DE202011001955U1 - Fire protection valve and gas meter - Google Patents

Abstract

Fire protection valve (1.1 '), in particular for the gas inlet (2) of a gas meter (3, 3'), with an in particular cylindrical, tubular gas guide element (6) and a closing element (12) designed to close an opening (14) in the gas guide element (6) ), characterized in that the closing element (12) is coupled to a thermally reactive, in particular foaming, material (22) in such a way that the closing element (12) into a position closing the opening (14) due to a heating-related expansion of the thermally reactive material is moved.

Description

The invention relates to a fire protection valve, in particular for the gas inlet of a gas meter, with a particular cylindrical, tubular gas conducting element and a closing element designed to close an opening of the gas guiding element, as well as a gas meter.

Especially in the field of gas meters, the fire protection, as far as flammable gases, an important issue, since it is conceivable that in case of fire, the gas meter leaking and thus flammable, especially explosive gas leaks, resulting in an increasing risk in the fire situation ,

Therefore, a variety of solutions have been proposed in the past to increase the fire safety of gas meters. For example, a valve has been proposed in which a pressurized spring keeps the valve open. In case of fire, a valve holder is destroyed, the spring relaxes and the valve is closed.

Another solution is out WO / 2004/090478 A1 known. Therein, it is proposed to arrange a heat-inflatable material within a gas meter housing and to provide an encapsulant volume for the expandable material, wherein in irreversible expansion of the expandable material in case of fire, the encapsulation volume is filled, so that gas leakage openings are sealed in the gas meter housing. The gas meter housing is also resistant to heat, so that the expandable material in case of fire, an adequate, not too large expansion space is available. So a leakage of gas in case of fire and an associated risk of explosion should be avoided. However, this is disadvantageous since complete security is not given, in particular, since the expansion behavior of the expandable material is unguided and therefore not always completely predictable.

In addition, the gas meter must inevitably have a refractory housing, so that not yet can be caused by destruction of the gas meter leaks again, so that the gas meter is structurally complex and expensive.

A gas pipe connection, which has a thermally expanding substance on the inside at the connection point is through JP 2004/093546 (A) disclosed. As the compound heats up, the substance expands and closes the passageway. However, even here, the expansion of the substance is unpredictable, so that there is no sufficient security against a gas leak.

The invention is therefore based on the object to provide a fire protection valve for the gas inlet of a gas meter, in which an increased reliability of fire safety is given.

To solve this problem is provided according to the invention in a fire protection valve of the type mentioned that the closing element is coupled with a thermally reactive, in particular foaming material, that by a heating-related expansion of the thermally reactive material, the closing element is moved to a position closing the opening.

Thus, the present invention also proposes the use of a thermally reactive material which, when a threshold temperature or a threshold temperature range is exceeded, performs an irreversible expansion process, in particular by foaming. In contrast to the prior art, however, as in the case of a conventional valve, it is a closing element which actually reliably interrupts the gas flow, in particular at the inlet of a gas meter. The thermally reactive material is thus guided and unaffected by the current gas flow through the fire protection valve in such a way that it is coupled to the closing element and this presses to close the opening of the gas guide against just this opening. It is therefore proposed that the irreversible expansion process be controlled by the coupling to the closing element and unaffected by the gas flow, so that a higher reliability exists. In particular, it is conceivable to arrange the thermally reactive material so that it comes to a closing of the valve earlier, as a faster heating occurs in case of fire. The actuator that causes the valve to close is therefore the thermally reactive material.

In addition to the increased sealing safety, which is given by the controlled expansion of the material, which can take place, for example, in an expansion chamber, the fire protection valve according to the invention also offers other advantages. Thus, the fire protection valve can be provided in particular at the gas inlet of a counter, so that the inlet of the gas meter is already sealed. This makes it possible, for example, the housing of the gas meter made of a non-refractory material, such as plastic, build, so that an increased cost savings is given. If, as already mentioned, the material is arranged, for example, close to a housing wall or the like, this is followed by a faster heating and a faster reaction of the thermally reactive material, bearing in mind that even with a corresponding design of the fire protection valve, a smaller amount of the material is needed in principle.

