FI71669C - Control and shutter mechanism for a fire extinguisher by an air cond ition channel. - Google Patents

Description

71669

AIR CONDITIONING FIRE LIMITER ADJUSTMENT AND CLOSING MECHANISM -REGLERINGS- OCH SLUTARMEKANISM FÖR EN BRANDBEGRÄNSARE VID EN LUFTKONDITIONERINGSKANAL

The present invention relates to a control and closing mechanism for a fire damper formed of one or more slats of an air conditioning duct, comprising a member responsive to an increase in the western temperature, such as a thermal fuse, and a locking latch tensioned against it by a spring force.

Ventilation ducts must be fitted with a fire damper which closes the duct in the event of a fire to prevent the spread of fire. The ducts use equipment that trips automatically when the temperature in the duct rises to a certain limit. Many different types of palora flowers are known today. One such is a curtain-shaped fire damper, which consists of a plurality of horizontal hinges hinged to each other and which is mounted at the top of the duct and is provided with a constant force spring by means of which the curtain closes. However, due to the operating principle of the curtain, the spring to be installed inside the duct must be quite thin, so that it works properly under normal conditions, but under conditions where a fire damper is really needed, ie at high temperatures, the spring loses its properties and the damper does not fire.

Also known are fire dampers made of a single plate and mounted on a duct wall. They are also equipped with a spring to close them. However, in large fire dampers, the friction between the edges of the damper and the walls of the duct is so great that the force of the spring may be insufficient to close the damper properly.

Finnish patent application 845135 discloses a fire damper closing mechanism for an air conditioning duct, which has achieved considerable advantages over previous fire dampers. In it, the shafts of the slats of the fire damper are connected to each other by means of a separate lever mechanism, and at least one of the slats is spring-loaded with the fire damper open, the spring force of which spring is transmitted to the temperature-responsive thermal fuse by a locking latch.

The object of the present invention is to provide an even better mechanism for adjusting and closing a fire damper. The invention is thus characterized in that the adjusting and closing mechanism comprises a movably arranged transfer plate to which the ends of the slats of the fire damper are pivotally articulated and spring-loaded by means of levers and which transfer plate is connected to said locking latch by means of a lever mechanism.

A preferred embodiment of the invention is characterized in that the lever mechanism comprises at one end a lever of the lever mechanism and at the other end a pivot lever articulated to the adjusting screw and an adjusting lever connected to the opposite end of the adjusting screw.

Another preferred embodiment of the invention is characterized in that a return spring and a stop pin are arranged at the upper end of the locking latch.

Another preferred embodiment of the invention is characterized in that a notch is formed in the lower edge of the locking latch, against which a correspondingly formed notch of the rotating lever is locked when the adjustment and closing mechanism is in the tuning state.

Another preferred embodiment of the invention is characterized in that the adjusting screw is provided at both ends 3 71669 or is completely provided with internal threads in which the externally threaded screws articulated to the rotation and adjustment levers are mounted.

The adjustment and closing mechanism of the fire damper according to the invention is very reliable and there is no play in the moving parts, but the assembly formed by the adjustment and closing mechanism and the fire damper slats is very strong, which also increases the reliability of the fire damper. In addition, the adjustment and closing mechanism is easy to re-tune after tripping. An additional advantage of a fire sprinkler of this kind is that it can be installed in the duct in the desired position with either slats vertically or horizontally. Palora already in and the adjustment and closing mechanism form a whole, which as such is installed in the duct. Therefore, the installation work is also very simple. Because the position of the slats is adjustable, the slats of the fire damper can also be used to adjust the volume flow.

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

Fig. 1 is a partially sectioned side view of a fire damper provided with an adjusting and closing mechanism according to the invention with the slats fully open.

Fig. 2 is a partial sectional side view of the same as Fig. 1, but the closing mechanism has now been released and the slats are closed.

Fig. 3 shows the adjustment and closing mechanism according to the invention in a situation where the slats are closed by means of an adjusting screw.

Figure 1 shows a fire damper consisting of three pivoting slats 13 71669 4. The body of the fire damper, the slats and the closing mechanism form a single unit, which as such can be installed in an air conditioning duct with a rectangular cross-section. An integral part of the fire damper is a thermal fuse 3, which may be, for example, as disclosed in Finnish patent application 844579. It is characteristic of such a thermal fuse that when the temperature in the duct rises to about 50 ° C, the mixture holding the thermal fuse solid becomes liquid, whereby the arm of the thermal fuse against which the locking latch 4 is tensioned gives up.

When the normal temperature is present in the air duct, the thermal fuse retains the locking latch 4. Below the articulation point 14 of the locking latch, the locking latch tends to turn the rotation lever 5. The lower part of the locking latch and the upper part of the At the same end where the notch is located, the rotation lever is pivotally articulated to the base of the screw 10. At one end, the rotation lever is also pivotally articulated to the body of the fire damper lever mechanism. The levers 2 connected to the ends of the fire damper slats 13 are sprung and this spring force is transmitted through the transfer plate 1, the adjusting lever 7, and the adjusting screw 6 to the rotating lever 5, whereby the rotating lever tends to rotate counterclockwise, but the locking latch prevents movement. Each lever 2 has its own spring.

The screw 10 is provided with an external thread and an adjusting screw 6 with an internal thread is screwed on it. At the other end of the adjusting screw there is a correspondingly corresponding screw 15. The base of the screw 15 is pivotally articulated to an adjusting lever 7 pivotally articulated at its

II

5 71669 ta access to the transfer disk 1.

