FI95313B - Damper - Google Patents

Abstract

The invention relates to a spring-loaded fire plate, the shutting of which is controlled by a thermal safety mechanism 10. The plate 2 is locked in its open position by means of a lock fitting 20, the locking part 21 of which is fitted into an opening 19, the other wall of which is formed by a shackle 12. The spring 17 forms the second wall of the opening 17, and an elevation 18 located therein performs the locking. A temperature fuse 14 is pressed against the spring 17 by way of a screw 11, the physical stress on the said fuse remaining low, since the force that closes the flap 2 of the coils spring 7 acts perpendicular to the temperature fuse 14. <IMAGE>

Description

95313

fire damper

The invention relates to a spring-loaded fire damper placed in a ventilation duct or the like, which is controlled by means of a thermal fuse. The fire damper comprises a flap and its shaft and a thermal fuse mechanism.

In mechanical central air conditioning systems, very different spaces are usually interconnected. From the point of view of fire safety, it has become necessary to separate these spaces from each other. Once the fire is released, the ventilation ducts can act as efficient distributors of flue gas, fire and heat, which is why it has been very important to develop automatically operating closures for the air ducts. For this reason, the current ventilation systems have been compartmentalized and fire dampers have been placed between the compartments.

Currently known fire dampers and similar structures use a thermal fuse of the so-called type. a strip fuse in which two metal strips are joined together by a solder solder that melts at a low temperature and separates the strips from each other. The disadvantage of strip fuses is their easy damage due to breakage or mechanical damage. Also due to the shape of the fuse and the long-term strength of the fuse, such a fuse solution is not optimal. Various liquid-based thermal fuses have also been used. In liquid thermal fuse systems, the liquid is usually placed in a glass sphere or the like that breaks when the temperature limit is reached. Such glass ra-30 fields are naturally susceptible to mechanical damage. In addition, such a glass cartridge is quite valuable.

The thermal fuse according to Finnish publication 75425 includes a solution in which the thermal fuse is placed inside a cylindrical body with a rotating pin 35 and a solder between the sheaths which, when heated, allows the pin to rotate 2 95313. In the solution according to the present invention, the thermal fuse operates in such a way that the pin part therein rotates as the temperature rises and then trips the necessary mechanisms. Finnish patent application 5,83899 discloses an invention in which a fuse-shaped sleeve is soldered around a mandrel in a fuse solution. Once the solder has melted, the sleeve slides along the mandrel. The solution according to the invention has a sliding sleeve on the outer circumference of the mandrel and in addition the sleeve is cup-shaped.

10 Thermal fuses assembled from bimetallic strips have also been used to trip the fire dampers. However, the main disadvantage of such devices has been their slow response to rising temperatures. In addition, the bimetallic solution has been expensive and quite susceptible to disturbance as a result of damage 15 or corrosion. In addition, known fuse solutions connected to a clamping screw which locks the fire damper in its initial position have had the disadvantage that the solder may have given in as a result of excessive tightening, and the fire damper has already tripped in the installation phase.

With the fire damper and fuse mechanism according to the invention, a solution is achieved which is reliable and inexpensive to implement. In addition, the solution avoids the disadvantages of the equipment currently in use. The fire damper according to the invention is characterized by what is stated in the following claims.

The fire damper according to the invention, provided with a fuse mechanism placed inside the air duct, ensures a safe air conditioning system or the like which reacts quickly in fire situations. In the solution according to the invention, the forces applied to the soldered fuse have been able to be reduced by means of a spring arrangement. It is easy to replace a new fuse or reuse an old fuse in the fuse mechanism according to the invention by heating it and placing the fuse in the correct position.

3,95313

In the following, the invention will be explained in more detail with reference to the accompanying drawings.

Figure 1 shows schematically the fire damper with the damper closed.

Figure 2 shows the fire damper in the open position.

Figure 3 shows the thermal fuse mechanism enlarged.

