DE3736242A1 - Temperature-dependently triggerable releasing device - Google Patents

Abstract

The invention relates to a temperature-dependently triggerable releasing device, for example for controlling fire-fighting means which are held in a closed position against a spring by means of such releasing devices. The releasing device comprises identical housing halves of a claw-like shape which, arranged counter to each other, engage in each other and thereby receive between them an ampule which is designed to burst when subjected to a predetermined temperature. The housing halves are braced on the ampule by clamping elements, with axial support, so that tensile forces introduced into the housing halves via the clamping elements are taken up by the ampule as compressive force. After bursting of the ampule, the housing halves fall apart, so that the spring (10) can switch for example a valve out of its closed position into the open position.

Description

The invention relates to a separation device for triggering a safety measure at a predetermined temperature, consisting of a multi-part, open, two against each other overlying ends with a load-bearing housing ampoule held therein, the content of which at a predetermined The temperature of the ampoule bursting and as a result a complete mechanical separation of the housing works.

Such a device is from the practical state of the Technology known. This separation device consists essentially lichen from two flat, strip-shaped Support parts made of metallic material, on their other ent distant ends are introduced tensile forces, which at for example, result from the tension of a spring, the ge is suitable, for example a valve from a closed position to bring it into the open position. To have this effect prevent, are the two supporting parts of the separation device through a positive engagement in these parts element connected, which is created by tracing one at Er reach a predetermined temperature bursting glass ampoule is held in the locking position. It turns out appropriate trigger temperature, so it causes  bursting of the glass ampoule occurs, lifting the Locking position and thus the connection of the two supporting parts, so that said valve spring can take effect.

This known separating device has the particular disadvantage that glass remains after the glass ampoule burst Unblock or even prevent unlocking. In addition, the known separation device due to Use of differently designed individual items parts relatively complex.

The object of the invention is therefore a separation to propose direction, which a safe separation process after guaranteed the bursting of the glass ampoule and what cost is inexpensive to manufacture.

This object is achieved by a separating device solved, the hallmark of which is that the housing consists of two housing halves, constructed in such a way that each Half of the housing at one end of an inner receptacle for one end of the ampoule and at its other, under formation of a receiving space for the ampoule axially at a distance overlying end area a socket with an axially acting Clamping element has that the two housing halves such interlock that the end having the inner receptacle area of one half of the housing axially into the receiving space protrudes each other housing half, and that the ampoule between the two inner receptacles using the two clamps organs is clamped axially.

The advantages that can be achieved with this concept are in addition to Improving the safety of the separation process in that the  tensile forces acting on the two halves of the housing as Axial pressure load act on the ampoule, so that its allows higher compressive strength compared to tensile strength, relatively high, especially when controlling extinguishing systems occurring switching forces to keep the balance. A preferred one aimed at minimizing costs Execution can be provided that the two housing halves are at least essentially identical and preferably consist of metal castings. A can unimpeded contact of the ampoule with the surrounding atmosphere can be achieved in that the two lie axially opposite each other End regions of each housing half substantially U-shaped formed and by a radially offset strut arrangement are interconnected. In order to be guided and centering Supporting the ampoule can end the internal intake the ampoule in the one end region of each housing half a stepped bore and the holder for the clamping element in the other end area of each housing half from an axial Internal thread exist, in which effective as clamping members Screws are screwed, one end of the housing end centered with the above-mentioned recording and at its other other end attacks an axial force.

The invention is based on one in the drawing illustrated embodiment explained in more detail. It shows:

Fig. 1 is a front view of the separation device according to the invention in the assembled state funktionsbereitem,

Fig. 2 is a side view of the Trennein direction of FIG. 1.

