KR101864600B1 - Earthquake-proof bracket for lights - Google Patents

Abstract

[0001] The present invention relates to a fixing installation for a lighting fixture installed in an indoor ceiling such as an office, a hospital, a school or a government office, and more particularly to a vertical support for the fixing bracket, And a fastening bracket, a torsion spring, and a lifting guider are successively joined to the fastening bolt inserted through the fastening bracket,
The attachment / detachment bolt located at the upper part of the illumination lamp can be rotated and lifted by rotating the attachment / detachment bolt exposed to the lower part of the illumination lamp to which the surface illumination is applied, thereby enabling the illumination lamp to be installed and separated simply and quickly using the ceiling emblem And the mutual interference structure generated during the rotation of the attaching and detaching bolt and the rotation of the attaching and detaching bracket is firmly improved, the service life of the anti-vibration bracket is greatly extended, and the structure is simple and durable, But it is also very economical due to production cost reduction.

Description

[0001] The present invention relates to an earthquake-proof bracket for lights,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fixing installation for a lighting fixture installed in an indoor ceiling such as an office, a hospital, a school or a government office, and more particularly, The present invention relates to an earthquake-proof bracket for a lighting fixture, which is capable of maintaining an installation state as well as an excellent supporting fixation force and maintaining a safe installation state of an illumination lamp from an earthquake or an impact.

In general, an M-bar, which is arranged in a lattice form, is fixedly installed on a ceiling of an office, a factory, a hospital, a hotel, a school, a government office or the like to perform various tasks, and the ceiling finish material, The ceiling of the room ceases to be closed.

In addition, a ceiling or the like having various forms such as a ceiling tie light, a ceiling tie ceiling or a ceiling tie is fixedly installed on the above-mentioned indoor ceiling. In general, ceiling tie is fixedly installed .

The above ceiling embedding and the like are performed by partially removing and cutting the ceiling finishing material, and then ceiling embedding is inserted and fixed on the ceiling finishing material. Since such ceiling embedding light is hardly protruded to the lower side of the indoor side, And at the same time, perform an even lighting effect on the entire room.

In such a ceiling or the like, a fixing bolt passing through a frame block of a ceiling or the like is fixed to the ceiling by fixing the fixing bolt to the ceiling or the like. However, since the fixing bolt protrudes and is exposed from the room, A cap for concealing can be fixed separately or various fixing means can be separately provided so that the ceiling or the like can be easily fixed and installed using the cap.

That is, as disclosed in the Utility Model Registration No. 20-0179626, a plurality of clips are fixedly formed on a ceiling plate mounting frame, so that the ceiling and the like can be fixedly installed using the rotational and torsional forces of the clips. A bending-shaped bracket is formed on a lower frame block of a ceiling or the like to mount and fix a ceiling or the like through the lubrication force of the bracket, as shown in Japanese Utility Model Registration No. 20-0301843.

In addition, a bracket provided with a rotatable fixture as shown in Patent No. 10-0723438 is formed so that the bracket is coupled to an upper part of a lighting body, and the bracket is coupled to a bottom surface of a texel, So that the bracket and the illumination main body can be coupled or separated according to the rotation of the fixing member.

However, when a ceiling or the like is to be separated from a ceiling or the like, a fixing structure and an installation structure such as a conventional ceiling are formed by bending a metal plate and having a bracket, So that they can be forcedly separated by an artificial force. This causes a problem of damaging the ceiling tex and the like while deteriorating the installation fixing force.

That is, since the fixing structure using the bracket by the bent plate member pushes the ceiling or the like upward to fix the ceiling or the like by the interlocking force between the bracket, the embroider or the bracket and the tex, Is unnecessarily large compared with the ceiling hole, it is impossible to install it because of the weakening or loss of the elastic force between the mounting hole and the bracket, and it will be installed with a very weak fixing force. It is predicted that the ceiling or the like falls into the room due to the loss of the fixing force due to the bracket.

