DE102006059471B4 - flow Switch - Google Patents

Abstract

Flow monitor (1) for automatically shutting off a line through which a medium can flow in a flow direction
- With a housing (2) having a valve seat (3),
- With a shut-off (4) in the housing (2) relative to the valve seat (3) in the flow direction against a bias from an open position in which the medium can flow in the flow direction, in a closed position in which the flow is interrupted, movable is
- With a support element (5) which is arranged in the housing (2) in the flow direction in front of the shut-off body (4) and a system part (6) which comes to rest on an inner side (7) of the housing (2), a central part (8), which serves for movably holding the shut-off body (4), and a connecting means (9), which connects the contact part (6) to the central part (8),
characterized in that the housing (2) has at least one inside recess (10) which at least partially receives the bearing part (6).

Description

The The present invention relates to a flow switch for automatic shut-off one of a medium flowable in a flow direction Line with a housing, having a valve seat, with a shut - off body, the casing relative to the valve seat in the flow direction against a bias from an open position in which the medium in the flow direction stream can, in a closed position, in the flow is interrupted, is movable, with a support element in the housing in the flow direction in front of the shut-off body is arranged and that a plant part, on an inside of the housing comes to the plant, a central part, which is for mobile holding of the shut-off serves, and has a connecting means, which with the system part connects to the central part. With the term line is within the meaning of the invention any element of any shape and any one Material meant by a medium, in particular a fluid, for example a gas can be passed through. Such an element can For example, a pipe or a pipe or a component a pipe or a pipe. With such an element may also be a fitting or a flow-through device or a part thereof meant be.

Flow switch, the in from a medium, in particular a fluid, for example a gas, perfused Lines, in particular in pipes or related fittings and Devices, are used in a variety of designs known. They serve, with an inadmissible flow increase of the Medium over a predetermined value to interrupt the supply of the medium. This occurs especially when due to damage of the piping system the flow of the medium rises excessively. At normal constant Maximum flow rates, for example due to a gas consumer operating under full load, however, the flow switch will not triggered.

The closest state of the art is the German utility model DE 201 16 899 U1 , The utility model describes a conduit insert for a flow switch. Here, a shut-off body is connected to a guide pin holding, wherein the shut-off is relative to a support member on which a valve seat is formed, is movable. If the flow switch is triggered in the event of an inadmissible increase in flow rate, then the shut-off body moves in the flow direction counter to a spring force on the valve seat until the shut-off body is sealingly connected to the valve seat and thereby shuts off the line.

at In the prior art, the support element has a ring body, whose outer peripheral surface on the inside peripheral surface of the housing of the flow monitor or of for the inclusion of the flow switch provided line section comes to the plant. From the ring body run several, usually at least three, struts to the center, where they come with an axial mount for the guide pin, also called the valve stem is designated, are firmly connected. In cross section, so in one Cut across the longitudinal axis of the support element and transverse to the flow direction, protrude the ring body, the star-shaped arranged struts and the valve stem receiving into the flow path. The result is a relatively high pressure drop of at least 0.5 mbar at nominal flow rate.

From the US 4,284,097 and the US 2003/0188799 A1 Each is a conventional check valve, but no flow monitor is known. In such a check valve of the shut-off of the open position in the closed position against the flow direction, with a bias, moves, whereas in a flow switch the shut-off in the flow direction and against a bias from an open position in which the fluid can flow in the flow direction, in a closed position in which the fluid flow is interrupted, is moved. The US 2003/0188799 A1 also describes as a further component of the arrangement next to the check valve also a flow switch, which interrupts the flow when a hose is damaged or accidentally released. The additionally provided non-return valve is arranged independently of the operation of the flow switch and prevents backflow from a storage container into which the fluid is pumped.

It Therefore, the object of the present invention is to provide a flow switch create a reduction in pressure loss allows.

The previously derived and indicated task is at a flow switch of the The type mentioned above solved according to the invention in that the housing has at least one inside recess, which the plant part at least partially absorbs.

