DE102020112565A1 - Pressure relief valve - Google Patents

Abstract

Pressure relief valve for connection to a container comprising a valve body (1) with a through opening (4) which is surrounded by a container connection connection (2) and a valve cover connection (3) and provided with a membrane (5) and a valve cover (6) which has a cover wall ( 11) with a circumferential wall (10) that is round or polygonal in an axial plan view and a wall section (110) on the cover side and can be or is connected to the valve cover connection (3), wherein in the connected state of the valve cover (6) with the valve cover connection (3) and the pressure relief valve with the container, when there is a pressure difference between an interior of the container and its surroundings, a continuous and / or abrupt gas flow through the passage opening (4) and at least one flow channel (40) is made possible, which is passed through an intermediate space (15) between the valve cover connection (3) and the valve cover (6) leads, wherein the valve cover (6) the Ve The valve cover connection (3) is covered like a cap and the membrane (5) is firmly, in particular cohesively connected in its circumferential area to the inner wall surface of the valve body (1) surrounding the through opening (5) via a connection area.

Description

The invention relates to a pressure relief valve for connection to a container comprising a valve body with a through opening provided with a membrane and surrounded by a container connection connection and a valve cover connection, and a valve cover which has a cover wall with a circumferential wall that is round or polygonal in an axial plan view and a wall section on the cover side and is connectable or connected to the valve cover connection, wherein in the connected state of the valve cover with the valve cover connection and the pressure relief valve with the container in the event of a pressure difference between an interior of the container and its surroundings, a continuous and / or abrupt gas flow through the passage opening and at least one flow channel is made possible which leads through a space between the valve cover connection and the valve cover, wherein the valve cover overde the valve cover connection like a cap ckt.

Furthermore, the invention also relates to a container with at least one cell-like cavity with such a pressure relief valve.

In the German patent application DE 10 2014 111 041 A1 describes a degassing valve for degassing a housing, with a membrane that is waterproof but breathable, and a tensioning frame that holds the membrane against a support element, such as. B. a grid, presses with a predetermined contact pressure, wherein the contact force is less than a triggering force at which the membrane detaches from the support element and releases a fluid channel between an interior of the housing and a surrounding area of the housing. The degassing valve can have at least one spring element for pressing the clamping frame in the direction of the support element and a cover which forms a stop for the spring element, the clamping frame and the membrane being arranged in particular between the cover and the support element. The cover can also be positively connected to a housing body of the degassing valve, in particular latched, and encompass the support element. The membrane can also either be clamped between the clamping frame and the support element, as long as the release force is not reached, and slip out between the clamping frame and the support element when the release force is reached, or it can be connected to the clamping frame in a materially, form-fitting and / or non-positive manner, in particular welded, glued or jammed. The fixing of the membrane by means of the tensioning frame, which is spring-supported on the cover, requires several individual parts and manufacturing steps.

A similar pressure relief valve is also shown by the US 2013/0098912 A1 .

the DE 10 2015 005 276 A1 and similar the DE 10 2016 004 648 A1 show a pressure relief valve with a rupturable membrane for avoiding a critical pressure increase in a battery housing.

A diaphragm pressure relief valve for a battery case is also shown in the DE 10 2012 022 346 B4 .

The present invention is based on the object of providing a universally usable pressure relief valve of the type mentioned, which is composed of a few parts and which provides reliable mechanical protection of the membrane with reliable functioning, as well as a container with a cell-like, hollow body protected against excessive pressure build-up with a specify such a pressure relief valve.

This object is achieved in a pressure relief valve with the features of claim 1. It is provided here that the membrane is connected in its circumferential area completely around the inner wall surface of the valve body surrounding the passage opening via a connection area, in particular in a materially bonded manner.

In the pressure relief valve constructed in this way, the membrane essential for the pressure relief of the container, which z. B. is designed as a thin film against external mechanical influences such. B. a pressurized water jet or hard particles, safely protected, with reliable operation is guaranteed. In addition to battery or accumulator cells, use is also possible in other cell-like cavities, such as, for. B. a closed container in which a pressure can build up that causes a risk of bursting, for example in a storage container in an aircraft. In the closed state, the passage of gas is only possible at or through the membrane, since the flow path or all flow paths between inside and outside only lead through the membrane or, in the case of an abrupt gas flow, through its tear or tear point.