Especially, Korea is not safe from earthquake, but active fault has been found recently. It is actually weak, but earthquakes continue to be detected. In case of ceiling with existing fixed installation structure, The ceiling or the like will be lost due to the installation tolerance between the ceiling finishing material and the ceiling due to the falling of the ceiling or the like due to the falling of the ceiling or the like, Can occur.

Therefore, in the case of existing ceilings and the like, there is a desperate need for an installation structure which is excellent in fixed installation force but can be easily installed or separated from a ceiling.

As a result, the applicant of the present invention has proposed a fixing stopper which is coupled to an upper portion of an illumination lamp to which a surface lighting by a light guide plate is applied, a rotation platform located at an upper portion of the fixing stopper, And the lifting and lowering tool is coupled to the rotary hatch so that the rotary hatch is rotated and lifted up and down in accordance with the rotation of the attaching and detaching bolt exposed to the bottom of the lamp, And an anti-earthquake-resistant bracket for a lighting fixture having a rotary lifting structure for allowing a user to easily remove the fixing brackets.

However, in the earthquake-resistant bracket, the interference structure between the stopper of the rotating steel plate provided at the lower end of the ascending and descending bracket and the stopper of the fixed stopper protruded in the rotation range of the stopper is very weak, It has a closed end.

That is, the anti-vibration bracket has a structure in which the bracket is raised and lowered in accordance with the rotating direction of the attaching / detaching bolt while interfering with the stopper and the stopper, and a considerable pressure is applied to the stopper and the stopper during the rotation of the attaching / As the pressure is repeated, the interfering force of the interlocking force is frequently lost due to bending or flaring of the stopper or stopper.

Particularly, when the screw thread of the attaching / detaching bolt and the screw fastening between the threaded portion of the rotating platform and the foreign material are accumulated or corrosion occurs, the attaching and detaching bolt will be rotated by applying an excessive force. In this case, a strong mutual interference force is applied to the pawl and the stopper, and the vertically erected stopper is deformed or flared, and when the bracket is lifted or lowered due to the interlocking, The descent can not be achieved.

Therefore, existing seismic resistant brackets have extremely short life span and are made of very sophisticated parts and components, and the manufacturing cost is very high. Also, the bracket has a problem of not having effective supporting fixation force due to excessive flow from the attaching bolt,

Korean Registered Utility Model No. 20-0179626 (Registered on Feb. 11, 2000) Korea Registered Utility Model No. 20-0301843 (Registered on January 1, 2003) Korean Registered Patent No. 10-0723438 (registered on May 23, 2007)

SUMMARY OF THE INVENTION The present invention has been made in view of the foregoing problems, and it is an object of the present invention to provide a vertical bracket and a vertical bracket, wherein the vertical bracket is formed at one side of the bracket and the bolt insertion portion is bent at the tip of the vertical bracket, The tangential spring and the elevating guider are sequentially formed to be coupled to each other,

The fastening bracket is rotated and lifted according to the rotation direction of the attaching / detaching bolt, so that the lighting lamp can be easily and easily mounted and fixed on the ceiling, and even when an earthquake or vibration acts, the lamp can be stably supported and fixed And an object of the present invention is to provide an earthquake-resistant bracket for a lighting fixture provided with a shock absorber.

According to an aspect of the present invention, there is provided a lighting device comprising: a fixing bracket coupled to an illumination lamp; a fixing bolt inserted into the fixing bracket; a fixing bracket inserted in the fixing bolt; An earthquake-resistant bracket for a lighting fixture comprising a fixing nut fastened to a front end thereof,

