KR101696184B1 - Resilient mounting device for lighting - Google Patents

Abstract

[0001] The present invention relates to an annular plate for easily separating and mounting an illumination cover in various kinds of illumination lamps, and more particularly, to an annular plate which is rotatably coupled to a stationary bracket from one side of a stationary bracket, A flow hole elastically supported by a spring is inserted between the rotating cell and the rotating cell so that the rotating cell is elastically rotated by the pressure of the flow channel,
The lighting cover can be easily mounted or separated from the mounting bracket or the fixing body by only pushing up or down the lighting cover without any other operation, The cover can be easily attached and detached, can be made very quickly and easily, and has an elastic rotation structure due to interference, so that it can be easily mounted and used in various types of illumination lamps without any additional processing or preparation, Of course, it has a simple structure, so it has a very long service life and can be mass-produced at a low cost.

Description

Resilient mounting device for lighting "

[0001] The present invention relates to an annular structure for easily separating and mounting an illumination cover in various kinds of illumination lamps, and more particularly, to an annular structure in which a rotating battery hinged to the inside of a stationary bracket flows from the inside of the stationary bracket So that the illumination cover can be easily mounted and separated from the illumination cover due to interference between the rotation support and the illumination cover.

Generally, in a home such as a single-family house or a multi-family house, an illumination lamp for illuminating the interior is essentially installed, and a lighting lamp for securing excellent interior illumination in an office, an office building, It should be.

Most of such lighting lamps are fixedly installed or installed in the lower part of the ceiling of the room. According to the installation method, they will be divided into ceiling direct lighting and ceiling hanging, and they will be classified into ceiling light or ceiling light depending on the installation type. Depending on the type of lamp built into the lamp, it is classified into a fluorescent lamp, an incandescent lamp and an LED.

Here, the ceiling light is most commonly formed by inserting a lamp, a socket, a ballast, etc. inside a fixed body formed by bending a metal plate in a circular or quadrangular shape, and a milky white synthetic resin Or an illumination cover made of glass.

Accordingly, when power is applied to the lamp coupled to the fixing body, the lighting light of the lamp is transmitted and diffused through the lower lighting cover, thereby illuminating the entire room.

The above-mentioned ceiling light is composed of a combination of a fixed body and a light cover, which are the most basic structure. Such a basic structure provides economical effects through mass production while providing the most efficient production and productivity, The illumination lamp for illumination has the above-described structure, shape, and action.

In addition, the attachment / detachment structure of the illumination cover to the fixing body may be configured such that detachment is performed through rotation of the illumination cover with respect to the fixing body, or a lever of the rotation structure is engaged with the fixing body, And it is common that the illumination cover is coupled and separated by fastening a decorative nut to the screw rod projecting through the illumination cover.

Particularly, as disclosed in Korean Utility Model No. 20-2012-0001043 in recent years, a fixture is provided on a fixing plate such as a ceiling to support and fix the cover, such as the ceiling frame and the ceiling, so that the ceiling cover, There has been proposed a fastener designed to be easily operable. Various types of fastener having a structure similar to that of the fastener have been proposed, and it has been attempted to easily mount and separate the cover member from the fastener.

However, the conventional rotary coupling structure has a problem that can be applied only to a circular illumination lamp, and the rotary lever structure has a closed end that shortens the service life due to easy breakage, and the fastening structure by the decorative nut and the screw There is a problem in that the nut is exposed to the outside and the screw rod occupies the light source mounting portion and penetrates through the cover member.

In addition, in the case of an impactor which is in the spotlight, it is relatively easy to mount and separate the cover body relatively easily. However, since the structure is complicated and the operation is not smooth, .

That is, a conventional impactor generally has a bracing body by bending a metal plate, and an engaging body formed by bending a metal plate is coupled to the inside of the bracing body so that the bracing body is coupled to the fixed body or the mounting bracket So that the illumination cover can be attached or detached according to the rotation position of the retaining body.

However, since the engaging member must be assembled to the cover member in a state in which the rotation angle or the direction of the engaging member is artificially adjusted by the operator, the engaging operation with respect to the cover member is very troublesome. In the process of separating the cover member, The cover body can not be smoothly separated from the fixing body while the fixing body is frequently dropped from the mounting surface such as the ceiling due to detachment or separation.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems described above, and it is an object of the present invention to provide a centrifugal compressor capable of rotatingly connecting a rotating battery earth from one side of a stationary bracket, and a flow hole elastically supported by a spring is inserted between the stationary bracket and the rotating battery station , So that the rotating cell is elastically rotated by the urging of the flow passage,

When the illumination cover is pushed up toward the bulb which is mounted on the mounting bracket or the fixing body, the tip of the illumination cover interferes with one side of the rotating battery strip, and rotation of the rotating bulb earth occurs, And the mounting position of the illumination cover can be maintained while being mounted on the lower end of the illumination cover.