In Figures 1-3, the number 1 refers to the wall of the ventilation-10 duct. The number 2 refers to the flap and the number 3 to its axis. The pivot handle of the shaft 3 and the flap 2 is marked with the number 4. Through the holes 5 the shaft 3 is mounted on the wall 1. The mounting lugs of the flap 2 to the shaft 3 are marked with the number 6. The closing spring 7 of the flap 2 is around the shaft 3 15. the other end to the pin 8 in the wall 1. The retaining pin of the fire damper in the closed position is marked with the number 9. The thermal fuse mechanism is marked with the number 10 and consists of a screw 11 and a bracket 12. The threaded rivet through the wall 1 is marked with the number 13. The fuse 14 consists of nested tubes 15 and 16 connected to each other by a solder. Attached to the bracket 12 is a spring 17 with a protrusion 18. The bracket 12 and the spring 17 form a slot 19 into which the locking part 21 of the locking lug 20 is pressurized. The locking part 21 has a hole 22 into which the protrusion of the spring 17 is pressed by means of a thermal fuse 14. The upper part of the slot 19 has a widening 23 to facilitate the guidance of the locking part 21 into the slot. A thicker end 16 of the thermal fuse 14 is located in the hole 24 of the screw 11.

30 The fire damper works as follows. The flap 2 is turned to the open position by the fire damper turning handle 4. The lug 20 in the flap 2 and the locking part 21 with its holes 22 turn into the slot 19. By turning the screw 11, the fuse 14 is pressed against the spring 17, whereby the protrusion 18 presses 35 into the hole 22 and locks the damper in the open position. The pressure on the fuse 4 95313 decreases because the fuses control only the spring 17, and the maximum force is applied to the spring protrusion 18, which is torn open by the spring force of the damper 2. In this case, the greatest force is applied to the spring 17 attached to the bracket 12 and not to the thermal fuse 14. The possible fatigue of the solder due to softness does not cause problems in the solution according to the invention, because the stress of the thermal fuse 14 is small. The damper is triggered so that when the solder of the thermal fuse melts, the nested tubes 10 press into each other, whereby the spring 17 and the protrusion 18 cannot retain the locking part 21. As the thrust caused by the fuse on the spring 17 is lost, the coil spring 7 returns the flap

It is self-evident that the duct 1 of the fire damper 15 according to the invention and the flap 2 therein may have a different shape from the circular shape disclosed in this application. The location of the thermal fuse mechanism 10 may also vary. Of course, more than one thermal damper mechanism can be installed in the fire damper system according to the invention, and the closing force of the fire damper can be arranged differently from the coil spring 7 presented in this application. The spring 17 of the thermal fuse mechanism can also be implemented differently from the plate spring.

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Claims (6)

A spring-loaded fire damper arranged in a ventilation duct or the like and the closure of which is controlled by means of a heat protection mechanism, which comprises a shaft (3) for a flap (2), fastening ears (6), a coil spring (7) , a reading ear (20) and a heat-securing mechanism (10), characterized in that the heat-securing mechanism has one of a bracket (12) and a spring (17) formed cut (19), in which the reading-eared (22) reading part of the reading ear (21) is arranged in the open position of the fire damper, that a heat fuse (14) pushes the spring (17) into a heel (22) in a depression (18) and reads the reading ear (20) and the flap (2), and that the closing force of the coil spring (7) or the like is provided in the flap (2) directed perpendicularly to heat fuse one (14). 2. Apparatus according to claim 1, characterized in that the heat fuse (14) consists of interconnecting pipes (15) and (16) which are coupled to a solder known per se, which, when it melts, presses the tubes (15) and (16) into each other, and said heat fuse (14) is secured to a heel (24) at the end of a screw (11). 3. Device according to claim 1, characterized in that the body of the heat-securing mechanism (10) consists of the bracket (12), in which the spring (17) and a spiral rivet (13) are attached, which spiral rivet secures said heat-securing mechanism in a sheath. (1) and forms a through-hole through male thread (1) for a screw (11). 4. Device according to claim 1, characterized in that the upper part of the cutter (19) has an extension (23) for fitting the reading part (21) to the cutter (19). 5. Apparatus according to claim 1, characterized in that one end of the shaft (3) is bent to a rotary handle (4). 6. Apparatus according to claim 1, characterized in that the heat fuse (14) fixed to a screw (11) can be mounted and removed from the heat fuse mechanism (10) by means of the screw (11) extending outside a wall (1).