Obviously, many possibilities are conceivable to construct the fire protection valve according to the invention concretely. In a particularly advantageous specific embodiment, however, it may be provided that a valve element movable against the gas guide element has a guide section guided on the gas guide element and the closing element coupled to the guide section by a gas-permeable section, in particular a valve cap, and a housing enclosing the gas guide element and the valve element are provided, wherein between the gas guide element and the housing, an expansion chamber is formed, which is divided by a separating portion of the valve element into a material region and an expansion region such that upon a heating-related expansion of the disposed in the material region thermally reactive material, the separating portion pressed into the expansion region is until the closing element closes the Gasleitabschnitt. In this extremely space-saving feasible embodiment, it is therefore provided to form an expansion chamber for the material between a housing wall and the gas-conducting element. In this case, the configuration can be selected such that, when the valve is open, the separating section of the valve element, which ultimately forms a type of driver, forms an immediate boundary of the material region. Since this is the only movable boundary of the material area, the expansion process is ultimately carried out, since a warming-related expansion of the material can only press the separating section into the expansion area, the entire movement being directed by the guide by means of the guide section on the gas guiding element. The closing element, which in turn is coupled by the gas-permeable portion with the separator acting as a driver, is then simply pressed onto the opening of the gas-conducting element. In principle, therefore, one can also regard the gas-conducting element as a kind of fixed sleeve, the valve element with the closing element as a movable sleeve, which is pressed by the material closing the gas-conducting element onto the opening of the gas-conducting element. In this embodiment, not only a very space-saving and compact fire protection valve can be realized, but it is also relatively little thermally reactive material needed, which is also located immediately adjacent to the housing wall and is therefore heated quickly to the temperature or the temperature range of irreversible expansion, when a fire occurs.

In this case, in order to further support the mechanical stability of this specific embodiment, provision may be made for the sleeve-like guide section to coaxially surround the gas guide element and to guide it between the housing wall and the gas guide element. It can be provided, for example, that the housing then erupts to form the expansion chamber.

Conveniently, it can further be provided that the separating section is formed by a collar which is bent over at the edge of the guide section. In such an embodiment, in particular in the described coaxial formation of guide section and gas guide ultimately expansion chamber have a hollow cylindrical shape, which can thus be divided by forming a collar easily in the material region and the expansion region, while the entire fire protection valve is formed substantially symmetrical.

With particular advantage, the housing can be formed by a threaded connection of the gas meter. In this way, it is ultimately possible to integrate the fire protection valve directly into the construction of the gas inlet of a gas meter. Due to the double use of the threaded connection as a housing of the fire protection valve no further, possibly complicated couplings are required.

In a further, alternative, particularly advantageous embodiment of the present invention can be provided that the gas guide element is formed by the opening into the interior of the gas meter line section of the inlet. In this way, an essential element of the fire protection valve is formed by the inlet itself, so that overall a simpler construction of the fire protection valve is possible.

In particular, it is possible to provide a nachmontierbaren fire protection insert, which forms the fire protection valve together with the line section.

Thus, it can be provided in development of this embodiment that a means of at least one fastener in the line section fixed fire protection insert is provided, which includes a in the installed state with non-expanded material outside the line section located closing element leading and supporting fixture. Thus, an insert is used which can be used with particular advantage without opening the housing of the gas meter, in particular therefore when the latter is already crimped or the like. The fire insert is then inserted through the inlet until the Fasteners of the insert and the line section interact with each other, so that the fire protection insert, so to speak, "locks". The locking position is chosen so that the free, wider space inside the gas meter housing is used to support the closing element in the ground state, which is yes designed to close the gas conducting element in the form of the line section. Through the material, the closing element is then moved from its position in the interior of the gas meter into the position closing the opening of the gas guiding element (in particular the opening in the interior of the gas meter).

It is particularly preferred if the holding device and the closing element, which are in particular designed as nested sleeves define an expansion chamber for the material. This means that the material is arranged in a substantially closed volume between the two sleeves, with the sleeves being displaced relative to one another during expansion so that the closing element is brought into the position closing the opening, the extent of the thermally reactive material being defined takes place in the expansion chamber formed by the sleeves. In this way, therefore, in the embodiment described here, an extremely specific and defined effect of the expansion of the material can be realized, by means of which the closing element is brought into the position closing the opening with high reliability.