A configuration that is advantageous for a reliable pressure relief function in the event of a sudden pressure build-up is that the membrane and / or the connection area between it and the valve body is provided with a weakening zone which breaks through when the pressure difference between the interior and the surroundings of the container exceeds a predetermined pressure difference threshold .

Embodiments which are advantageous for various purposes consist in that the membrane and the connection area are completely impermeable to a fluid, in particular to gas, as a rupturable or tearable bursting membrane, or for the continuous reduction of a pressure difference between the interior of the container and its surroundings only permeable or semi-permeable to gas -permeable. A permanent, continuous pressure build-up can be avoided by means of a permeable or semi-permeable membrane, whereas a tearable or tearable membrane may also offer reliable pressure relief in the event of an abrupt rise in pressure, with a defined pressure difference threshold (e.g. through test tests) being established for its response can.

In an embodiment of the invention that is advantageous for the respective application, the membrane is designed as a bursting membrane, in particular as a film, fluid-tight and flexible or liquid-tight and permeable or semi-permeable.

Another embodiment that is advantageous for the function provides that at least one interruption is introduced for the flow channel in a connection wall of the valve cover connection in the transition area between the through opening and the space between the valve cover connection and the valve cover, the at least one interruption in the radial direction with respect to a longitudinal axis of the valve body is completely covered by the radially spaced circumferential wall of the valve cover towards the outside towards the environment, the circumferential wall being completely circumferential or provided with outflow openings.

A further advantageous embodiment for reliable functioning is obtained in that in the wall section of the valve cover on the top side, a recess is formed with a peripheral wall which is radially spaced outward from the longitudinal axis and inwardly spaced from the circumferential wall and extends parallel to or at an acute angle to the longitudinal axis extends and is provided with at least one opening through which the at least one flow channel leads to the environment. In this case, no additional interruptions need to be provided in the circumferential wall of the valve cover, so that it can be configured in a particularly suitable manner for the covering function and / or handling during assembly.

Various advantageous design variants also result from the fact that the valve cover is fastened to the valve cover connection in a form-fitting or material-fitting manner. Design variants that are advantageous for production and function are that the valve cover is molded, welded or glued to the valve cover connection, or that the valve cover is screwed or latched to the valve cover connection.

Further advantageous measures for the connection of the valve cover to the valve body and the function consist in that the valve cover is materially or positively connected to at least one end section of the valve cover connection via the inside of its cover-side wall section, in particular via holding structures formed thereon, and furthermore in that the valve cover is connected in a materially bonded manner, in particular by welding or gluing, to wall sections protruding like a finger of the valve cover connection, between which the at least one interruption is arranged.

The refinements that the valve cover on the valve cover connection is connected wholly or partially to the valve cover connection in such a way that it can be torn off in the event of an abrupt gas flow also contribute to good functioning.

For mounting on a container, it is advantageously provided that the container connection connection for the fluid-tight attachment of the pressure relief valve to a container is provided with a connection thread, locking elements and / or a circumferential contact flange. An advantageous embodiment variant consists in that the container connection connection has a seal, in particular a rubber seal.

In addition, the subject matter of the invention is a container with at least one cell-like cavity, in particular a battery or accumulator, with at least one pressure relief valve according to one of Claims 1 to 12.

• 1 eine perspektivische Ansicht einer ersten Ausführungsform eines Druckentlastungsventils,
• 2 eine perspektivische Explosionsansicht des Druckentlastungsventils aus 1,
• 3 eine Seitenansicht auf das Druckentlastungsventil aus 1,
• 4 eine Schnittansicht des Druckentlastungsventils aus 3 entlang der Achse C-C,
• 5 eine Schnittansicht einer zweiten Ausführungsform des Druckentlastungsventils,
• 6 eine Schnittansicht einer dritten Ausführungsform des Druckentlastungsventils und
• 7 eine weitere Ausführungsvariante des Druckentlastungsventils in einer perspektivischen Gesamtansicht (Teilbild a) und in geschnittener Ansicht (Teilbild b).