By doing the system part of the inside recess in the housing wall is taken, the plant part is taken out of the flow and thus the streamed Cross section of the support element significantly reduced. this leads to turn to a significant reduction in the pressure loss of quite 30% and more.

According to one embodiment of the invention According to the flow monitor, the recess is a circumferential groove in the circumferential direction. Such a groove can be produced in a simple manner and forms a suitable means for resetting the plant part with respect to the flow channel.

Preferably the recess is so deep that it completely absorbs the plant part. The depth of the recess preferably corresponds to the thickness of the Part of the plant, that is its thickness. That's the only thing that stands out Connecting means and the central part in the flow path, causing the pressure loss further reduced.

According to one more Another embodiment of the flow monitor according to the invention is the support element Compressible in the radial direction. In particular, while the plant part Compressible in the radial direction. In this way, the total cross section of the support element when inserting the same in the designated inside recess in the case temporarily be reduced, which significantly simplifies the insertion. As soon as the plant part during the insertion process in the region of the inside recess is expanding the total cross section of the support element again, preferably so far that the plant part completely from the recess is received. Advantageously, the total cross section of the support element chosen so that he is at rest, ie in the relaxed state, greater than is in the installed state, allowing a clamp connection between support element and recess in the housing wall that creates the stability elevated.

In turn In another embodiment of the flow monitor according to the invention, the system part is a Ring body. Preferably, the ring body in the circumferential direction an interruption. Such a ring body, in particular with a break, is easily in the radial direction Compressible and also offers a relatively large contact surface for the Installation in the inside recess in the housing. The latter leads again to another increase stability the connection.

Around To prevent a part of the medium between the housing wall and the support element flowing, rather than completely through the support element to stream, is according to one further embodiment of the flow monitor according to the invention between the radial Outside of the Anlageteils and the recess a seal, in particular a sealing ring, intended. Since the plant part anyway according to the invention over the flow reset is dependent from the flow and the flow medium already a relatively low sealing effect is sufficient. Such Sealing effect can for example be achieved by that the outside of the system part is glued to the recess in the housing wall.

According to one further embodiment of the flow monitor according to the invention, the connecting means at least one strut up. It is also conceivable that several aspirations are provided, which is particularly useful if at relative huge Tube cross sections relatively heavy and relatively large shut - off body in the flow must be stored stable. A minimization of the flow resistance and thus a reduction of the pressure loss to a minimum achieved when the connecting means has only a single strut, which connects the central part with the plant part.

Around an optimal flow not only the support element, but also of the downstream arranged shut-off To obtain the central part is preferably coaxial with the longitudinal center axis of housing arranged.

According to one Embodiment of the flow monitor according to the invention the central part connected to a valve stem, so a shaft, the shut-off wearing, preferably the shut-off on the valve stem along the longitudinal central axis of the housing movable is. Such a structure with a central part and a valve stem provides an optimal flow and a minimum flow resistance, which also has a positive effect on the minimization of the pressure loss.

Of the Flow monitor, in particular the support element, can be prepared in a particularly simple manner, preferably by the plant part, the connecting means and / or the central part are made in one piece, So form a single component.

According to one further embodiment of the flow monitor according to the invention consist of the support element, in particular the plant part, the connecting means and / or the Central part, at least partially made of plastic or metal, in particular sheet metal or steel, preferably spring steel. These materials are on the one hand particularly flexible, allowing the compressibility of the support element when inserted into the housing on the other hand, and are also easy to work with, in particular to shape.

In the case of the flow monitor according to the invention, the support element is preferably produced from a bent strip of material, in particular a plastic or metal strip, preferably a sheet-metal strip. Such strips of material can be produced without great effort and be work, in particular to bend the desired shape of the final support element. In this case, the support member also have a cross-section substantially spiral shape.