In a specific embodiment, it may be provided that both sleeves are formed as closed sleeves, wherein the closing element is inserted in such a form-fitting manner in the sleeve-like portion of the holding device, so that a sleeve is guided in the other sleeve or the sleeve-like portion of the mounting device in that the sleeves form a substantially closed volume, and therefore a defined expansion chamber, over the entire movement path into the position closing the opening. In other words, the moving distance of the closing element is greater than the height of the sleeve, so that the expansion chamber remains closed laterally.

In another embodiment it can be provided that the holding device and the closing element are slotted sleeves with webs, so that the webs of the closing element engage precisely between the webs of the holding device. It is therefore also a slotted configuration of the sleeves or sleeve-like shares conceivable, wherein the two sleeves whose radius is the same in this case, nestle. Since the webs complement each other, a laterally closed expansion chamber is also realized here. In this embodiment, preferably, the webs of the holding device may have projections in a groove of the line section at their ends. If the webs are slightly elastic, the fire protection insert can simply be inserted through the inlet until the projections of the webs engage in the groove and the fire protection insert is fastened, so that the fire protection valve is formed.

It should be noted at this point that a particularly simple construction of the fire protection insert can be realized if in the embodiment with two closed sleeves of different diameters, a wire element is used, which has a particular running along the central axis of the sleeves carrying and guiding portion on the other hand, but also has a fixing portion which may be bent, for example in the manner of an annular spring to a spring element. Such a spring element can in turn engage in a corresponding groove of the line section.

Obviously, both types of attachment described here only take away a very small portion of the inlet cross-section, so that only a very small impairment of the gas flow can occur.

In general, therefore, it can be said that the fastening means is preferably a section or projection of the holding device engaging in a groove of the line section.

The opening-occluding position of the closure member may be defined by a shoulder of the inlet and / or by the attachment means. This means that either a specific design of the line section is made, for example a change in radius which manifests itself in the form of a shoulder, or the closing element ultimately abuts the fastening means engaging, for example, in a groove of the line section, which defines the end position.

In the embodiments in which the holding device and the closing element are formed as nested sleeves which define an expansion chamber for the material, it can be provided in a further advantageous embodiment of the present invention that at least one material opening is provided in the surface of the closing element closing the opening , Such an opening should be dimensioned rather small, so that, for example, the proportion of all material opening on the total surface of the closure surface of the closing element is less than 10%, in particular less than 5%. Such small material openings thus do not leave the outlet expanding material as long as the expansion chamber is filled by movement of the closing element in the position closing the opening, but serve only when the expansion chamber is completely filled, as outlet openings for a certain amount of the expanded material, so that the material further into the inlet can flow to complete the gap between the valve element and the line section gas-tight. The emerging material can thus bond, for example, with the fastening means, the line section and in particular also the groove in order to achieve an even better seal.

The closure member may further generally include a thermally resistant seal. If a thermally resistant seal is used, on the one hand by the sealing function of the thermally resistant seal enforced by the closing element seal improved, on the other hand, the seal is also selected thermally resistant, so that even at higher temperatures, the blocking effect of the fire protection valve is not repealed.

In a particularly advantageous embodiment of the present invention can be provided that the fire protection valve comprises at least one closing device for reversible closing and opening of the valve by the closing element, regardless of the material. In this way, the fire protection valve according to the invention can be realized with a shut-off valve. So there is another actuator provided, which is, however, designed for reversible closing / opening of the valve, so that, for example, user-controlled or by means of a valve-controlling automatic interruption of the gas supply can be realized. For example, it can be provided that the closing device is a magnetic closing device, that is, the valve is a solenoid valve for this case. For example, a magnetically configured closing element (in particular also the entire valve element) can be moved by an external electromagnet or the like. Particularly advantageous in this embodiment as a combined shut-off valve and fire protection valve is that the shut-off in the event of a fault, so in case of fire, both in the closed and open valve is effective.

