DE2110643C2 - Fire lock device for ventilation ducts - Google Patents

Description

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The invention relates to a fire barrier device for ventilation ducts according to the generic term of claim 1. Such devices allow under the action of a sufficient Increase in temperature the closing of a ventilation duct in the sense of a fire barrier. you will be Used, for example, when lines of a ventilation system or air conditioning system have several different lines Take care of the localities and prevent a fire from breaking out in one of the localities spills over to the other locations via these lines.

In a known fire barrier device of the generic type (DE-GM 19 95 156) is a plate-shaped wing is provided, which can be rotated by shaft stubs protruding laterally into the line is mounted, with one of the shaft stubs outside the line with a separate spring containing auxiliary mechanism is connected, the spring force of the rotary movement of the wing at corre- eo corresponding release. Apart from the fact that such a moving mechanism is complicated and Is prone to failure, especially with regard to the dust pollution to be expected here in connection with the The fact that the mechanism is normally not moved at all in the long term is offered there intended wing in normal operation a significant flow obstacle. The plate-like wing can even if it were held in its horizontal position of rest without play, it would become an education leading to detaching vertebrae. In practice, however, the plate-like flight is not even completely calm and held in its position free of play. Rather, it performs very small pivoting movements from its horizontal position Out in the air flow and thereby significantly affects the air flow. In addition, is there is a tendency to chatter noises.

The present invention is therefore based on the object of providing a fire barrier device of the generic type Art to create the one possible with a very simple and functionally reliable structural design ensures little impairment of the air flow in its open position

The solution according to the invention results from the characterizing part of claim 1. Auf The reason for the manner in which it is defined there is in its open or rest position In terms of flow, the air flow is so favorable that the air becomes smooth without any significant disturbance can flow past. Due to the elasticity inherent in the wing itself and the way it is anchored the wing remains completely calm in its rest position. The fire lock device also has a very simple structural design and it is also subject to an accident hazard even with corresponding dust exposure, since the movement of the wing is based on the elasticity of the device when the device responds Material, but its elasticity properties are not affected by the dust.

Further refinements of such a fire barrier device are characterized in the subclaims

Due to the configuration according to claim 2, the wing can, taking advantage of its elasticity properties resiliently pressed against the seat. The embodiment according to claim 3 causes a special simple shape of the fusible elements and their assignment to the ends of the wing. The design according to Claim 4 is characterized by a particularly low flow resistance, since that of the Wings in their open position formed closed oval are flowed around practically completely laminar can.

Embodiments of such a fire barrier device are described below with reference to FIG the drawing described in more detail. It shows

F i g. 1 such a fire barrier device in longitudinal section,

F i g. 2 a further such fire barrier device in longitudinal section and

3 shows a third embodiment of such a Fire lock device also in longitudinal section.

As shown in FIG. 1, a connection piece 1 made of steel is provided which is used to connect two lines and in which a wing 2 is arranged transversely, which is cut out of a spring steel sheet. the The wing 2 is designed so that it is symmetrical with respect to its two attachment points 3 can be deformed on the nozzle 1. The arrangement is made so that the wing in deformed state is aerodynamically favorable in the air stream, as can be seen from FIG. The wing 2 is a seat 4 located on the connection piece 1 is assigned.

There is also a steel wire 5 is provided, the ends of which are provided with fusible balls 6, the

the flies! 2 in its symmetrical to the two Attachment points 3 lying deformed position keep.

Below a predetermined temperature Twidersetzen the two fusible balls 6 of s relaxation and expansion of the blade 2 from its deformed, ig _r in F 1 in solid lines dargestellisn position, so that the air flow 7 to flow through between the walls of the socket 1 and the wing 2 can. If the temperature reaches values above the specified temperature 7; the retention resistance of the fusible balls 6 is reduced in such a way that they can no longer hold back the wing 2, which thus relaxes and deflects so that it rests against the seat 4 in order to completely block the air passage, as shown in dash-dotted lines in FIG . 1 shown.

In the Ausführungsbeispie.i according to Fig.2 is the Arrangement and design of the seat 4 made so that a complete relaxation of the wing 2 when planted at the seat 4 has not yet occurred, so that this is still with a certain bias and thus all the more securely applied to its seat. to oppose existing pressure differentials on its two sides. The from Fig. 2 visible oblique and The slightly curved seat also enables the effect of a certain deformation restraint to balance in the spring steel, possibly after a strong forced deformation then, over a long period of time, when he is relaxed, he does not immediately have a completely flat support surface can form.

The device shown in FIG. 3 has two identical wings 2s and 26 made of spring steel, to which seats 4a and 46 are assigned, which are located in one and the same connection piece 1. The wings 2a and 26 and the seats 4a and 46 are arranged symmetrically to a straight steel wire, the ends of which are again provided with two fusible balls 6. Below the predetermined temperature T 6 hold the balls the wings 2a and 2b in their Deformierungsstellungen identical, as shown in Figure 3 in solid lines, the wings 2a and 2b form an oval in longitudinal section barrier with a very low flow resistance. If the temperature rises above the predetermined value T, the balls 6 release the wings 2a and 2b , which relax and come to rest on their seats 4a and 46, so that the passage of air is blocked. The relaxed FIüp ^ 2a and 26, like them In FIG. 3, dash-dotted lines shown, then delimit a sealed volume 8, which represents an effective thermal insulation between the two ventilation lines connected by the connector 1.

1 sheet of drawings

Claims (4)

Patent claims: 1. Fire lock device for gen with at least one wing arranged in the middle of the line, to which a seat is assigned, against which it can be moved into its closed position, a temperature-sensitive release mechanism having a fusible element being provided, by means of which a spring force is used to move the wing out of its Open position can be released into its closed position, characterized in that the wing (2, 2a, 2b) consists of elastically resilient material and is held in its open position under pretension by the melting elements (6) assigned to it, so that it is in its central position in the line (1) is curved symmetrically to the central longitudinal axis of the line in a streamlined manner 2. Fire locking device according to claim 1, characterized in that the seat (4) to the plant of the flight ice (2) in the closed position at such a point of the path of movement of the oh relaxing Wing (2) is arranged that this when planted on the seat (4) still has a residual bias. 3. Fire locking device according to claim 1, characterized in that as melting elements two fusible balls (6) are provided, which are attached to the two ends of a rod (5). 4. Fire locking device according to claim 1, characterized in that two successive wings (2a and 2b) in the flow direction are provided, which are held in their open position curved towards one another in such a way that they overlap their ends held by common fusible elements (6) ; Form a closed oval in the longitudinal section.