DE2110643A1 - Fire lock device for ventilation lines - Google Patents

Description

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43 Bielefeld, Heiiorder Sif ^ e Π

i-i, $ - / ν

Jie vorlis ^ snds ^ riindunj concerns a VorricJatuiiö, which under the "jiinvirjrarUj an excessive temperature increase the 7ersciilSen of a exploitation3leivj.n ₀ · in the sense of the öchaffun ^ a ij'auerspiels j'auerspiels -ϋΐοαη ^, βιι of a teniiilati ons plant or = in & r i-linaaiil9.o3 nelirere supply different urulichicei'ben around "eminderi; it should be that an i'suerausorucii calls in one of the two over the previous lines to the other

± a previously known priorities of those named ^ irt; show lil aul ", cie durcn -ein acimeläuai'ss jüleneni; in a willu, the aas Jurchströiaen von Luft in Ven ^ i

emöaliciiO. If the temperature is then sufficient _& 'high to enuscireciiendly reduce the old resistance of the scissile element, the jii ^ en ^ ewiciit of the flaps causes additional liilisaii-uael, for example in jj'or-n of i'edern, and so on / Exclusion of the ventilation ducts. iJex'ariiiö'e Vorrich-Oun ^ en work either with a translational or a

^ un ^ the ϊΊϋ ^ θΙ. As far as they iuit; the jiijen _o ev7icht aer work, they are unsure of the function äußersO,

109840 / 1U8

so that it is practically every year required additional Aids must be provided to ensure the (closing movement of the wings. However, these tools complicate the device, and the tools are additional ones that are available Ropes represent an additional source of Dehler.

The present invention is based on the object of creating a control locking device of the type mentioned at the beginning, the automatic closing of the ventilation duct at the appropriate temperature without utilizing its own weight and without the use of additional aids with a high degree of functional security.

The solution according to the invention is that the device has at least one flexible wing and one associated with it, Has heat-resistant seat, the arranged in a socket iPlügel deformed in this way by a fusible element is held that a free passage of air through the .otutzen is possible at air temperatures below a specified value, the Wings relax and rest against his oitz den otu "Gsen locks. In this way the wing takes off completely automatically with i'reie, but through the fusible holder its »closed position towards the οΐΐζ assigned to him.

further advantageous embodiments of the invention fee emerge from the subclaims, various preferred ones Embodiments of the subject matter of the invention are described below described in more detail with reference to the accompanying drawing.

Show it!

iig. 1 shows a device according to the invention in a longitudinal section

Üg. FIG. 2 shows a further embodiment of a device according to FIG the invention in longitudinal section,

bad 1 09840/1 U8

jj'ig. ο a third embodiment of a device 3 of the invention in a longitudinal section line,

i'ig. 4- a fourth embodiment of a device _{e of} the invention in longitudinal section.

"like JJlg. '. visible, a otutzen 1 is provided from .Steel which serves the connection of two lines and is disposed transversely in your a ilügel 2 which is made of a iJ'e & erstahlblech 8.us _o esch itten. i) The design of the wing 2 is made in such a way that it can be symmetrically grounded with respect to its two fastening tracks 3, deformed and deformed the air flow, \ i ± e from ϊ'χ ~. 1 seen üe ^ i wing 2 is assigned to the a 'stub' "befindlicher o'ita A-.

An otahldraht 5 is also provided, the 'üenden nit snippable balls 6 are provided, which hold the wing 2 in its deformed position lying symmetrically to the two attachment points 3.

/ Below a predetermined temperature ϊ, the two fusible balls 6 resist the relaxation and expansion of the wing 2 from its deformed, i'ig. 1 position shown in solid lines, so that the air flow 7 between the walls of the otut.zens 1 and the wing 2 can flow through. If the temperature reaches values -above the specified temperature -ü, the backlash resistance of the fusible balls 6 is reduced to such an extent that they can no longer hold back the wing 2, which thus relaxes and deflects, ze :. ·.? e? wrecks complete "closure of the air passage against the oitz 4, \ de is shown in dash-dotted lines in i ⁿ ig. " \ .

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In the embodiment according to. Fig. 2 is the arrangement and Design of the seat 4 made so that a complete relaxation of the wing 2 when resting on the seat 4- has not yet occurred is, so that it is still applied to its oitz with a certain pretension and thus all the more securely. These Design enables the wing 2 to oppose the effect of any pressure differences on both of its sides. The inclined and slightly arched / seat surface which can be seen from FIG. 2 also enables the effect to compensate for a certain deformation remanence in the spring steel, which may be forced after a strong Deformation over a long period of time then does not immediately form a completely flat bearing surface when it is relaxed can.

The device shown in Fig. 3 has two identical ones Wings 2a and 2b made of spring steel, to which seats 4a and 4b are assigned, which are located in one and the same clip 1. The wings 2a and 2b and the seats 4a and 4b 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, the balls 6 hold the wings 2a and 2b in their identical deformation positions, as in Fig. 3> shown in solid lines. The wings 2a and 2b form an oval in longitudinal section with a very small one Flow resistance. If the temperature rises above the specified value £, the balls 6 release the blades 2a and 2b, relax and come to rest on their seat 4a and 4b, so that the passage of air is blocked. The relaxed wings 2a and 2b, as shown in phantom in Fig. J, then delimit a sealed volume 8, which is an effective represents thermal insulation between the two ventilation lines connected by the nozzle.

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It goes without saying that, in the embodiment according to FIG. 4, the design and arrangement of the seats 4a and 4b can also be made in accordance with the embodiment according to FIG. ^{5 1 Ig.}

In the embodiment according to the i? Ig. 4 is the wing 2 with
his one hand according to reference number 3 attached to the circumference of the seat 4 itself and he is laterally against the inner wall
of the connecting piece 1, where it is again held by a fusible ball 6 on the surface of a steel wire 5. The wing 2 can be designed single or double, as the latter with dash-dotted lines in the left part of the illustration according to i? Ig. 4 is shown.

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Claims (6)

Pat ent '' Your locking device for ventilation ducts, with a Closure part which is held in the open position by a fusible element below a predetermined temperature is, characterized in that in a nozzle (i) at least a flexible wing (2,2a, 2b) and an associated, heat-resistant one o'itz (4,4a, 4b) are provided, the l'Tügel (2,2a, 2b) from the fusible element (6) in one the air passage ™ held by the deformed position allowing the nozzle (1) and the predetermined 'temperature after approval by the fusible element (6) due to its relaxation in the closed position to which o'itz (4,4a, 4b) is applied. 2. Apparatus according to claim 1, characterized in that the! Wing (2) is arranged in 'Iransversallage in the otutzen (1) and it is held by the fusible element (δ) in a deformed position which is symmetrical to a straight line through the two fastening points (3) of the wing (2) on the otutzen (1). 3. Apparatus according to claim 1, characterized in that the oitz P (4) arranged at a point of relaxation ^ path of the i-bow (2) at which this still has a voltage. 4. Device according to one or more of the preceding claims, characterized in that the wing (2,2a, 2b) is deformed in its Position is held by two fusible balls (6) which are attached to the two ends of a rigid wire or rod (5) " are. 5. Device according to claims 1 and 2, characterized in that that two flexible wings (2a and 2b) are arranged in the nozzle (1) in such a way that they are in their deformed position in otrömungsrichtung Form an oval obstacle and in the »closed position they form a sealed space volume (8) with the nozzle (1). 109840/114 " 6. Device according to. Claim 1, characterized in that the or the wings (2) are fixed with one hand on the periphery of the seat (4-). 109840/1148 , 2 L e r s e i t e