According to one more Another embodiment of the flow monitor according to the invention, the exposed to the flow Sections of the support element, in particular the connecting means and / or the central part, a streamlined profile on. It can for one optimal flow and thus minimizing the pressure losses that the flow direction opposing and / or pointing in the direction of flow edges the flow exposed sections rounded or tapered.

specially the rounded or tapered edges lead to a significant reduction of unwanted Turbulence in the region of the support element and shut-off.

at the flow switch according to the invention according to one more further embodiment of the housing a section of a pipeline and thus from the outset component the pipeline. But it is also conceivable that the housing to a Pipeline can be connected, especially with the pipeline screwed, welded or soldered, is. The latter allows the subsequent Attaching a flow switch on existing piping systems.

It Now there are a lot of ways that embodying flow switch according to the invention and further education. For this purpose, for example, referenced one hand to the claims subordinate to claim 1, on the other hand to the description of an embodiment in conjunction with the drawing. In the drawing shows:

1a ) is a sectional view of an embodiment of a flow switch according to the invention in the open position,

1b ) From a sectional view of the flow switch 1a ) in the closed position,

2a ) A sectional view of the support element of the flow switch 1a )

2 B ) is a perspective view of the support element of the flow switch 1a )

3a ) A sectional view of a flow guard insert of the flow monitor 1a ), and

3b ) is a perspective view of a flow guard insert of the flow switch 1a ).

In the 1a ) and b) is a flow switch 1 shown for automatically shutting off a medium-flowable line, wherein the flow switch 1 a housing 2 with a valve seat 3 has which housing 2 can be connected by screwing with the line through which a medium can flow.

In the case 2 points the flow switch 1 a shut-off 4 on, in the case 2 relative to the valve seat 3 is movable.

Furthermore, a support element 5 provided that in the housing 2 is arranged and the one part of the plant 6 on the inside 7 of the housing 2 comes to the plant, a central part 8th , which makes it possible to keep the shut-off body moving 4 serves, and a connecting means 9 that has the plant part 6 with the central part 8th combines.

The housing 2 has an inside recess 10 in the form of a circumferentially circumferential groove, the plant part 6 , here the shape of a ring body 11 has, completely absorbs. In this way, the ring body protrudes 11 not in the flow path.

In 1a ) is the normal case of a uniform flow shown, in which the shut-off 4 is in the open position. If there is a leak in the piping system, the flow rate changes, causing the shut-off 4 to the valve seat 3 is pressed. The corresponding closed position is in 1b ).

In the 2a ) and b) is the support element 5 the above-described flow monitor 1 shown. At the support element 5 is the investment part 6 as a ring body 11 formed in the circumferential direction an interruption 12 having. The interruption 12 it allows a simple way to the plant part 6 of the support element 5 to compress in the radial direction, whereby by inserting the support element 5 in the case 2 , in particular in the recess 10 , is simplified.

For inserting the support element 5 this is compressed by the fitter in the radial direction, which can reduce the cross section significantly. Once the support element 5 in the region of the recess 10 is located, the cross-section automatically increases in such a way that the support element 5 in the region of the recess 10 in the case 2 clamps.

To further increase the stability in the flowed state in addition to the clamping action, is according to the in the 1a ) and b) illustrated embodiment, the support element 5 with the recess 10 bonded. By gluing is here simultaneously a seal 13 created that prevents some of the flow is not through the support element 5 through, but past this between the plant part 6 and recess 10 runs.

The 2a ) and b) let recognize that the support element 5 is made of a bent sheet metal strip, the first end of the central part 8th forms, for receiving the coaxial with the longitudinal central axis L extending valve stem 15 serves.

To the central part 8th closes in one piece as a connecting means 9 a single strut 14 in turn, with the annular part of the plant 6 , also in one piece, is connected. In the illustrated embodiment, a bend is provided by about 90 ° in the area, which is the substantially straight strut 14 with the ring body 11 combines. But it is also conceivable, a total of substantially helical course of the support element 5 to provide in cross section. Such a spiral support body is particularly easy to produce by rolling a strip of material and is also compressible in a simple manner. The in the 2a ) and b) course is somewhat more expensive to produce than a spiral shape, but has the advantage of a smaller inflow area.