The slats 13 are axially connected to the body of the lower limiter and connected to the transfer plate by means of levers 2. The levers are arranged so that the slats turn in opposite directions. This is advantageous from the point of view of air control, because if the slats are only partially open, the slats turned in the same direction direct the air flow aside from the direction of the center line of the air conditioning duct, which causes flow disturbances.

The operating principle of the closing mechanism of the fire damper according to the invention is as follows: normally the slats are either fully open or partially open. In the situation shown in Fig. 1, they are completely open. If the temperature of the duct now rises to about 50 ° C, the mixture contained in the thermal fuse 3 melts, whereby the arm of the thermal fuse is released and the locking latch 4 tensioned against it turns clockwise. In this case, the rotation lever can be turned counterclockwise and transmits the movement via the screws (10, 15) and the adjusting screw 6 to the adjusting lever 7. This pivots relative to its central articulation point and moves the transfer plate in the direction of Fig. 1 upwards.

When the transfer plate 1 moves when the fire damper is tripped, the levers 2 articulated at one end of the transfer plate turn and turn the slats closed. The final position of the transfer plate as well as other moving parts after the release of the fire damper is shown in Fig. 2. However, the locking latch 4 does not remain in the position shown in Fig. 2, but the return spring 12 retracts the locking latch. In addition, in order for the locking latch to stop at the correct position, a stop pin 11 is provided against which the locking latch rests. A spring (not shown in the figures) can also be connected to the arm of the thermal fuse 3, which pulls the fuse back immediately after tripping. The re-tuning of the fire damper can be performed, for example, by manually pushing the transfer plate back to its tuning position 6 71 669, whereby the series of movements described above take place in the opposite direction. A small notched hole 19 is made in the articulation point of the locking latch 4 and a tension spring 8 is arranged in the lower part of the locking latch, which allows the notch at the end of the rotating lever 5 to return against the corresponding notch of the locking latch.

Figure 3 shows a side view of the closing mechanism of the fire damper according to the invention in a situation where the slats are closed by turning the adjusting screw 6. When the adjusting screw is turned so that the screws 10 and 15 move away from each other, the adjusting lever 7 turns and moves the transfer plate, which causes the slats to turn, as explained above. In this way, the flow can be adjusted by changing the position of the slats by means of the adjusting screw 6.

The number of fire damper slats is not limited. By way of example, the figures show a situation in which there are three slats, but in practice considerably more slats can also be used.

At least part of the articulation points 18 between the levers 2 and the transfer plate 1 is provided with a notched hole 17. This improves the performance of the transfer disk. Equally, all the articulation points could be provided with a notched hole, in which case guides running on one or both sides of the transfer plate (not shown in the figures) can be provided, for example, to guide the transfer plate.

It will be clear to a person skilled in the art that the invention is not limited to the above-mentioned exemplary embodiments, but can be varied within the scope of the appended claims.

Claims (10)

A control and closing mechanism for a fire damper formed by one or more slats (13) of an air duct, comprising a temperature-responsive member such as a heat seal (3) and a locking latch (4) tensioned against it by a spring force, characterized in that the control and closing - the rubber mechanism comprises a movably arranged transfer plate (1) to which the ends of the fire damper slats (13) are pivotally articulated and spring-loaded by means of levers (2) and which transfer plate is connected to said locking latch (4) by means of a lever mechanism. Adjusting and closing mechanism according to claim 1, characterized in that the lever mechanism comprises at one end a lever mechanism (16) and at the other end a pivot lever (5) articulated to the adjusting screw (6) and an adjusting lever (7) connected to the opposite end of the adjusting screw, articulated to the body plate (16) of the lever mechanism and at one end to the transfer plate (1). Adjustment and closing mechanism according to Claim 1 or 2, characterized in that a return spring (12) and a stop pin (11) are arranged at the upper end of the locking latch (4). Adjustment and closing mechanism according to any one of claims 1 to 3, characterized in that the lower end of the locking latch (4) has a slotted hole (19) and that a tension spring (8) is arranged at said lower end. Adjustment and closing mechanism according to one of Claims 1 to 4, characterized in that a notch is formed at the lower edge of the locking latch (4), against which a notch formed in a manner corresponding to the rotary lever (5) is locked when the adjusting and closing mechanism is in the tuning state. Adjusting and closing mechanism according to one of Claims 1 to 5, characterized in that the adjusting screw (6) is provided at both ends or completely with internal threads, to which the externally threaded screws (10, 15) are connected to the rotation (5) and adjustment levers (7). ) has been installed. Adjusting and closing mechanism according to Claim 6, characterized in that the handles of the threads are arranged such that when the adjusting screw (6) is rotated in one direction the screws (10, 15) approach each other and when rotated in the other direction they move away from each other. 7 71669 Adjusting and closing mechanism according to one of Claims 1 to 7, characterized in that the position of the fire damper louvers (13) can be adjusted by turning the adjusting screw (6). Adjusting and closing mechanism according to one of Claims 1 to 8, characterized in that the axial levers (2) fastened to the slats (13) of the fire damper are provided with a spring and articulated to the transfer plate (1). Adjustment and closing mechanism according to one of Claims 1 to 9, characterized in that at least some of the articulation points (18) between the levers (2) and the transfer plate (1) are provided with a slotted hole (17). 9 71669