24 on. The locking flap 24 is in terms of its shape to the valve seat 18 adapted, so in the present case is designed as a flat flap (but may be a curved flap).

The blocking element 22 also has an integral with the locking tab 24 trained attachment section 26 on. The attachment section 26 is in a direction of flow S seen rear area of the valve seat 18 on the valve body 12 established. For this purpose used fasteners 28 are in 1 shown schematically. The fastening means may for example be formed by one or more screws, rivets or the like. The fasteners 28 However, they can also be formed by a bond. Alternatively, it is also possible, the attachment portion 26 in the two-component process in one piece with the valve housing 12 train.

The blocking element 22 is said to be made of an elastic material and is over the attachment portion 26 so on the valve body 12 attached that a locking lobe 24 in a relaxed position (ie not elastically deflected) on the valve seat 18 is applied. Alternatively, it is also possible, the blocking element in such a way that the locking tab 24 with a certain bias in the direction opposite to the flow direction S at the valve seat 18 is applied.

In 1 is the valve 10 shown in a locked position. If the valve 10 has a non-return function, the second pressure P _{2 is} greater than the first pressure P. ₁

This will cause the locking tab 24 against the valve seat 18 pressed. The valve opening 19 is therefore closed.

It is understood that in the above consideration of the pressures of the locking element 22 optionally applied internal pressure against the flow direction S can be taken into account.

In 2 is the valve 10 shown in an open position. Here, the first pressure P _{1 may be} greater than the second pressure P ₂ (in turn, the possible biasing force of the locking tab 24 be involved). Due to the larger pressure P ₁ presses in the first pressure chamber 14 fluid located the locking tab 24 from the valve seat 18 and deflects it, as shown schematically at 32. This allows the fluid 30 as shown by double arrows, from the first valve space 14 in the second valve chamber 16 stream. The fluid hits 30 not frontal but diagonally on the first valve chamber 14 facing side of the locking tab 24 on, so it flows favorable from the first valve chamber 14 in the second valve chamber 16 can be directed. In particular, there are only a few turbulences and other aerodynamically unfavorable phenomena. In other words, the locking lobe 24 flowed obliquely or laterally, similar to gills of a fish.

Overall, a high actuation frequency can theoretically be achieved with the valve, for example greater than 50 Hz, without a fluttering of the blocking element occurring. The shape of the locking lobe 24 can also be chosen so that at a pressure reversal to initiate a suction cycle a pushing back of the locking tab in the direction against the valve seat 18 is favored (for example, by suitable shaping of a front end of the locking tab, as in 2 is indicated schematically.

The valve 10 also has a pressure element 34 on, within the second valve chamber 16 is mounted movably parallel to the flow direction S, as it is in 1 through an arrow 36 is indicated.

The pressure element 34 is designed to be at the in 1 shown locking position from the side of the second valve chamber 16 out against the locking lobe 24 to be pressed to increase the blocking effect. In 1 is the pressure element 34 however, shown for the sake of clarity in the open position.

The pressure element 34 has an annular closed contact surface 37 on, in the locked position so on the locking tab 24 rests that the annular pressure surface 37 in the project tion in the flow direction S the valve opening 19 surrounds. This can ensure that the fluid safely in the first valve chamber 14 is held and can not escape sideways.

Furthermore, the pressure element 34 a plurality of openings 38 through, through which the fluid 30 can flow. In this way it can be achieved that the outer circumference of the pressure element 34 in the first valve room 16 on the inner circumference of the second valve chamber 16 can be performed in the flow direction S. Furthermore, in 1 unspecified means for preventing rotation to be provided to prevent the pressure element 34 rotated around the longitudinal axis (which is parallel to the flow direction S) around. This can ensure that the pressure element 34 always in the correct relative orientation to the locking tabs 24 is pressed.

In 1 is also included 39 a stop shown, the axial mobility of the pressure element 34 in the direction away from the locking lobe 24 limited. This can ensure that the pressure element 34 not against the flap 24 opposite end face of the second valve chamber 16 is pressed. As a result, it can be achieved that the fluid 30 in the opening position ( 2 ) relatively unhindered by the valve opening 19 on the locking tab 24 over and through the pressure element 34 through to the outlet of the second valve chamber 16 can flow.