As can best be seen from Fig. 1, the Trennein direction consists of an ampoule 1 receiving housing 2 , which consist of two identical housing halves 3 claw-like shape, preferably of metallic casting material, which in the ready-to-use assembly state interlocking and overlapping with axial support on the Ampoule 1 are arranged. The ampoule 1 is made of a glass tube closed at its ends, which is filled with a liquid, the evaporation behavior of which is known as a function of the temperature that is known. Each housing half 3 has two end regions 4 and 5, wherein each of the inner in function ready assembled state end portion 4 is provided with a the receiving one end of the vial 1 inside seat 6, while the outer end portion 5 as a socket 7 with an inner to the receiving 6 axially aligned threaded bore is formed. The two end regions lie opposite one another with a common axis and are connected to one another by webs 8 which run radially offset from the axis and which leave a window 9 between them, behind which the ampoule 1 is located. The socket 7 serves to accommodate identical clamping members 10 , which can each be screwed into the threaded bore and are provided with a catching cone 11 centering the inner end region 4 at the screwed-in end. The protruding end is penetrated with a transverse bore 12 , which is used to connect suitable tension elements to initiate the train to be caught forces.

The functional preparation of the separating device is carried out in such a way that the provided ampoule 1 is set with one end into the inner, preferably vertically downward receptacle 6 of a housing half 3 and a second housing half 3 with the inner receptacle 6 upwards to the other end of the Ampoule 1 is placed. The clamping member 10 can already be screwed into the socket 7 of each housing half 3 , but only about so deep that the screwed-in end still remains in the socket 7 . The housing halves 3 lying in one another are now held together radially between the thumb on the one hand and the index and middle finger on the other hand via the outer webs 8 and then the clamping members 10 are screwed in until they grip the inner end regions 4 of the housing halves 3 with their catch cone 11 . After the clamping members 10 have come under slight pressure for mutual support, they are fixed in their housing halves 3 by pins 13 against rotation. The housing halves 3 are now supported on the ends of the ampoule 1 , the tensile forces introduced act as pressure forces on this. If the ampoule 1 is now destroyed by an increase in the ambient temperature to that at which the ampoule 1 bursts, the axial support of the two housing halves 3 is lost, so that the housing 2 disintegrates into its two individual parts and thus a previously held spring is able to deliver its voltage energy, for example to open a valve.

As can also be seen in FIGS. 1 and 2, the radially eccentric webs 8 each have an inside projection 8 a , preferably in the form of conical tips, which support and promote the falling apart of the housing halves 3 when the ampoule 1 bursts.

Claims (7)

1. Separating device for triggering a safety measure at a predetermined temperature, consisting of a multipart, open, at two opposite ends tensile load housing with an ampoule held therein, the contents at a predetermined temperature, the ampoule bursting and consequently a complete mechanical separation of the Housing causes, characterized in

• - That the housing ( 2 ) consists of two housing halves ( 3 ), which is constructed in such a way that each housing half ( 3 ) at its one end region ( 4 ) has an inner receptacle ( 6 ) for one end of the pulley and at its other, under Forming a receiving space for the ampoule ( 1 ) with a spacing axially opposite lying end region ( 5 ) has a socket ( 7 ) with an axially effective clamping member ( 10 ),
• - That the two housing halves ( 3 ) engage in such a way that the end region ( 4 ) of the one housing half ( 3 ), which has the inner receptacle, projects axially into the receiving space of the other housing half ( 3 ),
• - And that the ampoule ( 1 ) between the two inner on ( 6 ) by means of the two clamping members ( 10 ) is clamped axially.

2. Separating device according to claim 1, characterized in that the two housing halves ( 3 ) are at least substantially identical and preferably consist of cast metal parts. 3. Separating device according to claim 2, characterized in that the two axially opposite end regions ( 4 and 5 ) of each housing half ( 3 ) are essentially tubular and connected to one another by a radially offset strut arrangement. 4. Separating device according to one of claims 1 to 3, characterized in that the inner receptacle ( 6 ) for one end of the ampoule in the one end region of each housing half ( 3 ) consists of a stepped bore. 5. Separating device according to one of claims 1 to 4, characterized in that the socket for the clamping member ( 10 ) in the other end region of each housing half consists of an axial internal thread. 6. Separating device according to claim 5, characterized in that the clamping member ( 10 ) of each housing half ( 3 ) consists of a screw, one end of which centers the housing end region with the said receptacle ( 6 ) and at the other end an axial force acts. 7. Separating device according to claim 1, characterized in that the end regions ( 4 , 5 ) of the two elongate housing halves ( 3 ) are each connected by radially eccentric webs ( 8 ) and that the webs ( 8 ) with internal projections ( 8 a ) are provided.