The invention is explained in more detail below on the basis of exemplary embodiments with reference to the drawings. Show it:

• 1 a perspective view of a first embodiment of a pressure relief valve,
• 2 FIG. 3 is an exploded perspective view of the pressure relief valve 1 ,
• 3 a side view of the pressure relief valve 1 ,
• 4th a sectional view of the pressure relief valve 3 along the axis CC,
• 5 a sectional view of a second embodiment of the pressure relief valve,
• 6th a sectional view of a third embodiment of the pressure relief valve and
• 7th a further embodiment of the pressure relief valve in a perspective overall view (part a) and in a sectional view (part b).

the 1 shows a perspective view of a first embodiment of the pressure relief valve, wherein a valve body 1 a tank connection port 2 with a container connection wall 13th includes, which is a thread 14th having. With the valve body 1 is a valve cover 6th with a cover wall 11 tied together.

the 2 FIG. 13 shows an exploded perspective view of the pressure relief valve from FIG 1 . In this embodiment, the valve body 1 at that of the tank connection port 2 remote end area a valve cover connection 3 with a connecting wall 7th on, in which at least one interruption 9 is provided. The valve cover 6th has a wall part on the cover side 110 and an outer peripheral wall 10 with an essentially round or, alternatively, polygonal contour in the present case and surrounds it with the valve cover connection 3 connected state the valve body 1 in its outer or surrounding area, cup-shaped or cap-shaped, the inside of the valve cover 6th opposite the valve cover connection 3 a gap 15th forms (see 4th ). In the transition area between the tank connection port 2 and the valve cover port 3 is the wall of the valve body 1 to a circumferential contact flange 16 for contact and sealing or additional sealing on a (not shown) container wall around a container opening, the valve cover connection 3 merges into an exemplary hexagonal tool attachment.

3 shows the pressure relief valve 1 again in a side view and in 4th the pressure relief valve off 3 in a sectional view along a sectional plane CC 3 . There is one of the tank connection port 2 and the valve cover port 3 surrounding passage opening 4th recognizable in which a membrane 5 is arranged. Through the through opening 4th and the at least one interruption 9 the connecting wall 7th is at least one between the valve cover port 3 and the valve cover 6th formed flow channel 40 allows continuous or abrupt gas flow. The top wall 11 of the valve cover 6th can either be completely closed or at least one interruption for the at least one flow channel 40 exhibit. This interruption can either be used as an outflow opening laterally in the circumferential wall 10 or removed from it, as a breakthrough 113 (please refer 7th ) in the upper part of the valve cover 6th in a wall section on the cover side 110 , be arranged. The at least one breakthrough 113 in the valve cover 6th can in particular by an axially offset wall part 110 ' in the wall part on the top side 110 the top wall 11 be formed, the offset wall part 110 ' and a peripheral outer portion 110 " of the wall part on the top side 110 the top wall 11 are connected to one another by means of at least one wall bridge in such a way that the at least one opening 113 is formed. In other words, in the wall section on the cover side 110 of the valve cover 6th is a depression or depression 111 with one of them radially spaced from the longitudinal axis of the valve body 1 or valve cover 6th surrounding boundary wall 112 molded into which the breakthroughs 113 are introduced (see 7th ).

The valve body 1 but can also have one to at least one outflow opening in the circumferential wall 10 of the valve cover 6th offset complementary connecting wall covering the at least one outflow opening in the radial direction 7th have, wherein the connection wall 7th and the perimeter wall 10 are arranged at a distance from one another. These respectively offset walls or wall parts serve to protect against the penetration of foreign bodies into the pressure relief valve and, in particular, to protect the in the valve body 1 arranged membrane 5 against mechanical damage from hard particles or a hard water jet, e.g. B. when high pressure cleaning. The arrangement of the openings also offers a corresponding protective function 113 in the boundary wall 112 .

A configuration which is advantageous for the respective application consists in that the membrane 5 in a radial outer area with the valve body 1 is connected completely circumferentially, in particular that the membrane 5 in a radial outer area, fluid-tight with the valve body 1 is completely connected all around. The membrane and / or the connection area between it and the valve body 1 can be provided with a weakening zone that allows a targeted tearing of the membrane 5 enables. This means that the pressure relief valve can be used in both moisture-sensitive and moisture-insensitive environments. Also a connection of the membrane 5 in their outer area with the valve body by clamping with a clamping element and / or by means of adhesive is possible.

The membrane 5 can be made of plastic, e.g. B. made of PTFE, or made of metal, e.g. B. made of aluminum or steel, advantageously as a film. It can be designed to be flexible and / or elastic and is appropriate for the respective purpose designed. In an environment with strong temperature fluctuations, e.g. B. a largely temperature-independent bursting behavior over the relevant temperature range is advantageous or to achieve a defined bursting behavior depending on the temperature, a version with a certain bursting behavior depending on the temperature can be used (e.g. faster tear through with strong temperature development). In particular, the bursting threshold of the membrane 50 be determined so that it decreases in a predetermined manner with increasing temperature.