In 2 is the pressure element 34 not shown for reasons of clarity.

The pressure element 34 can be independent of the pressure conditions in the first valve chamber 14 and in the second valve space 16 be operated by means of a suitable actuator, for example, through an opening in the valve housing 12 on the pressure element 34 attacks.

Particularly preferred is the pressure element 34 however, as a swimmer 34 formed within the valve body 14 inside the valve body 12 is freely movable. In this case, the valve will 10 generally used so that the first valve chamber 14 above the second valve space 16 is arranged, one through the opening in the second fluid space 16 rising fluid lifts the float and finally against the barrier flap 24 suppressed. The fluid in this embodiment is preferably a liquid, for example as used in air conditioning systems.

Hereinafter, further alternative embodiments of valves according to the invention will be explained. These correspond in terms of the general structure and the general operation of the valve described above 10 of the 1 and 2 , In the following, only differences will be explained.

3 shows an embodiment of a valve, which is a valve housing 12 with a first part housing 40 and a second sub-housing 42 which, for example, via a threaded engagement 44 or the like are interconnected.

Furthermore, the valve has 10 of the 3 a blocking element 22 on, the two locking tabs 24A . 24B includes, which are preferably integrally connected to each other. The locking tabs 24A . 24B lie on corresponding valve seats 18A . 18B of the first part housing 40 at, which are inclined with respect to the flow direction S in the opposite direction. Accordingly, the valve seats 18A . 18B or the locking tabs 24A . 24B V-shaped and include an angle β, which is preferably greater than 40 ° and less than 150 °.

Each of the valve seats 18A . 18B is a separate longitudinal channel 20 assigned, with the longitudinal channels 20 each with the first pressure chamber 14 are connected. In 3 are two longitudinal channels 20 represented, so a longitudinal channel 20 per locking lobe 24 , However, it can also per locking lobe 24 several longitudinal channels 20 (and corresponding valve openings) may be provided.

Furthermore, the two locking tabs 24A . 24B integrally connected, but over a crossbar 48 , In the illustrated embodiment, the crosspiece 48 formed in a longitudinal section bead-shaped and is in the transverse direction (perpendicular to the plane of representation) in a mounting recess 50 of the first part housing 40 inserted. This allows the blocking element 22 Without further fastening means in the flow direction S form-fitting manner with the first part housing 40 get connected.

The second valve chamber 16 is in this embodiment between the first and the second part of the housing 40 . 42 educated. The second valve housing 42 can be a cone surface 52 include, which tapers in the flow direction, to the second pressure chamber 16 , As a result, the flow of the fluid 30 be further optimized in the opening position in terms of fluidic aspects.

In 3 is a pressure element like a float 34 shown schematically in dashed line. The shape of the pressure element 34 is in the V-shape of the two locking tabs 24A . 24B customized. 4 shows a further embodiment of a check valve according to the invention, which generally with respect to structure and function of the Check valve the 3 equivalent.

It can be seen that the first part housing 40 a cylinder section 53 has, on which the blocking element 22 is fixed. Furthermore, the first part housing 40 and the second sub-housing 42 about a seal 54 connected with each other.

Furthermore, the check valve differs 4 from that of 3 by the type of formation of the attachment portion 26 , While in the embodiment of the 3 the attachment portion is formed by a transverse web having a bead shape is in the embodiment of the 4 a fixing section 26 provided, a ring section 56 having. The ring section 56 is in one around the cylinder section 53 circumferential annular mounting recess 50 taken, so that the ring section 56 in the radial direction not opposite to the outer contour of the cylinder portion 53 emerges. The ring section 56 is with the integrally connected locking tabs 24A . 24B connected via longitudinal web sections, which are described below.

In 4 is a pressure element 34 with V-shaped longitudinal section again shown purely schematically.

In 5 it can be seen that on the first part of the housing 40 four longitudinal channels 20 are formed, wherein each two longitudinal channels a locking tab 24A . 24B assigned.

In 6 it can be seen that the ring section 56 on radially opposite sides in each case via a longitudinal web section 58 with a respective end of the crosspiece 48 connected to the locking tabs 24A . 24B connects with each other. The longitudinal ridge sections 58 are preferably on the first part housing 40 taken so that they face an outer contour of the cylinder section 53 not stand out.