The fixing bracket having the bolt coupling hole at the center has a vertical support at one side thereof and a bolt support part having a bolt insertion hole at the tip of the vertical support. The coupling bracket has a horizontal pressing part " And a bolt guide portion having a bolt insertion hole is protruded and formed on the lower end of the vertical guide portion. The elevating guider located on the upper side of the fastening bracket is formed with a screwed portion having a joint and a hole, Wherein the guide projection is formed to protrude downward from the vertical guide portion of the fastening bracket and is inserted between the bolt fitting portion of the fastening bracket and the screwed portion of the lifting guide in a state of being inserted into the fastening bolt , The elevation guide hole is formed vertically through the horizontal press portion, and the guide projection of the elevation guide One side is formed by forming the elevating support piece that is inserted into a ball the elevating guide projecting downward, the bottom of convenience the lifting support has formed an engaging shoulder protruded side bias.

The present invention can rotate and lift up the attaching / detaching bolt located at the upper part of the lighting lamp by rotating the attaching / detaching bolt exposed to the lower part of the illuminating lamp to which the surface illuminating is applied so that the illuminating lamp can be easily and quickly installed Since the mutual interference structure generated during the rotation of the attachment / detachment bracket and the rotation process of the attachment / detachment bolt are firmly improved, the service life of the earthquake-proof bracket is greatly extended. Since the structure is simple and durability is excellent, It is more suitable for production, but also produces excellent economical efficiency due to production cost reduction.

1 is an overall perspective view of an anti-vibration bracket according to the present invention;
Fig. 2 is a perspective view showing the entirety of an earthquake-
Fig. 3 is a partial cross-sectional view of an earthquake-
Fig. 4 is an overall sectional view of an anti-vibration bracket according to the present invention
5 is a view showing a bracket elevation operation diagram of an anti-vibration bracket according to the present invention
6 is a view showing a bracket lowering operation diagram of an anti-vibration bracket according to the present invention
7 is an explanatory view of mounting an illumination lamp using an earthquake-resistant bracket according to the present invention
8 is an explanatory view of a process of inserting an illumination lamp combined with an anti-vibration bracket according to the present invention into a ceiling
Fig. 9 is a perspective view of a ceiling mounted state of an illumination lamp to which an earthquake-

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of an anti-vibration bracket according to the present invention, FIG. 2 is an exploded perspective view of an anti-vibration bracket according to the present invention, FIG. Sectional view of the anti-vibration bracket.

The earthquake-proof bracket for a lighting fixture according to the present invention includes a fixing bracket 10 made of a metal body, a fixing bolt 20, a fastening bracket 30, a torsion spring 40, a lifting guider 50, .

Here, the fixing bracket 10 serves to securely mount the vibration-proof bracket of the present invention to the illumination lamp, and corresponds to a basic structure that defines the size and height of the vibration-proof bracket.

That is, the fixing bracket 10 is formed with a bolt coupling hole 11 at its center, and vertical mounting holes 15 and 15 'are formed on both sides of the bolt coupling hole 11, A bolt guide tube 16 having an inner diameter equal to the inner diameter of the bolt coupling hole 11 is fixed on the bottom surface of the fixing bracket 10 and on the same axis as the bolt coupling hole 11 so as to protrude downward.

A vertical support 12 is vertically bent and formed at one side of the fixing bracket 10 and a bolt support portion 14 is formed at the tip of the vertical support 12 to be laterally bent. (14) is formed with a bolt insertion hole (13) which is coaxial with the bolt coupling hole (11) perpendicularly.

The detachment bolt 20 is inserted into the bolt coupling hole 11 through the bolt guide pipe 16 and is inserted into the bolt insertion hole 11 through the bolt guide pipe 16, The fixing nut 60 is inserted into the bolt insertion hole 13 of the bolt support portion 14 so that the fixing nut 60 is coupled to the fixing bolt 20. The fixing bolt 20 is fastened So that the bracket 10 can freely rotate.