In addition to the fire protection valve, the invention also relates to a gas meter, comprising a gas inlet provided with a fire protection valve according to the invention. When the fire protection valve is open, the gas can thus easily enter the meter, for example through the openings in the gas-permeable section. If a fire and the associated heat occur, the thermally reactive material will irreversibly expand and close the gas inlet safely and reliably. This makes it possible, for example, to largely produce the gas meter according to the invention from plastic, in particular to provide a gas meter housing made of plastic.

All statements regarding the fire protection valve can be analogously transferred to the gas meter according to the invention. In this way, the advantages already described above are achieved.

In particular, however, it can be provided that a threaded connection of the gas inlet of the gas meter forms a housing of the fire protection valve. In this way, there is an excellent integration of the fire protection valve in the gas meter.

Further advantages and details of the present invention will become apparent from the embodiments described below and with reference to the drawing. Showing:

1 a cross section through a fire protection valve according to the invention,

2 a view of the fire protection valve in the open state,

3 a view of the fire protection valve in the closed state,

4 a cross section through an inventive fire protection valve of a second embodiment,

5 one 4 corresponding cross-section with the closing element closed,

6 a perspective view of a slotted sleeves fire protection insert, and

7 a sectional view of the fire protection insert according to 6 ,

1 shows a cross section through a fire protection valve according to the invention 1 , It is at the gas inlet 2 an only indicated gas meter according to the invention 3 intended. Evident points the gas meter 3 inlet side a threaded connection 4 on, at the same time as a housing 5 for the fire protection valve 1 serves.

The fire protection valve 1 includes a fixed, on the housing 5 attached gas guide 6 which is tube-like and for attachment to the gas meter side end of the housing 5 a collar 7 having. Against that Gas guiding element movably guided is a valve element 8th , which is a sleeve-like, to the Gasleitabschnitt 6 coaxial guide section 9 comprising, at the over a gas-permeable section 10 , made here by footbridges 11 , a closing element 12 which is present as a valve cap 13 is trained. The valve cap 13 clearly fits exactly over the opening facing her 14 of Gasleitabschnitts 6 , In the valve cap 13 is a thermally resistant seal 15 arranged that when the valve cap 13 on the opening 14 is pressed, an improved, even in case of fire resistant sealing of the gas inlet 2 allows.

It clearly shows the case 5 forming threaded section 4 the other gas meter 3 turned away another shoulder 16 on, so that in the area of the shoulder the radius of the housing 5 is narrowed and that ultimately the leadership section 9 between the case 5 , specifically the shoulder 16 , and the gas guide section 6 is stable.

Limited by the gas guide section 6 with his collar 7 and the case 5 with his shoulder 16 Obviously, an expansion chamber results in the region of greater radius 17 , It can also be seen that the guide section 9 as well as an outwardly bent collar 18 on, as a separator 19 the expansion chamber 17 in two areas 20 . 21 divided. In the material area 21 is a thermally reactive, intumescent material 22 arranged such that in the open position of the valve element 8th the collar 18 attached to him.

If the temperature rises above a threshold temperature or a threshold temperature range, in particular due to a fire, an irreversible expansion of the material occurs 21 on. This squeezes the separator section 19 in the expansion area 20 , so that, guided by the shoulder 16 and the gas guide section 6 the closing element 12 on the opening 14 is moved until it is against the gas guide 6 is pressed and one the opening 14 closing position.

This is illustrated by the perspective views in 2 and 3 again explained in more detail, wherein for better illustration of the threaded portion 4 that's the case 5 forms, is shown transparent. 2 shows the open position of the fire protection valve 1 in the gas through the gas-permeable section 10 in the gas meter 3 can flow into it. The valve cap 13 is from the opening 14 apparently spaced; the material 22 only fills the material area 21 on.

3 now shows the situation when the material 22 foamed. Obviously, it now essentially fills the entire expansion chamber 17 out. The collar 18 was pressed upwards, leaving the valve cap 13 , borne by the webs 11 and the guide section 9 , about the opening 14 against the gas guide 6 is pressed, so that, in particular in connection with the seal 15 , a fireproof closure is given, which prevents even gas in the gas meter 3 flows.