In order to achieve the above-mentioned object, the present invention is characterized in that an installation part having a fastening hole is provided with a fixing bracket protruding on both sides, and a rotary cell having an L shape is formed on one side of the fixing bracket by a hinge pin And a flow port which is in contact with one side of the rotating cell is formed in the inside of the fixing bracket by a spring to elastically engage the flow port.

The present invention is capable of maintaining a firm fixing force against an illuminating cover even with a simple and simple constitution and is capable of easily mounting or dismounting the illuminating cover from an installation bracket or a fixed body by only pushing up or down an illuminating cover So that it can be easily and easily attached and detached to / from the lighting cover, and it has an elastic rotation structure by interference, so that it can be easily mounted and used in various types of lighting lamps without additional processing or preparation, Durable, of course, is made up of a simple structure, which has a very long service life and can be mass-produced at low cost.

Fig. 1 is a perspective view of a full-
2 is an exploded perspective view of a bulb according to the present invention;
Figure 3 is a further exploded perspective view of the bulge according to the invention,
Fig. 4 is a cross-sectional view of an entire section of a bullet according to the present invention
Fig. 5 is a view showing a state of separation
FIG. 6 is a view showing an example of the use state of the bullet-
Fig. 7 is a view illustrating an operation of mounting the illumination cover using the bulb according to the present invention
8 is a view showing the operation of separating the illumination cover using the bulb according to the present invention

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. 3 is a perspective view of another embodiment of a bullet according to the present invention, and FIG. 4 is a cross-sectional view of a bullet according to the present invention. FIG. FIG. 5 is an exploded view of the ball segment according to the present invention, and FIG. 6 is a view illustrating a use state of the ball segment according to the present invention.

As shown in the drawing, the bullet portion according to the present invention includes a stationary bracket 10 formed by bending a metal plate, a rotating battery 20 rotated from the stationary bracket 10, a stationary bracket 10, A hinge pin 30 for axially coupling the rotating shaft 20 and a spring 40 for providing a constant pressing force to the rotating shaft 20 and a spring 50.

Here, the fixing bracket 10 is formed by bending a metal plate, and the side plate 13 is formed by vertically bending both sides of the plate-shaped metal plate to form one side of the metal plate. So that the back surface portion 14 is formed by being bent vertically.

The upper end of the side plate portion 13 is fixed to the fixing bracket 10 so that the lower end of the side plate portion 13 protrudes laterally. The guide portions 15 are formed to protrude from the both side plate portions 13 so as to face each other.

In addition, the rotating cell 20 is formed in an L shape having an interference wing 21 protruding in the horizontal direction and a support wing 22 protruding in the vertical direction, and the interference wing 21 and the supporting wing portion 22 are rotatably coupled by a hinge pin 30 in the fixing bracket 10 so as to protrude outward.

At this time, since the annular protrusion 23 protrudes from the outer corner of the rotor 20, the interference force with the flow port 40 can be increased and the flow can be suppressed.

The flow port 30 is inserted between the back surface portion 14 of the stationary bracket 10 and the rotating battery station 20 so as to flow in the lateral direction and the guide portion And a spring insertion groove 43 is formed at one end of the guide groove 41 facing the rear portion 14. [

The spring 50 inserted into the spring insertion groove 43 is inserted and the other end of the spring 50 is brought into close contact with the back surface portion 14 of the fixing bracket 10, The flow passage 40 is elastically inserted between the back face portion 14 and the rotating battery region 20 by the spring 50. The flow passage 40 causes the rotating battery region 20 to be continuously As shown in Fig.

In this state, when the pressure is applied to the interference wing 21 or the supporting wing 22 of the rotating cell 20, the rotating cell 20 rotates about the hinge pin 30 by an artificial force The tongue projections 23 of the rotary shaft 20 can rotate the rotary shaft 20 while retracting the flow hole 40 and the horizontal interference wing 21 is rotated in the vertical direction And at the same time, the tread boss 23 presses the rotating cell 20 in a rotated state while the flow port 40 in the retracted state is moved forward by the reaction force of the spring 50.

Also, even when pressure in the opposite direction is applied, the elastic projections 23 retreat the flow port 40 due to the rotational force against the rotating cell 20, Immediately after the rotation is performed, the flow passage 40, which is in the retreated state, advances and presses the rotating cell 20 to restrict the flow.

At this time, since the elastic support portion 42 protruding upward and downward is formed at one side of the flow port 40, the rotation more elastic when the rotating cell 20 rotates, that is, The elastic projecting portion 23 of the rotatable shaft 20 is biased by the elastic supporting portion 42 such that the interference force with the flow opening 40 is directed toward the protruding vertex due to the inclined surface of the elastic supporting portion 42 The interference force is suddenly mitigated or lost as soon as it is gradually out of the protruding vertex of the elastic supporting part 42 and the returning force of the flow opening 40 acts as a force pushing the elastic projections 23, The rotation of the globe 20 is strong and reliable, and the rotation of the glove 20 can be more clearly defined by the operational reactivity of the rotating cell 20, that is, Whether it is able to.