In an embodiment that is advantageous for the respective application, it can be provided that the membrane 5 with the valve body 1 materially connected, in particular glued or welded, or that the membrane 5 between the valve cover port 3 and the valve cover 6th fixed, in particular clamped.

In an embodiment of the invention that is advantageous for the respective application, the membrane 5 be designed as a bursting membrane, in particular as a film, fluid-tight, permeable or semi-permeable and flexible, for example also elastic. The bursting membrane, in particular in the form of a film, is intended for one-time use in this case. In the case of a fluid-tight and flexible, in particular elastic, design, the membrane can 5 give way when the internal pressure of the tank increases and move outwards towards the valve cover 6th bulge. However, it can also be liquid-tight and permeable or semi-permeable for a gas flow, depending on the conditions of use

As in 4th shown, the connection wall 7th of the valve cover connection 3 and the top wall 11 of the valve cover 6th each be smooth or flat. In this case, the valve cover 6th with the valve cover connector 3 be advantageously cohesively connected to a connecting surface by means of gluing or welding. 5 shows an embodiment in which the connection was made by means of welding, the connection surface being shaped like a wave in longitudinal section. A molding is also possible.

Both the connection by means of gluing and by means of welding allow a simple production of a connection of the valve cover 6th and the valve cover connector 3 and are therefore advantageous for a single use, such as. B. in the event of destruction of the membrane with an abrupt rise in pressure. For example, the connection of the valve cover 6th also be designed so that it is from the valve body 1 completely or partially tears off in order to open up the flow path over a large area in the event of an abrupt rise in pressure and to prevent the container from bursting.

Another embodiment, which is advantageous for the respective purpose and assembly, provides that the connection walls 7th and the top wall 11 of the valve cover connection 3 and the valve cover 6th each have a thread for their connection. This can be an external thread of the valve cover connection 3 and an internal thread of the valve cover 6th or an internal thread of the valve cover 6th and male threads of the valve cover connector 3 Act.

An additional, in 6th The embodiment shown, which is advantageous for the respective purpose and assembly, provides that the connection walls 7th and the top wall 11 of the valve cover connection 3 and the valve cover 6th at least one locking surface each 12th , 8th to have their connection. The top wall has 11 of the valve cover 6th on the inside of their peripheral wall 10 at least one locking surface 8th during the connection process of the valve cover 6th with the valve cover connector 3 via at least one counter-locking surface 12th of the valve cover connection 3 snaps and engages with this.

Both the threaded connection and the latching connection are advantageous if they are intended to be used several times, since in these cases the valve cover 6th can be easily and quickly removed from or placed on the valve cover connection.

In an embodiment that is advantageous for the respective purpose and assembly, the container connection port 2 a smooth (unstructured) wall 13th or a wall 14th with a thread 14th or have at least one locking surface for fluid-tight connection to a container. Here is the tank connection port 2 connectable to a container by means of gluing or welding, the thread or the at least one locking surface. As a result, either the pressure relief valve z. B. in particularly critical environmental conditions only interchangeable with the container or can be used in z. B. uncritical environmental conditions can also be removed from the container and replaced without it.

In a further variant, as shown in 7th is shown is the valve cover 6th with the depression 111 in the wall section on the top side 110 the top wall 11 Mistake. The depression 111 is circumferential, radially spaced from the longitudinal axis of the pressure relief valve with a steep (parallel or acute angle less than 20 ° or 10 ° to the longitudinal axis) boundary wall 112 delimits, in the one or several breakthroughs 113 are arranged through which the flow channel 40 leads to the environment.

An additional embodiment of the invention that is advantageous for the function provides that the container connection port 2 a seal, in particular a rubber seal. This is particularly the case when the container connection port is connected 2 and the container (possibly in addition to the contact flange 16 ) by means of a screw or snap-in connection is advantageous. Alternatively, the connection can be made via a wide contact flange 16 , on which fastening domes are formed, in particular for screw or rivet fastening, are produced on the outside of the container wall, such as 7th shows. The contact flange 16 is advantageously provided on its side facing the container wall with a circumferential seal that z. B. as a separate sealing element in a circumferential receiving groove of the contact flange 16 is inserted and / or cohesively z. B. is attached or molded by gluing.

In addition, the subject matter of the invention is a container with at least one cell-like cavity, in particular a battery or accumulator, with at least one pressure relief valve.