It should be noted at this point that fire protection valve according to the invention may also include a further, not shown here closing device, which allows a reversible closing and opening of the valve, regardless of the material. Then the valve can 1 can also be used as a shut-off valve. Particularly suitable are magnetic locking devices that can move the closing element via an electromagnet as an actuator.

Thermally reactive materials, ie in particular intumescent or expandable materials, in the fire protection valve according to the invention 1 can be used, are still known in the art. By way of example, reference is made to expandable gums and / or combinations of polyester resin and hardener, optionally with a filler. Vermiculite can also be used. Appropriately, by combining the above or other materials, a material 22 be created, which is ideally suited for the specific environment of use.

With reference to the 4 - 7 Now further embodiments of the present invention are shown, wherein for the sake of clarity, the same components are provided with the same reference numerals.

4 shows a fire protection valve according to the invention 1 in a further embodiment, as in a again only indicated gas meter according to the invention 3 ' can be realized. The gas inlet 2 has shown a lower line section 23 in which a groove 24 is provided. The groove 24 serves as an inlet-side fastener for a fire protection use 25 who together with the management section 23 the fire protection valve 1' forms. In this case, the line section 23 in this case, the gas guide 6 which is one of the interior 26 of the gas meter 3 ' facing opening 14 having.

The fire protection insert 25 has a mounting device 27 put on a cup-shaped pod 28 which is covered by a wire 29 will be carried. The wire 29 has a straight, along the central axis of the sleeve 28 extending support and guide section and a mounting portion 30 up, bent here, in the manner of a round spring, into the groove 24 intervenes. The closing element 12 is as another pot-like sleeve 31 on the sleeve 28 attached and has a central passage opening for the wire 29 on. The wire 29 and the sleeve 28 lead the sleeve 31 , which is obviously movably mounted. In this case, the outer diameter of the sleeve corresponds 28 the inner diameter of the sleeve 31 , The pods 28 . 31 So define a laterally closed expansion chamber 32 , which persists as long as the path of movement of the sleeve 31 the sleeves are not spaced apart to form a lateral opening.

On the sleeve 28 inside the expansion chamber 32 is the thermally reactive material 22 arranged.

Now the temperature rises above the reaction temperature of the thermally reactive material 22 so it expands and presses the sleeve 31 So the closing element 12 , up until it's on a shoulder 33 at the opening 14 is present and closes, as in 5 is shown. For the sake of clarity, is in 5 the extended material 22 Not shown.

Clearly forms then the expansion chamber 32 still a side-closed room. This is how the material stretches 22 defines and presses the closing element 12 in the closed position.

In the in the 4 and 5 However, shown embodiment are also small material openings 34 , in the present case less than 5% of the total area of the closure surface of the closing element 12 form, provided in the closure surface, so that after the closure element 12 by means of the shoulder 33 has reached its closed position, expanding material 22 can emerge, which with the groove 24 , the attachment section 30 and the line section 23 glued and thus also closed column gas-tight.

An alternative embodiment of a fire protection insert 25 ' shows the perspective view in 6 , These are the closing element 12 forming sleeve 31 ' and the holder device 27 forming sleeve 28 ' formed as slotted sleeves, wherein the webs 35 of the closing element 12 perfectly fitting between the bars 36 the mounting device 27 intervention. The bridges 36 are also elastic and have at their upper end projections 37 on that in the groove 24 in the line section 23 engage and thus form fasteners. A wire is therefore not required, the sleeve 31 ' gets through the sleeve 28 ' guided. As seen from the cross-sectional view in 7 is also apparent, in turn, the material 22 in the expansion chamber 32 between the meshing sleeves 28 ' and 31 ' intended.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been 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.