For this purpose, radial recesses on the outer circumference of the first housing part 40 provided as it is in 7 at 63 is shown.

In the 8th and 9 are the blocking element 22 and the first part housing 40 each shown separately to illustrate the functions described above. One recognizes in 9 Further, that the first sub-housing at its rear end opposite the cylinder portion 53 radially projecting flange portion 64 by means of which the first part housing 40 with the second part housing 42 connected and sealed against this, as it is in 4 you can see.

The embodiments of valves described above can all be used as stationary, stationary pressure-element-supported check valves in any application. As fluid both liquid and gaseous substances are considered. Due to the cylindrical shape of the first part housing 40 can be the first part housing 40 but also as a piston, ie be designed as a movable element which is sealed from a second stationary housing. In this embodiment, the check valve according to the invention can be used in particular in a piston pump.

Furthermore, the valves can also be used as pure float valves when the pressure element 34 is designed as a float. In the 10 to 14 are further embodiments of valves 10 shown, which are each used as a pressure element assisted check valves or as pure float valves.

In 10 is a valve 10 shown in a positionally correct positioning, in which the first valve chamber 14 above the second valve space 16 is arranged. The pressure element 34 is designed as a float, the inside of the second valve chamber 16 is freely movable in the longitudinal direction.

The general structure of the upper part of the valve generally corresponds to the structure of the valve of 4 to 9 , In the 10 shown longitudinal sectional view is opposite to the longitudinal sectional view of 4 offset by 90 °, leaving only one of the locking tabs 24A you can see the valve opening 19 covers.

Furthermore, in 10 to recognize that on the inner circumference of the second valve chamber 16 one or more axially extending guide slots 66 are arranged, with corresponding guide tabs (in 10 not shown) on the outer circumference of the float 34 interact and provide a guide in the longitudinal direction and a rotation.

That in the 11 to 14 shown valve 10 is generally similar to the valve 10 of the 10 , but is realized somewhat more compact in the axial direction. In particular, the ring section 56 for attachment to the first part housing 40 in the axial direction immediately following the locking tabs 24A . 24B educated. In 11 is the V-shaped closed contact surface 37 recognizable, whose shape on the outer periphery of the locking tabs 24A . 24B is adjusted.

Furthermore, in 11 a guide nose 67 on the outer circumference of the float 34 recognizable, which is adapted to a corresponding Füh rungsnut 66 of the second sub-housing 42 be introduced to realize the required axial guidance and rotation.

In the 12 and 13 is shown that the locking lobes 24A over the opening of the first part housing 40 are visible.

In 14 is the swimmer 34 shown in longitudinal section, similar to the representation of 10 ,

Claims (18)

