KR101910740B1 - Hinge device with freezone for emergency escape stairs - Google Patents

Abstract

The present invention relates to a hinge device having a freezone function for emergency stairs. An object of the present invention is to make a change in the structure of rotating emergency stairs safe during coupling between the emergency stairs and a hinge. Through rotation of the emergency stairs, a rotational force is transmitted to a damper through the hinge device having a freezone function. A load is generated in the damper to which the rotational force is transmitted, and then the rotational force of the emergency stairs is attenuated and the stability of the device is improved. There is a certain angle of clearance between the rotation bracket and the autonomic centering bracket of the hinge device having the freezone function. This margin angle has the freezone function such that the damper does not operate at an angle at which the rotational force is insufficient during the structural change and the rotation of the emergency stairs. Subsequently, the rotational force is transmitted to the damper through the combined rotation bracket and autonomic centering bracket and the rotational force of the emergency stairs is attenuated. The autonomic centering bracket of the hinge device having a freezone function secures alignment of both axes when at least one hinge device installed on the emergency stairs rotates with a rotational force through a ball located inside the bracket and stably supports the device to prevent damage when torsion occurs or a rotational force difference is shown in the emergency stairs undergoing a structural change.

Description

[0001] HINGE DEVICE WITH FREEZONE FOR EMERGENCY ESCAPE STAIRS [0002]

More particularly, the present invention relates to a hinge apparatus having an emergency stair-step freezone function, and more particularly, in a high-rise building such as an apartment, a structure installed on a balcony in an emergency such as a fire is reshaped into an emergency staircase to quickly escape from a high- In the hinge device having the freezone function coupled to the lower end of the emergency stair, the potential energy of the emergency staircase is changed into rotational kinetic energy by the rotation of the emergency staircase, but the rotational kinetic energy necessary for changing the structure of the emergency stairway The present invention relates to a hinge device having a freezone function for an emergency stairway which connects a damper and an emergency stairway in a situation where a rotation speed of an emergency stairway is damped using a rotary damper.

An emergency staircase is an evacuation system used in high-rise buildings such as apartments in an emergency such as a fire. When a fire occurs in a high-rise building, the structure attached to the outside of the balcony or the building is changed to an emergency staircase, It is one of the fire evacuation systems that helps to escape quickly.

These emergency stairs are configured such that the structure of the apparatus is changed by rotating the hinge having the emergency stairs installed in the high-rise building by 180 degrees by the rotation axis. At this time, the apparatus is operated using the impact and repulsive force However, since the emergency staircase rotates rapidly due to the position energy due to the weight and the position of the apparatus, and there is a risk that the apparatus will be damaged due to the impact required for structural change due to the weight of the apparatus and the rapid rotation speed, It is necessary to adjust the rotational speed by mounting a damper device on the damper.

The emergency stairs are assembled on the hinge axis and are erected at right angles. When the emergency stairs are pushed in the event of an emergency such as a fire, the emergency stairs are rotated 180 degrees around the shaft, However, the above-described system has the following problems.

When the potential energy of the emergency staircase rotates downward and is transformed into rotational kinetic energy, it has a larger rotational kinetic energy than necessary due to the weight of the emergency stairway, and the emergency staircase rotates without any other means of controlling such rotational kinetic energy Colliding with a fixing member such as a wall may cause a problem that the emergency staircase is damaged and can not function. Also, when the damper is installed to prevent the emergency stairs from colliding with each other, the damper is operated from the point where the initial position energy of the emergency staircase can not be changed to the rotational kinetic energy, When the one or more rotational kinetic energy control means is coupled to the hinge, there arises a problem that the alignment of both hinges is not matched. Therefore, when the rotation is changed and the structure is changed, There is a possibility that a problem of bending or breakage may occur. In order to solve the above problem, it is well known that the rotational kinetic energy control means, i.e., the damper, is directly coupled with the hinge portion to control the rotational kinetic energy at the emergency step.

