RU198057U1 - FIRE PROTECTION SCREEN - Google Patents

Abstract

The utility model relates to the field of fire fighting equipment and can be used as a protective device that prevents the transition of a fire to higher floors. The fire-prevention screen consists of a casing in which a non-combustible cloth is attached to the upper and lower sides of the casing with metal plates attached to its sides, connected by an exhaust rivet, the upper part of which is placed in the upper part of the window opening from the inside of the building. The upper and lower parts of the casing are interconnected by at least two hot-melt inserts made of polymer material, which are destroyed when heated to a temperature of 70-90 ° C. In the lower part of the screen housing along its central axis there is a clamping spring mechanism with a spring elastic force exceeding the total mechanical strength of the hot-melt elements to impart an inertia force when opening the screen during thermal exposure to it. The technical result consists in the rapid localization of the fire and preventing its penetration into the neighboring floors of the building. 1 ill.

Description

The utility model relates to the field of fire fighting equipment and can be used as a protective device that prevents the transition of a fire to higher floors.

A device for protecting windows from thermal effects is known (RF patent for IZ No. 2280485, 2006) containing a mechanism that prevents windows from being tanned by floors above, characterized in that the mechanism consists of a heat-resistant material twisted in the form of a roll or folded in the upper part a metal frame, which is mounted on the outside of the house and borders the window frame, while the heat-resistant material is attached on one side to the metal frame and the other to the rod located on the shelf, one side of which is pivotally connected to the metal frame, and the other lies on the ledge , in a suspended state, holding the shelf in a horizontal position using a thin steel cable connected in tension to a tin plate attached to a wall panel between the floors of the house. For alignment from crushing and deformation, light metal strips are attached to the heat-resistant material from the inside. However, the proposed design is complex and, under unforeseen circumstances, may not be revealed on time in case of violations of the cable fastening mechanism, its weakening, mechanical stress from the outside, etc.

Known fire barrier (patent WO 03106800, 2003). located next to the window opening formed in the vertical wall, consists of an element in the folded position, consisting of sheet metal and hinged above the window opening with the possibility of release in case of fire, falling under the influence of its own weight into the vertical position of the shielding. The fire barrier is held folded by a fuse located between the upwardly curved end portion of the sheet metal section and the roof plate. However, the opening of the barrier can be delayed due to the lack of an inertial accelerator.

Known for the closest analogue is a fire barrier (RF patent for IZ No. 2339418, 2008), containing a canvas consisting of at least one layer of fire-resistant material, made in the form of a curtain, while the barrier contains vertical side guide curtains with placed in them, by sealing mechanisms of the lateral edges of the curtain web, a weighting agent fixed in the lower part of the curtain web, and at least two stops placed in the upper part of the guides to hold the folded curtain web. The fire barrier can work autonomously, in this case the stops release the curtain when the thermal fuses are triggered - fuse brackets that hold the stops in a spring-loaded state at normal temperature. However, the springs perform the function of restraining the stops themselves in a spring-loaded state, that is, the springs push the stops and the curtain opens under the influence of the gravity of the weighting materials without additional acceleration of opening the curtains. In this case, in the absence of the operation of one of the temperature fuses on any one side of the curtain, the latter will be skewed and will not be able to completely close the formed opening for fire protection, which reduces the reliability of the described design.

The objective of the utility model is guaranteed and high-speed opening of the fire barrier during a fire.

The problem is solved by a fire-prevention screen, consisting of a casing in which a non-combustible cloth is attached to the upper and lower sides of the casing with metal plates attached to its sides, connected by an exhaust rivet, the upper part of which is placed in the upper part of the window opening from the inside of the building , despite the fact that the upper and lower parts of the housing are interconnected by at least two hot-melt inserts made of polymer material, which are destroyed when heated to a temperature of 70-90 ° C, characterized in that in the lower part of the screen housing along its central axis a spring-loaded clamping mechanism is located with a spring elastic force exceeding the total mechanical strength of the hot-melt elements to impart an inertia force when opening the screen during thermal exposure to it.

In FIG. 1 shows a General view of the device fire suppression screen, where:

1 - housing

2 - screen

3 - the upper part of the body,

4 - hot-melt inserts,

5 - the lower part of the housing,

6 - spring mechanism

7 - metal plates,

8 - exhaust rivet.

When exposed to high temperatures of the fire in the opening area, the hot-melt inserts 4 are destroyed and the fire barrier 2 is activated, opening under the influence of gravity, blocking at least 2/3 of the height of the window opening, which ensures that the fire does not spread to the higher floors, which is confirmed by the results of a full-scale fire experiment .

The fire barrier screen 2 is folded inside the housing 1 and is tightly pressed by a spring mechanism 6 located in the middle of the lower part of the screen housing, and when the hot-melt inserts 4, giving an additional inertia force to the lower part of the housing 5 are destroyed, the screen goes down and quickly opens due to the absence of possible obstacles in the form of distortions .

An example of calculating the spring elastic force: the spring elastic (compression) force, which tends to open it, is at least 200 N, the strength of each clamp “with shear” can withstand a force of 60 N. Accordingly, for example, four clamps provide a total strength of 240 N and hold the plates screen in a compressed state. In the event of a fire, any of the hot-melt inserts (clamps), collapsing, reduces the total strength, thus we obtain the following calculation: 240N-60N = 180 N, in which the spring opens, cutting off all the clamps, ensuring a guaranteed and quick opening of the screen.

As a test object, a hinged translucent wall with a dull interfloor belt with a height of 1.2 m and translucent filling with double-glazed windows from sheet glass (the formula of the double-glazed window is 6 + 12 + 4 + 12 + 6) was adopted. The test fragment was made in the form of a three-story facade with a height of 9.125 m and a width of 3.2 m. The temperature regime of the fire in a room of 33 sq.m was provided with a combustible load, the density of which was 50 kg / sq.m. Coniferous wood with a moisture content of 10 to 12% was used as a combustible load. The nature of the placement of the combustible load corresponded to the conditions of the most common arrangement of furniture in residential premises. To implement the conditions characteristic of high-rise buildings, a vertically directed air flow was created, the speed of which was measured at the level of the center of the window filling of the fire floor and amounted to 3 m / s. To do this, we used fans located in the lower part of the facade, and special trays that direct air flow along the facade along its entire width. According to the results of the test, a protective screen made of fireproof material that reduces the area of the window opening and works with guaranteed opening of the screen using a spring with calculated force elasticity for this experiment allowed to reduce the temperature effect on the translucent filling of the floor located above the fire, and the height of the outgoing flame by half.

The technical result consists in the rapid localization of the fire and preventing its penetration into the neighboring floors of the building.

Claims (1)

Fire-prevention screen, consisting of a casing in which a non-combustible cloth is attached attached to the upper and lower sides of the casing with metal plates attached to its sides connected by an exhaust rivet, the upper part of which is placed in the upper part of the window opening from the inside of the building, that the upper and lower parts of the housing are interconnected by at least two hot-melt inserts made of a polymeric material, which are destroyed when heated to a temperature of 70-90 ° C, characterized in that a pressure spring mechanism is located in the lower part of the screen housing along its central axis with a spring elastic force exceeding the total mechanical strength of the hot-melt elements to impart an inertia force when opening the screen during thermal exposure to it.

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