SAFETY DEVICE FOR CLOSURES

Abstract

A safety device for closures that comprises, a casing (6) that can be fastened in a closure, a bolt (4) that is movable inside the casing (6), a stop (4.1) that is integral to the bolt (4), a seal (2) arranged in a fixed manner with respect to the casing (6), a spring (5) in contact with the stop (4.1) and arranged in a compressed manner in the casing (6) due to the effect of the seal (2); wherein the seal (2) is made of a material that is configured to change state at a preset temperature, such that when it changes state, the spring (5) is free to move the bolt (4), passing through the seal (2) until it projects outside the casing (6).

Claims

1. A safety device for closures, comprising: a casing that can be fastened in a closure; a bolt that is movable inside the casing; a stop that is integral to the bolt; a seal arranged in a fixed manner with respect to the casing; a spring in contact with the stop and arranged in a compressed manner in the casing due to the effect of the seal; wherein the seal is made of a material that is configured to change state at a preset temperature, such that when it changes state, the spring is free to move the bolt, passing through the seal until it projects outside the casing.

2. The safety device according to claim 1, wherein the seal is made of intumescent material.

3. The safety device according to claim 1, wherein the preset temperature is at least 200 C.

4. The safety device according to claim 1, comprising an upper flange, a lower flange and first rivets, such that the seal is arranged held between the upper flange and the lower flange by means of the first rivets.

5. The safety device according to claim 4, comprising second rivets and through holes in the upper flange, such that the safety device can be fastened in the closure by the second rivets being arranged through the through holes.

Description

DESCRIPTION OF THE DRAWINGS

[0015] FIG. 1 shows a perspective view of a safety device object of the present invention, according to an exemplary embodiment.

[0016] FIG. 2 is another perspective view of the safety device of FIG. 1.

[0017] FIGS. 3, 4 and 5 are elevation, profile and plan views, respectively, of the safety device shown in FIGS. 1 and 2.

[0018] FIG. 6 shows a perspective and exploded view of different components of the safety device object of the present invention.

[0019] FIG. 7 is a cross-sectional view showing the safety device mounted in a door and in a non-operational position.

[0020] FIG. 8 is a cross-sectional view showing the safety device in an operational position to fulfil a locking function.

DETAILED DESCRIPTION OF THE INVENTION

[0021] The safety device advocated herein essentially constitutes a bolt (4), which is at least partially housed inside a casing (6) and which, due to the effect of an elastic element or spring (5), is kept in a stable position wherein it acts against a seal (2), as shown in FIG. 7.

[0022] In the event of a fire and when a preset temperature is reached, the seal (2) changes from a solid state to a semi-soft state. As a result of this change of state of the seal (2), wherein the bolt (4) is capable of passing through the seal (2), due to the effect of the compressed spring (5), as shown in FIG. 8, in order for a front end (4.2) of the bolt (4) to project to the outside of the casing (6) and penetrate into a strike, not shown, thus fulfilling lock functions of a door (10), wherein the safety device is mounted.

[0023] In this way, if this safety device is incorporated, for example, in a door that is referred to as a fire door, indicated with reference number (10) in FIG. 7, the bolt (4) remains stable in the locked position that is shown in said FIG. 7, wherein it does not fulfil any function, that is, it is in a non-operational stable position. In the event there is a fire and the seal (2) reaches a preset temperature, the bolt (4) passes through the seal (2) and the front end (4.2) thereof projects to the outside, automatically locking the door (10), in order to prevent the opening thereof and the fire from spreading.

[0024] FIG. 6 represents an exploded view showing a practical exemplary embodiment of the device object of this invention. This practical exemplary embodiment must not be understood in a limiting sense.

[0025] According to this practical embodiment, the bolt (4) incorporates, integral thereto, a stop (4.1), the spring (5) being compressed between the stop (4.1) and the back of the casing (6), as seen in FIG. 7. The stop (4.1), which keeps the spring (5) compressed while the seal (2) is in the solid state, can be determined by a washer that is integral to the bolt (4) or by protrusions, obtained for example by deforming the bolt (4) itself, or by any other form that enables the described function of a stop for the spring (5) to be fulfilled.

[0026] The housing casing (6), also as a simple exemplary embodiment, constitutes a bushing that at one end is welded to a lower flange (3) and at the other end is welded to a washer (7), through which a rear end (4.3) of the bolt (4) projects acting as a guide. Logically, and without altering the essence of the invention in any way, the casing (6) can be formed according to other embodiments, which enable the bolt (4) and the spring (5) to be housed.

[0027] The lower flange (3) is arranged joined, by means of riveting, to an upper flange (1), between which the seal (2) is held, which in turn fulfils the functions of a stop for the bolt (4).

[0028] The join between the flanges (1) and (3) is carried out by means of first rivets (8), shown in FIG. 6. Likewise, the mounting of the safety device in the corresponding door (10) is moreover carried out by second rivets (9) that pass through respective through holes (11) only of the upper flange (1).

[0029] Logically, both the join between the flanges (1) and (3) and the mounting of the device in the door (10), can be carried out by any other conventional attachment solution that is different from the first and second rivets (8, 9), without the essence of the invention being altered.

[0030] The seal (2) constitutes, for example, an intumescent material that, at room temperature, behaves like a solid seal, fulfilling the functions of a stop for the bolt (4) and that can even withstand high temperatures in the event of a fire, but that, when a preset temperature range is reached, for example when approximately 200 C. is reached, the material constituting the seal (2) changes from solid state to semi-soft state, wherein the bolt (4) can pass through the same due to the force exerted by the spring (5).

[0031] The seal (2) can constitute any material capable of having said characteristic of withstanding for a period of time the high temperatures that arise in a fire, maintaining the solid state thereof and only when a certain preset temperature is reached, the constituting material thereof changes from solid state to semi-soft, or less solid, state, wherein the safety device must then act.