The 3a ) and b) finally show a pre-assembled to a module flow sensor use 16 in which the support element 5 with the valve stem 15 is firmly screwed. On the valve stem 15 is the substantially plate-shaped shut-off 4 movable and spring preloaded by means of a coil spring 17 arranged. Circumferentially around the shut-off body 4 is a sealing ring 18 provided, in the installed state in the closed position with the valve seat 3 of the housing 2 comes into contact.

The in the 3a ) and b) shown, preassembled unit is completely compressing the ring body 11 in the radial direction in the housing 2 formed line section and is immediately ready for operation when the housing 2 is in fluid communication with the piping system.

Claims (22)

Flow monitor ( 1 ) for automatically shutting off a line through which a medium can flow in a flow direction - with a housing ( 2 ), which has a valve seat ( 3 ), - with a shut-off body ( 4 ) in the housing ( 2 ) relative to the valve seat ( 3 ) in the flow direction against a bias from an open position in which the medium can flow in the flow direction, in a closed position in which the flow is interrupted, is movable, - with a support element ( 5 ) in the housing ( 2 ) in the flow direction in front of the shut-off body ( 4 ) is arranged and that a plant part ( 6 ), which on an inside ( 7 ) of the housing ( 2 ) comes to rest, a central part ( 8th ), for movably holding the shut-off body ( 4 ), and a connection means ( 9 ), which the plant part ( 6 ) with the central part ( 8th ), characterized in that the housing ( 2 ) at least one inside recess ( 10 ) having the plant part ( 6 ) at least partially absorbs. Flow monitor ( 1 ) according to claim 1, characterized in that the recess ( 10 ) is a circumferential groove in the circumferential direction. Flow monitor ( 1 ) according to claim 1 or 2, characterized in that the recess ( 10 ) is so deep that it covers the plant part ( 6 ) completely absorbs. Flow monitor ( 1 ) according to claim 3, characterized in that the depth of the recess ( 10 ) the strength of the installation part ( 6 ) corresponds. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that the supporting element ( 5 ) is compressible in the radial direction. Flow monitor ( 1 ) according to claim 5, characterized in that the plant part ( 6 ) is compressible in the radial direction. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that the plant part ( 6 ) an annular body ( 11 ). Flow monitor ( 1 ) according to claim 7, characterized in that the annular body ( 11 ) in the circumferential direction an interruption ( 12 ) having. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that between the radial outer side of the plant part ( 6 ) and the recess ( 10 ) a seal ( 13 ) is provided. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that the connecting means ( 9 ) at least one strut ( 14 ) having. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that the central part ( 8th ) coaxial with the longitudinal center axis (L) of the housing ( 2 ) is arranged. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that the central part ( 8th ) with a valve stem ( 15 ) connected is. Flow monitor ( 1 ) according to claim 12, characterized in that the shut-off body ( 4 ) on the valve stem ( 15 ) along the longitudinal central axis (L) of the housing ( 2 ) is movable. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that the plant part ( 6 ), the connecting means ( 9 ) and / or the central part ( 8th ) are made in one piece. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that the supporting element ( 5 ), the connecting means ( 9 ) and / or the central part ( 8th ) at least partially made of plastic or metal. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that the supporting element ( 5 ) is made of a curved strip of material. Flow monitor ( 1 ) according to claim 16, characterized in that the support element ( 5 ) is made of a bent plastic or metal strip. Flow monitor ( 1 ) according to claim 16 or 17, characterized in that the supporting element ( 5 ) has a cross-section substantially spiral-shaped course. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that the flow-exposed portions of the support element ( 5 ) have a streamlined profile. Flow monitor ( 1 ) according to claim 19, characterized in that the connecting means ( 9 ) and / or the central part ( 8th ) have a streamlined profile. Flow monitor ( 1 ) according to claim 19 or 20, characterized in that the flow direction facing and / or pointing in the flow direction edges of the flow-exposed sections are rounded or tapered. Flow monitor ( 1 ) according to one of the preceding claims, characterized in that the housing ( 2 ) is a section of a pipeline or can be connected to a pipeline.