In order to solve the above-described problems, the hinge apparatus having a freezone function for emergency stairs of the present invention is composed of a hinge device capable of engaging with a damper. The hinge device includes a frame bracket coupled with a damper, A hinge shaft for transmitting a rotational force transmitted from an emergency stair to an input shaft of the damper; a hinge shaft fixed to the hinge shaft, the one end of the autonomic centering bracket having a predetermined angle And a rotation bracket having protrusions formed on both sides thereof so as to be supported with a margin.

As described above, unlike the conventional hinge apparatuses, the hinge apparatus having a free-standing stair-step freezone function does not transmit the rotational force to the damper at a position where the initial position energy is large due to the freezone function and the rotational kinetic energy is small. The emergency stairs can be changed quickly and safely, so that emergency stairs can be used quickly in case of an emergency. The emergency stairs can be used quickly in emergency situations because the damper is operated and the rotation force is damped when the emergency staircase rotates at a certain angle. The alignment can be ensured by the hinge device without any means for securing alignment, thereby preventing breakage of the device, providing a sense of stability, and lowering the cost.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an external perspective view showing a preferred embodiment of a hinge apparatus having a freezone function for emergency stairs according to the present invention. Fig.
2 is a cross- Fig. 8 is a view showing an example of a hinge device having a freezone function for an emergency staircase according to the present invention, which is coupled to an emergency staircase and a damper; Fig.
3 is an exploded view showing a preferred embodiment of a hinge apparatus having a freezone function for emergency stairs according to the present invention.
4 is an exemplary view for explaining a freezone function of a hinge apparatus having a freezone function for emergency stairs according to the present invention;
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hinge apparatus for an emergency staircase,

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that the present invention can be understood more clearly.

Fig. 1 shows a hinge apparatus 100 as an external perspective view of a hinge apparatus having a freezone function according to the present invention.

2 is a perspective view showing an embodiment in which a hinge device 100 having a freezone function according to the present invention is suitably combined with the damper 101 and the emergency stairs 110. FIG.

1 and 2, the hinge device 100 having a freezone function is composed of a hinge shaft 1, a rotation bracket 2, an autonomic centering bracket 3 and a frame bracket 4 .

The hinge shaft 1 is a medium for transmitting the rotational force generated in the emergency stairs 110 to the damper 101. The hinge shaft 1 is hollow and the hollow is provided with the input shaft of the damper 101 And an outer hexagonal portion 1b on which the rotary bracket 2 can be mounted is formed on the outer diameter of the shaft.

3, the rotation bracket 2 is provided with a hexagonal hollow 2b at the center thereof. As shown in Fig. 3, the projecting portion 2a is formed at both ends of the lower end of the rotation bracket 2, So that the center holding bracket 3 can be positioned.

The autonomic centering holding bracket 3 is assembled by the autonomic centering bracket front face 3a and the autonomic centering bracket back face 3b and the autonomic centering bracket ball 3c, And the hollow interior of the front surface 3a and the rear surface 3b of the autonomous centering bracket 3 are formed in a semicircular shape so that the autonomous centering bracket ball 3c can be installed in the hollow formed in the rear surface 3b, And a fixing bracket portion 3d is formed at the lower end so that the emergency stairs 110 can be installed. Also, a hollow is formed in the autonomic centering holding bracket ball 3c, and both sides of the hollow are formed in a cross-section.

The frame bracket 4 is formed with a frame bracket holding screw portion 4c so that the hinge device 100 can be fixed to a fixing member (not shown) such as a wall, and the hinge shaft 1 is rotatably supported And a frame bracket engaging threaded portion 4b is formed to allow the damper 101 to engage with the hinge 100. The frame bracket engaging threaded portion 4b is formed in the frame bracket hollow portion 4a. Hereinafter, the functions of the hinge device 100 having the freezone function will be described in detail.