Accordingly, as shown in FIG. 6, the bullet strip of the present invention is firmly fixed to the mounting object 100 of various shapes using screws or bolts using the fastening holes 11 of the mounting portion 12 The lighting cover 20 is pushed up toward the installation object 100 with the rotating cell 20 of the bulged region facing outward and the lighting cover 20 is moved upward by the bulged portion to the installation object 100 Or the illumination cover 20 is pulled downward to separate the illumination cover 20 from the installation object 100. [

Here, the installation object 100 refers to a conventional installation bracket or a fixed body, and the general illumination light includes a fixing body to which the illumination cover is coupled and an installation bracket to fix the illumination cover and the fixing body to the ceiling At this time, the fixed body will correspond to the object 100 to be installed.

7 and 8 illustrate the operation of the bulb of the present invention at the time of mounting and dismounting the illumination cover using the bulb according to the present invention.

That is, when the lighting cover 200 is to be mounted on the installation object 100, the lighting cover 200 is mounted on the installation object 100 The locking hook 201 formed at the front end of the lighting cover 200 comes into contact with the bottom surface of the interference wing 21 of the rotating battery 20, So that the rotating cell 20 rotates upward.

When the illumination cover 200 is continuously pushed up, the flange 23 interferes with the elastic support portion 42 of the flow port 40 to retreat the flow port 40, The instantaneous flow port 40 in which the flange 23 is located below the center of the elastic support member 42 is quickly moved in the advancing direction by the reaction force of the spring 50 and at the same time the flange projection 23).

Accordingly, the rotating blade 20 is rotated more rapidly by the flow port 40, so that the tip of the interference wing 21 is prevented from rotating further because it is stopped at the end of the fixing bracket 10, The supporting wing portion 22 is located in the horizontal direction by the rotating action of the rotating battery 20. When the pushing force of the light cover 200 is removed, the hooks 201 of the light cover 200 are placed on the support vanes 22, so that the mounting of the light cover 200 can be performed.

In the mounted state of the illumination cover 200, the rotating battery station 20 will not be rotated arbitrarily by the reaction force of the spring 50 acting on the flow port 40, The battery station 20 is prevented from rotating arbitrarily, so that it is possible to maintain a stable and stable mounting state.

If the user wishes to separate the lighting cover 200 from the mounted state, the user may pull the lighting cover 200 downward while gripping the lighting cover 200 by hand. When the lighting cover 200 is pulled down The locking jaw 201 of the lighting cover 200 pushes the supporting blade 22 downward so that the rotating cell 20 rotates downward and is rotated in the horizontal direction The interference fingers 21 positioned in the upward vertical direction are returned to the horizontal direction and the interference between the support fingers 22 and the engagement fingers 201 is lost So that the illumination cover 200 can be separated.

The illumination cover 200 can be easily mounted or detached from the various installation objects 100 by pressing the illumination cover 200 upward or pulling the illumination cover 200 downward. Is provided with a spring (50) which is supported by a spring (50) and is supported by a spring (50) by a flow hole (40) so as to be firmly mounted and supported by the rotary cover (20) It is possible to suppress any rotation of the battery cell 20 and to maintain a more stable mounting state with respect to the illumination cover 200. [

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: Fastening hole
12: installation part 13: side plate part
14: back surface portion 15: guide portion
20: rotating cell district 21: interference wing
22: support wing portion 23:
30: Hinge pin
40: flow port 41: guide groove
42: elastic support portion 43: spring insertion groove
50: spring
100: Installation object
200: illuminating cover 201: engaging jaw

Claims (7)

An installation part 12 having a fastening hole 11 is provided with a fixing bracket 10 protruding on both sides and a rotary cell 20 having an L shape is hinged to one side of the fixing bracket 10, Is formed by a pin (30)
Wherein the fixing bracket (10) is formed with a flow port (40) abutting one side of the rotating battery (20) by a spring (50)
The fixing bracket 10 includes a side plate portion 13 bent vertically on both sides of a metal plate and a back portion 14 bent perpendicularly to the rear side of the metal plate, And a guide part (15) bent inward is formed at a tip end of the side plate part (13) so as to protrude from the mounting part (12).
The method according to claim 1,
The guide part 15 is formed on both sides of the flow port 40 so as to be inserted into both sides of the flow port 40 so that the flow port 40 flows in the lateral direction along the guide part 15 Wherein the light-shielding cover is detachably attached to the light-shielding cover.
The method according to claim 1,
The rotating blade 20 is formed in an "L" shape by an interference wing 21 and a supporting wing 22. The wing portion 22 is formed in a state in which the interference wing 21 is horizontal, The distal end of the interference wing 21 is caught by the distal end of the fixed bracket 10 while the other end of the flow wing 40 abuts against the back face of the interference wing 21, Is rotatably moved so that one end of the flow port (40) is in contact with the rear surface of the cover (21). delete delete delete delete

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