The pressure relief valve is used in a container with at least one cell-like cavity, in particular a battery or accumulator. In addition to battery or accumulator cells, use is also possible in other cell-like cavities, such as, for. B. a closed container in which a pressure can build up and which causes a risk of bursting, such as a storage container in an airplane.

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.

Patent literature cited

• DE 102014111041 A1 [0003]
• US 2013/0098912 A1 [0004]
• DE 102015005276 A1 [0005]
• DE 102016004648 A1 [0005]
• DE 102012022346 B4 [0006]

Claims (13)

Pressure relief valve for connection to a container comprising a valve body (1) with a through opening (4) surrounded by a container connection connection (2) and a valve cover connection (3) and provided with a membrane (5) and a valve cover (6), one of which is a cover wall (11) with a circumferential wall (10) and a cover-side wall section (110) that is round or polygonal in an axial plan view and can be or is connected to the valve cover connection (3), wherein in the connected state of the valve cover (6) with the valve cover connection (3) and the Pressure relief valve with the container in the event of a pressure difference between an interior of the container and its surroundings, a continuous and / or abrupt gas flow through the passage opening (4) and at least one flow channel (40) is made possible, which is through an intermediate space (15) between the valve cover connection (3 ) and the valve cover (6), whereby the valve cover (6) covers the valve cover connection (3) like a cap, characterized in that the membrane (5) is firmly, in particular cohesively connected in its circumferential area to the inner wall surface of the valve body (1) surrounding the through opening (5) via a connection area. Pressure relief valve according to one of the preceding claims, characterized in that the membrane (5) and / or the connecting area between it and the valve body (1) is provided with a weakening zone (50) which, when a pressure difference exceeds a predetermined pressure difference threshold between the interior and the tears through the area around the container. Pressure relief valve according to one of the preceding claims, characterized in that the membrane (5) and the connection area are completely impermeable to a fluid, in particular to gas, as a tearable or tearable bursting membrane, or for the continuous reduction of a pressure difference between the interior of the container and its surroundings only is permeable or semi-permeable to gas. Pressure relief valve according to one of the preceding claims, characterized in that for the flow channel (40) at least one interruption (9) in a connection wall (7) of the valve cover connection (3) in the transition area between the through opening (4) and the space (15) between the Valve cover connection (3) and the valve cover (6) is introduced, the at least one interruption (9) in the radial direction with respect to a longitudinal axis of the valve body (1) from the radially spaced circumferential wall (10) of the valve cover (6) completely outwards to the environment is covered towards, wherein the circumferential wall (10) is formed completely circumferentially or is provided with outflow openings. Pressure relief valve according to one of the preceding claims, characterized in that in the cover-side wall section (110) of the valve cover (6) there is a recess (111) with a peripheral wall (112) which is spaced radially outward from the longitudinal axis and inwardly spaced from the circumferential wall (10) ) is formed, which extends parallel or at an acute angle to the longitudinal axis and is provided with at least one opening (113) through which the at least one flow channel (40) leads to the environment. Pressure relief valve according to one of the preceding claims, characterized in that the valve cover (6) is attached to the valve cover connection (3) with a form fit or material fit. Pressure relief valve according to one of the preceding claims, characterized in that the valve cover (6) is molded, welded or glued to the valve cover connection (3) or that the valve cover (6) is screwed or latched to the valve cover connection (3). Pressure relief valve according to one of the preceding claims, characterized in that the valve cover (6) is connected to at least one end section of the valve cover connection (3) in a materially or form-fitting manner via the inside of its cover-side wall section (110), in particular via retaining structures formed thereon. Pressure relief valve according to one of the preceding claims, characterized in that the valve cover (6) is materially connected, in particular by welding or gluing, to finger-like protruding wall sections of the valve cover connection (3), between which the at least one interruption (9) is arranged. Pressure relief valve according to one of the preceding claims, characterized in that the valve cover (6) is connected to the valve cover connection (3) in such a way that it can be completely or partially torn off in the event of an abrupt gas flow. Pressure relief valve according to one of the preceding claims, characterized in that the container connection port (2) to is provided fluid-tight attachment of the pressure relief valve to a container with a connection thread, locking elements and / or a circumferential contact flange. Pressure relief valve according to one of the preceding claims, characterized in that the container connection connection (2) has a seal, in particular a rubber seal. Container with at least one cell-like cavity, in particular a battery or accumulator, with at least one pressure relief valve according to one of the preceding claims.

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