The fastening bracket 30 is inserted into the fastening bolt 20 and is formed in a shape of a letter "A" by the horizontal pressing portion 31 and the vertical guide portion 32, A bolt guide portion 34 is formed at the lower end of the bolt guide portion 34 and is bent at one side in the transverse direction and a bolt insertion hole 33 is formed at the center of the bolt guide portion 34, The fastening bracket 30 can be lifted up and down from the attaching and detaching bolt 20 as the fastening bracket 30 is inserted into the fastening bolt 20 through the hole 33. When the fastening bracket 30 is lifted and lowered, So that the mounting portion 31 can be mounted on and separated from the illuminating lamp while being pressed against the embossed surface in the ceiling or being upwardly spaced.

A vertically penetrating elevation guide hole 35 is formed at one end of the horizontal pushing portion 31 and a vertically penetrating assembly hole or hole 36 is formed at one side of the elevation guide hole 35 The elevating guide hole 35 is for fastening the elevating guider 50 coupled to the attaching bolt 20 and the fastening bracket 30 and the assembling screw hole 36 is formed by the elevating guider 50, (70) for inducing a stable vertical flow of the flow preventing pin (70).

The lifting guider 50 coupled to the upper portion of the fastening bracket 30 is screwed to the fastening bolt 20 so that when the fastening bolt 20 rotates freely from the fastening bracket 10, And is structured so that the fastening bracket 30 coupled with the elevating guider 50 can be moved up and down together with the elevating guider 50 being lifted and lowered.

That is, the elevating guider 50 is formed with a threaded portion 52 at one side thereof, and a screw hole 51 is formed at the center of the screwed portion 52, and the lower portion of the elevating guider 50 A guide protrusion 53 is formed to be in surface contact with the vertical guide portion 32 of the fastening bracket 30. A guide protrusion 53 is formed on the side of the guide protrusion 53, And the support piece 54 is vertically protruded downward.

At this time, the elevating support piece 54 and the lower retaining hook 55 are inserted into the elevating guide hole 35 of the fastening bracket 30, so that the elevating support piece 54 is tilted so that the lower end of the fastening bracket 30 When the elevating guider 50 including the elevating supporting piece 54 is vertically erected with the elevating guide 55 inserted into the elevating guide hole 35, So that the mutual engagement state in which separation in the upward and downward directions is prevented is maintained.

One end of the flow preventive pin 70 coupled to the vertical guide portion 32 of the fastening bracket 30 is in contact with one side of the elevating guider 50 so that the elevating guider 50 is fastened to the fastening bracket 30 so that the flow preventing pin 70 can be stably and vertically flowed without the left and right flows. After the flow preventing pin 70 is placed on the horizontal pressing part 31, (70) is inserted into the hollow (71) formed vertically to the horizontal pressing portion (70) and then fastened by the assembly or through hole (36) formed in the horizontal pressing portion (41).

The earthquake-proof bracket according to the present invention is characterized in that the fixing bolt 20 is inserted upward from the lower side of the fixing bracket 10 and then the fastening bracket 30 and the torsion spring 40 are sequentially fitted to the fixing bolt 20 And the elevating guider 50 is also screwed to the attaching bolt 20 so that the elevating support piece 54 of the elevating guider 50 is inserted into the elevating guide hole 35 of the securing bracket 30, And are assembled to the attaching and detaching bolts 20 in a state where the tangential springs 40 are inserted between the fastening brackets 30 and the elevating guider 50 when the fastening brackets 30 are assembled with each other by the jaws 55.

The attaching and detaching bolts 20 are further lifted and assembled and inserted into the bolt insertion holes 13 in the bolt support 14 of the fixing bracket 10 and then inserted into the bolts 20 through the bolt support 14, So that the assembly can be completed.

In the assembled state of the earthquake-resistant bracket, the elevating guider 50 screwed to the attaching / detaching bolt 20 can not be raised or lowered arbitrarily. Since the reinforcing braider 50 is coupled to the elevating guider 50, The lifting guider 50 and the fastening bracket 30 are normally moved in the upward and downward directions by the urging force of the urging spring 40. Therefore, Are spaced farthest in the upward and downward directions.