Cited patent literature

• WO 2004/090478 A1 [0004]
• JP 2004/093546 (A) [0006]

Claims (15)

Fire protection valve ( 1.1 ' ), in particular for the gas inlet ( 2 ) of a gas meter ( 3 . 3 ' ), with a particular cylindrical, tubular gas guiding element ( 6 ) and one for closing an opening ( 14 ) of the gas guiding element ( 6 ) formed closing element ( 12 ), characterized in that the closing element ( 12 ) in such a way with a thermally reactive, in particular foaming, material ( 22 ) is coupled, that by a warming-related expansion of the thermally reactive material, the closing element ( 12 ) into an opening ( 14 ) closing position is moved. Fire protection valve according to claim 1, characterized in that a against the gas guide element ( 6 ) movable valve element ( 8th ) with a on the gas guide element ( 6 ) guided guide section ( 9 ) and with the guide section ( 9 ) through a gas-permeable section ( 10 ) coupled closing element ( 12 ), in particular a valve cap ( 13 ), as well as a gas guiding element ( 6 ) and the valve element ( 8th ) enclosing housing ( 5 ) are provided, wherein between the gas guide element ( 6 ) and the housing ( 5 ) an expansion chamber ( 17 ) formed by a separating section ( 19 ) of the valve element ( 8th ) into a material area ( 21 ) and an expansion area ( 20 ) in such a way that, in the case of a warming-related expansion of the material in the material region ( 21 ) arranged thermally reactive material ( 22 ) the separating section ( 19 ) in the expansion area ( 20 ) is pressed until the closing element ( 13 ) the gas guide section ( 6 ) closes. Fire protection valve according to claim 2, characterized in that the sleeve-like guide section ( 9 ) the gas guide section ( 6 ) coaxially and between the housing wall and the Gasleitabschnitt ( 6 ) is guided. Fire protection valve according to claim 2 or 3, characterized in that the separating section ( 19 ) by a bent at the edge of the guide portion collar ( 18 ) is formed. Fire protection valve according to one of claims 2 to 4, characterized in that the housing ( 5 ) by a threaded connection ( 4 ) of the gas meter ( 3 ) is formed. Fire protection valve according to claim 1, characterized in that the gas guiding element ( 6 ) through the inside ( 26 ) of the gas meter ( 3 ' ) section ( 23 ) of the inlet ( 2 ) is formed. Fire protection valve according to claim 6, characterized in that a means of at least one fastening means in the line section ( 23 ) mounted fire protection insert ( 25 . 25 ' ), the one in the installed state with unexpanded material ( 22 ) outside the line section ( 23 ) located closing element ( 12 ) leading and supporting mounting device ( 27 ). Fire protection valve according to claim 7, characterized in that the mounting device ( 27 ) and the closing element ( 12 ), which in particular as nested sleeves ( 28 . 28 ' . 31 . 31 ' ), an expansion chamber ( 32 ) for the material ( 22 ) define. Fire protection valve according to claim 8, characterized in that in the opening ( 14 ) closing surface of the closing element ( 12 ) at least one material opening ( 34 ) is provided. Fire protection valve according to one of claims 7 to 9, characterized in that the fastening means into a groove ( 24 ) of the line section ( 23 ) engaging section ( 30 ) or lead ( 37 ) of the holding device ( 27 ). Fire protection valve according to one of the preceding claims, characterized in that the closing element ( 12 ) a thermally resistant seal ( 15 ). Fire protection valve according to one of the preceding claims, characterized in that it comprises at least one closing device for the reversible closing and opening of the valve ( 1 . 1' ) by the closing element ( 13 ) regardless of the material ( 22 ). Fire protection valve according to claim 12, characterized in that the closing device is a magnetic closing device. Gas meter ( 3 . 3 ' ), comprising one with a fire protection valve ( 1 . 1' ) according to one of the preceding claims provided gas inlet ( 2 ). Fire protection insert ( 25 . 25 ' ) for insertion in one in the interior ( 26 ) of a gas meter ( 3 ' ), as a gas conducting element ( 6 ) acting line section ( 23 ) of the gas meter ( 3 ' ) to form a fire protection valve ( 1' ) according to claim 1, comprising a material which when installed is not expanded ( 22 ) outside the line section ( 23 ) located closing element ( 12 ) leading and supporting mounting device ( 27 ) with at least one fastening means for fixing the fire protection insert ( 25 . 25 ' ) in the line section ( 23 ).

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