Valve ( 10 ) for arrangement between a first valve space ( 14 ) and a second valve space ( 16 ) with a valve housing ( 12 ), to which a valve seat ( 18 ) is formed, and with a blocking element ( 22 ), which is designed in a blocking position, a valve opening ( 19 ) in the region of the valve seat ( 18 ) to close a connection between the first and the second valve chamber ( 14 . 16 ), and in an opening position is adapted to the valve opening ( 19 ) to release the connection between the first and second valve chambers ( 14 . 16 ), the fluid ( 30 ) in the opening position along a flow direction (S) of the first valve space (FIG. 14 ) in the second valve space ( 16 ), wherein the valve seat ( 18 ) is formed as an inclined surface, wherein the blocking element ( 22 ) a flat locking flap ( 24 ) of an elastically deformable material which rests in the locking position on the inclined surface and lifts in the open position of the inclined surface to release the compound, wherein on the side of the second valve chamber ( 16 ) a movable pressure element ( 34 ) arranged to hold the locking tab ( 24 ) against the valve seat, characterized in that the valve seat ( 18 ) has two inclined surfaces which are inclined in the opposite direction and in longitudinal section form a V-shape and with respect to the flow direction (S) at an angle (α) greater than 15 ° and less than 80 ° are aligned, each inclined surface a Locking tabs ( 24A . 24B ) assigned. Valve according to claim 1, characterized in that the pressure element ( 34 ) as a float ( 34 ) formed in the second valve space ( 16 ) and from the fluid ( 30 ) against the locking tab ( 24 ) can be pressed in order to increase the blocking effect in the blocking position. Valve according to claim 1 or 2, characterized that the angle (α) greater than 30 ° is. Valve according to one of claims 1-3, characterized that the angle (α) is less than 60 °. Valve according to one of claims 1-4, characterized in that the blocking element ( 22 ) at a rear region of the oblique surface on the valve housing, seen in the flow direction (S) ( 12 ). Valve according to claim 1, characterized in that the two locking tabs ( 24A . 24B ) are integrally connected. Valve ( 10 ) for arrangement between a first valve space ( 14 ) and a second valve space ( 16 ) with a valve housing ( 12 ), to which a valve seat ( 18 ) is formed, and with a blocking element ( 22 ), which is designed in a blocking position, a valve opening ( 19 ) in the region of the valve seat ( 18 ) to close a connection between the first and the second valve chamber ( 14 . 16 ), and in an opening position is adapted to the valve opening ( 19 ) to release the connection between the first and second valve chambers ( 14 . 16 ), the fluid ( 30 ) in the opening position along a flow direction (S) of the first valve space (FIG. 14 ) in the second valve space ( 16 ), the valve seat ( 18 ) is formed as an inclined surface, wherein the blocking element ( 22 ) a flat locking flap ( 24 ) of an elastically deformable material which rests in the locking position on the inclined surface and lifts in the open position of the inclined surface to release the compound, wherein on the side of the second valve chamber ( 16 ) a movable pressure element ( 34 ) arranged to hold the locking tab ( 24 ) is pressed against the valve seat, characterized in that the inclined surface is aligned with respect to the flow direction (S) at an angle (α) greater than 15 ° and less than 80 ° that the blocking element ( 22 ) an attachment portion ( 26 ), by means of which the blocking element ( 22 ) on the valve housing ( 12 ), wherein the attachment portion ( 26 ) a ring section ( 56 ), which in an annular mounting recess ( 50 ) of the valve housing ( 12 ) is inserted, wherein the ring section ( 56 ) via at least one longitudinal web section ( 58 ) with the locking tab ( 24 ) connected is. Valve according to claim 7, characterized in that the valve housing ( 12 ) a fastening recess ( 50 ), which is aligned transversely to the flow direction (S), wherein the attachment portion ( 26 ) in the mounting recess ( 50 ) is inserted to the blocking element ( 22 ) in the flow direction (S) in a form-fitting manner on the valve housing ( 12 ). Valve according to claim 7, characterized in that the longitudinal web section ( 58 ) in a longitudinally aligned recess ( 63 ) of the valve housing ( 12 ) is arranged. Valve according to claim 9, characterized in that two locking tabs ( 24A . 24B ) in a transverse web ( 48 ), whose ends ( 62 ) with the ring section ( 56 ) are connected. Valve according to one of claims 1-10, characterized in that the valve housing ( 12 ) a cylinder section ( 53 ), the at least one with the valve opening ( 19 ) connected longitudinal channel ( 20 ), wherein the valve seat ( 18 ) at a front end side of the cylinder portion ( 53 ) is trained. Valve according to one of claims 1-11, characterized in that the pressure element ( 34 ) is movably mounted in the flow direction (S). Valve according to one of claims 1-12, wherein the pressure element ( 34 ) in the valve housing ( 12 ) is movably mounted. Valve according to claim 13, characterized in that the pressure element ( 34 ) in the flow direction (S) on the valve housing ( 12 ) is guided twist-protected. Valve according to one of claims 1-14, characterized in that the pressure element ( 34 ) at least one passage opening ( 38 ) through which the fluid ( 30 ) can flow in the open position. Valve according to one of claims 1-15, characterized in that the pressure element ( 34 ) a closed contact surface ( 37 ), which in a projection in the flow direction (S) a valve opening ( 19 ) in the valve seat ( 18 ) surrounds. Valve according to claim 16, characterized in that the pressure surface ( 37 ) to the shape of the locking flap ( 24 ) is adjusted. Valve according to claim 16 or 17, characterized in that the pressure surface ( 37 ) in the region of the outer periphery of the locking tab ( 24 ) on the locking tab ( 24 ) attacks.