In this state, when an interference, for example, embarrass, is located on the bottom surface of the horizontal pressing part 31 of the fastening bracket 30 when the elevating guider 50 and the fastening bracket 30 are lowered, When the lower end of the tongue spring 40 is lowered by a predetermined level or more, the lower end of the tongue spring 40, The clamping bracket 30 will strongly press the embossment, so that the ceiling fixation installation can be made for the light fixture equipped with the earthquake-proof bracket of the present invention by such a pressing force.

When vibration or earthquake acts on the building including the ceiling in the state of mounting and fixing as described above, the vibration between the embarrase and the lighting lamp is affected by the degree of the elasticity spring 40 between the fastening bracket 30 and the lifting guider 50 It is possible to complete a sufficient earthquake-proof installation structure by preventing the illumination lamp from being directly subjected to vibration or shock.

5, when the attaching / detaching bolt 20 is rotated in the counterclockwise direction as shown in FIG. 5, the attaching / detaching bolt 20 is detached / The bolt 20 will be freely rotated from the fixing bracket 10 and the lifting guider 50 and the fastening bracket 30 screwed to the fastening bolt 20 are screwed into the rotation direction of the fastening bolt 20 As shown in Fig.

However, since the elevating guider 50 or the fastening bracket 30 may interfere with the vertical support 12 of the fastening bracket 10 during the rotation process, only the fastening bolt 20 rotates freely in such a mutual interference state The elevating guider 50 is raised in place of the rotation due to the screw coupling structure, and the fastening bracket 30 coupled with the elevating guider 50 is also raised.

6, when the attaching / detaching bolt 20 is rotated clockwise, the lifting guider 50 and the fastening bracket 30 rotate 180 ° in the same direction as the rotation direction of the attaching / detaching bolt 20 The clamping bracket 30 and the lifting guider 50 are lifted or lowered according to the rotating direction of the attaching and detaching bolt 20 so that the lamp is mounted on the ceiling Or can be separated.

Therefore, in a state where the attachment / detachment bolt 20 is passed through the illumination lamp 100 and exposed from the interior of the illumination lamp 100, the earthquake-proof bracket of the present invention is fixed to the upper surface of the illumination lamp 100, The light is directed toward the inner side of the illumination lamp 100 and then the illumination lamp 100 is pushed up toward the tongue in the ceiling.

9, in a state where the earthquake-resistant bracket of the present invention is inserted into the ridge inside as shown in FIG. 8, and then exposed to the bottom surface of the illumination lamp 100, The fastening bracket 30 positioned in the inside direction of the illumination lamp is turned 180 degrees and then is directed toward the outside of the illumination lamp 100 while interfering with the vertical support 12 by rotating the fastening bolt 20 in the forward direction, will be.

When the attaching / detaching bolt 20 is continuously rotated in the forward direction, the fastening bracket 30 is lowered together with the lifting guider 50, so that the fastening bracket 30 will be pressed against the upper portion of the ceiling in- The ceiling tile and the large size illumination light 100 are firmly fixed to the bottom surface of the ceiling finishing material so that a strong fixed installation can be achieved.

Particularly, in such an installation state, when an impact due to an earthquake or the like acts on the illumination lamp, the vibration acting on the illumination lamp is absorbed by the tongue spring 40 so that the illumination lamp 100 flows upward and downward from the ceiling to some extent, So it is possible to maintain a strong seismic installation condition.

As described above, according to the vibration-proof bracket of the present invention, the fastening bracket 30 is lifted up and down along with the rotation direction of the attaching / detaching bolt 20, and the fastening bracket 30 or the lifting / The locking bracket 30 or the lifting guider 50 can be prevented from rotating even when the lifting bolt 20 acts on the lifting guider 50 because the lifting bolt 20 interferes with the lifting and lowering support 12, And the lifetime of the seismic bracket itself can be greatly increased as well as the maintenance of a more rigid fixed installation state.