The frame bracket 4 is fixed to the fixing member (not shown) by the frame bracket holding screw portion 4c and the damper 101 is coupled to the frame bracket engaging screw portion 4b, The hinge device 101 having a freezone function coupled to the emergency stairs 110 in the fixed bracket part 3d of the emergency stairs 110 is connected to the emergency stairs 110 as the emergency stairs 110 is rotated by gravitational acceleration, When the autonomic centering holding bracket 3 rotates about the axis of the hinge shaft 1 coupled to the frame bracket 4, only the autonomous centering holding bracket 3 rotates at the initial stage of rotation as shown in Fig. 4A, The autonomic centering holding bracket 3 is rotated and moved by an allowance angle between the protruding portion 2a of the rotating bracket 2 and the autonomic centering holding bracket 3 as shown in FIG. (2a) of the rotating bracket (2) The shim retaining bracket 3 is engaged and starts to rotate at the same time, and the rotational force starts to be transmitted to the damper 101 from this point. The rotational force transmitted to the rotary bracket 2 through the freezer is transmitted to the input shaft of the damper 101 and the damper 101 is operated to attenuate the rotational force of the emergency stairs.

In the operation of the emergency step 110, one or more dampers 101 and a hinge device 100 are mounted, and alignment maintenance is essential between such devices. In the present invention, alignment is ensured through the autonomic centering holding bracket 3 of the hinge device 100 having a freezone function.

5, the autonomic centering bracket 3 is configured such that the autonomic centering bracket ball 3c is accommodated between the semicircular hollows of the front face 3a and the rear face 3b of the autonomic centering bracket And the autonomic centering holding bracket ball 3c is freely rotatable within the autonomous centering holding bracket 3. 5 and 6, the autonomic centering holding bracket 3 is provided between the rotation bracket 2 provided on the hexagonal portion 1b of the hinge shaft 1 and one side of the frame bracket 4, And can move along the hinge shaft 1 in one direction of the rotation bracket 2 and the frame bracket 4 as necessary. When the emergency step 110 is rotated by the autonomic centering bracket 3 of this type, the two hinge apparatuses 100 can not be rotated uniformly and can not be twisted or shaken to the left or right, The autonomous centering bracket 3 of the automatic centering bracket 3 is freely rotatable by the autonomic centering bracket ball 3c so that the alignment between the at least one hinge units 101 is secured and the damper 101 is broken or the emergency stairs 110 ) Is prevented from being twisted.

1. Hinge shaft, 1a. Hollow hexagonal portion, 1b. External hexagonal part
2. Rotating bracket, 2a. The rotation bracket protrusion, 2b. Hexagonal portion
3. Self-centering maintenance bracket, 3a. Self-centering maintenance Bracket front,
3b. Autonomic Centering Bracket Back,
3c. Autonomic centering bracket ball, 3d. Fixed bracket part
4. Frame bracket, 4a. Frame bracket hollow part, 4b. Frame bracket coupling thread
4c. Frame Bracket Supporting Screw
100. Hinge device
101. Damper
110. Emergency stairs

Claims (3)

The hinge device 100 having a freezone function includes a frame bracket 4 coupled to a damper 101, a hinge shaft 1 coupled with an input shaft of the damper 101, And an autonomous centering bracket 3 that is inserted between the protrusions 2a of the rotating bracket 2 and the hinge shaft 1 is inserted into the hollow portion of the rotating bracket 2, The hinge device 100 is assembled,
The autonomic centering holding bracket 3 includes a ball 3c having a cut surface formed on its both sides and a hollow formed at the center of the cut surface so that the hinge shaft 1 is inserted and rotatably supported by an autonomous centering bracket ball 3c , An autonomic centering bracket front face (3a) for supporting the autonomic centering bracket ball (3c), and an autonomic centering bracket rear face (3b). The automatic lifting device as claimed in claim 1, wherein the protruding portion (2a) of the rotating bracket (2) is formed such that both side projecting ends thereof can be supported at a certain angle with the autonomous centering holding bracket (3) . The autonomic centering bracket (3) according to claim 1, wherein the hollow of the autonomic centering bracket front face (3a) and the rear face (3b) of the autonomic centering bracket is formed such that the self centering bracket ball And an autonomic centering holding bracket 3 is provided between the rotating bracket 2 and one side of the frame bracket 4 and an autonomic centering holding bracket 3 is provided between the rotating bracket 2 and the frame bracket 4 along the hinge shaft 1. [ And a free space that can be moved to the side of the frame bracket (4).

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