Further, even when the attachment / detachment bolt 20 is rotated in the counterclockwise direction during the installation or disconnection of the illumination lamp 100, the directional alignment with respect to the fastening bracket 30 can be easily performed, And the lower end of the clamping bracket 30 is transmitted through the lifting guider 50 and the tapered spring 40 when the upper end of the clamping spring 40 is installed on the ceiling, The rotating force of the attaching / detaching bolt 20 is transmitted to the upper end of the lifting guider 50 within the range of the stretching force of the tongue spring 40. In this case, It is possible to relatively easily and smoothly separate and remove the illumination lamp.

Therefore, the earthquake-proof bracket of the present invention is simple in structure and easy to use, and is effective because it enables effective earthquake-proof installation for the illumination lamp.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the present invention as defined by the appended claims. Examples should be understood.

10: Fixing bracket 11: Bolt coupling ball
12: vertical support 13: bolt insertion hole
14: Bolt support 15, 15 ': Assembly mounting ball
16: Bolt guide tube
20: Mounting bolt
30: fastening bracket 31: horizontal pressing part
32: vertical guide portion 33: bolt-in hole
34: bolt guide portion 35: elevating guide ball
36: Assembly or screw
40: tangential spring
50: lifting guider 51: engaging screw
52: Screw support portion 53: Guide projection
54: lifting and supporting piece 55:
60: Fixing nut
70: anti-flow pin 71: hollow
80: Assembly bolt
100: Lighting light

Claims (4)

A fixing bracket 10 coupled to the illumination lamp 100, a fixing bolt 20 inserted into the fixing bracket 10, a locking bracket 30 and a tongue spring 40 inserted into the fixing bolt 20, A lifting guider 50 and a fixing nut 60 which is fastened to the front end of the attaching bolt 20. The earthquake-
A vertical bracket 10 is formed at one side of the fixing bracket 10 having a bolt coupling hole 11 at the center and a bolt supporting portion 14 having a bolt insertion hole 13 is formed at the tip of the vertical support bracket 12 The fastening bracket 30 is formed of a horizontal pressing part 31 and a vertical guide part 32 in the shape of a letter A and has a bolt insertion hole 33 at the lower end of the vertical guide part 32 The bolt guide portion 34 is protruded and the lifting guider 50 located on the upper side of the fastening bracket 30 is formed with a screwed portion 52 having a coupling or through hole 51, A guide protrusion 53 is formed to be downwardly protruded on one side of the fastening bracket 30 so as to be in contact with the side of the vertical guide portion 32. The tongue spring 40 is inserted into the fastening bolt 20, The bolt guide portion 34 of the fastening bracket 30 is positioned between the screwed portion 52 of the lifting guider 50,
An elevating guide hole 35 is vertically formed in the horizontal pressing portion 31 and a lift gripping piece 54 inserted into the elevating guide hole 35 is formed at one side of the guide projection 53 of the elevating guide 50 , And a lower end of the elevating support piece (54) is formed with a locking protrusion (55) protruding to one side. The shock absorbing bracket according to any one of claims 1 to 5,
The method according to claim 1,
And an anti-rotation fin (70) vertically fixed to one side of the horizontal pushing part (31) so as to face a side end of the elevating guider (50) vertically. .
3. The method of claim 2,
The flow preventive pin 70 is formed with a vertical hollow 71 and the horizontal pressing portion 31 is formed with an assembly screw hole 36 so that the assembly bolt 80 inserted into the hollow hole 71 is assembled And the flow prevention pin (70) is fixedly coupled to the horizontal pressing part (31) by being screwed to the screw hole (36).
The method according to claim 1,
The fixing bracket 10 has bolt holes 11 on both sides of which bolt holes 15 and 15 'are formed to penetrate the bolt holes 11, And the pipe (16) is formed to protrude downward.

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