KR101320899B1 - Burying type lighting lamp - Google Patents

Abstract

PURPOSE: An embedded lamp is provided to enable a user to simply install a lamp body with a steel-frame structure. CONSTITUTION: A fixing unit (200) fixes a lamp body by using a steel-frame structure installed on the board of a ceiling. A fixing bracket (210) is fixed at the rear surface of the lamp body. A rotary bracket (220) is elastically supported at the fixing bracket by using an elastic member. The rotary bracket includes a body unit (221), a mounting unit (222), and a slope unit (223). The body unit is rotatably combined with the fixing bracket. The mounting unit is mounted in the structure of a ceiling extended from the body unit to a rotation direction.

Description

Built-in recessed light for easy installation {BURYING TYPE LIGHTING LAMP}

TECHNICAL FIELD The present invention relates to a lighting lamp, and more particularly, to a buried type lighting lamp which can be bury and bury conveniently in a ceiling. In particular, the present invention relates to a recessed type lighting lamp which can be fixed and installed on the ceiling steel frame structure (M bar) conveniently and stably.

Luminaires are devices that use electricity to convert objects into light energy by receiving power, so that humans can identify objects in the dark. Such a luminaire has become a catalyst for the revolutionary development of human civilization in the dark and is used in various forms in modern society.

Incandescent bulbs, first developed to illuminate the darkness, are now being used in a more inexpensive manner because they generate more heat than light, and fluorescent lamps have been introduced to ameliorate these shortcomings. Fluorescent lamps have the advantage of saving energy because they convert electric energy to light energy more than incandescent bulbs, but they require new media due to their long lighting time and their short lifespan.

Light emitting diodes (LEDs) have been developed to meet these requirements, and although they are still expensive to manufacture and have low economic feasibility, they have high illuminance with small power and have a long service life without any special repairs. Its lifespan is remarkably long, so it is most preferred as a future light and is produced in various forms.

LED emits light when electric current is applied to PN junction of diode. It is a kind of electric luminescence which emits solid by electric field. Its characteristic is fast turn on or off, low power consumption and long life. It is possible to emit light of various colors, and has the advantage of less glare than other light sources for lighting.

Luminaires using such LEDs are currently installed in such a way as to be embedded or exposed to walls, ceilings, etc. of buildings. Among the luminaires using LEDs, the luminaires installed on the ceiling are shown in FIG. 1.

As shown in FIG. 1, the luminaire 1 using the conventional LED has a structure of fixing to a steel structure (M bar) installed on the ceiling by using a screw 2.

The conventional LED luminaire having such a fixed structure requires a lot of work by the operator to manually tighten a plurality of screws by hand, which requires a lot of work, and fastening and dismantling the screw, which is a fixed body, to match the center of the luminaire and the perforated part of the ceiling. There is a problem that needs to be repeated. In addition, because the screw is exposed to the outside there is a problem that the appearance is not good.

Disclosure of Invention An object of the present invention is to provide a buried type lighting that is easy to install and does not require additional work to match the center of the luminaire and the perforated part of the ceiling.

Easily mounted recessed lighting of the present invention, the fixing bracket is fixed to the back of the luminaire body; And a rotating bracket rotatably coupled to the fixing bracket and elastically supported by the fixing bracket by the elastic member. When the luminaire body is inserted into the perforation part of the ceiling, the rotating bracket is rotated by the elastic member so that the top of the ceiling is rotated. It is made to rest on the structure.

Among the components of the rotating bracket, the seating part seated on the upper structure of the ceiling has a multi-stage seating surface so as to be stably seated on the upper surface of the structure even if the board thickness of the ceiling varies.

Easily mounted recessed lighting according to the present invention further includes a rotation preventing member coupled to the fixing bracket to prevent the rotating bracket from rotating in a direction opposite to the direction in which it is seated on the structure, and the luminaire body is inserted into the perforation of the ceiling. Before the rotation bracket on the fixed bracket to prevent the rotating bracket is rotated in the direction of the fixed bracket is coupled to the fixed bracket.

Rotating bracket, the body portion rotatably coupled to the fixed bracket and the elastic member is connected; A seating portion extending from the body portion in a rotational direction and seated on the structure; And an inclination portion extending from the body portion in a rotational direction to contact the structure to tilt the body portion in the rotational direction when the luminaire body is inserted into the perforation portion of the ceiling. First, the inclined portion contacts the structure and the body portion is inclined in the rotational direction. After the seating portion passes through the structure, the body portion continues to rotate in the rotational direction by the force acting on the body portion from the elastic member, so that the seating portion is placed on the upper portion of the structure. The luminaire body is lifted by the lever principle in the seating process.

In the process of inserting the luminaire body into the perforated part of the ceiling, the rotating bracket is in contact with the structure, and the reaction against external force applied to the structure through the rotating bracket is transmitted from the structure to the luminaire body through the rotating bracket and the fixing bracket. The center is automatically located in the center of the perforated part of the ceiling.

According to the recessed lamp having an easy installation of the present invention has the following effects.

First, the fixture body can be easily and firmly installed on the steel structure (M bar) to be installed on the ceiling using a fixture, there is an advantage that easy disassembly.

Secondly, unlike the related art, since a fixture such as a screw is not used, there is no fear that the fixture such as a screw is exposed to the outside, so the appearance is simple and beautiful.

Third, in the process of inserting the luminaire body into the perforated part of the ceiling, the center of the perforated part and the center of the luminaire body are automatically aligned, so that the installation of the luminaire body is easy.

1 is a perspective view showing a recessed lamp according to the prior art.
Figure 2 is a perspective view showing an easy-to-install recessed lamp according to the invention.
Figure 3 is a view showing a state in which the ceiling mounted recessed lighting according to the present invention.
Figure 4 is a view showing a state in which the ceiling mounted recessed lighting according to the present invention.
5 is a perspective view of the fixture shown in FIGS. 2 and 3;
6 is a longitudinal cross-sectional view of FIG. 5;
Figure 7 is a longitudinal cross-sectional view of the rotating bracket is rotated in FIG.
8 to 12 is a view showing a state in which the recessed lamp according to the present invention is installed on the ceiling.
Figure 13 is a view showing a state in which the recessed lamp is installed on the ceiling when the thickness of the ceiling L1.
14 is a view showing a state in which the recessed lamp is installed on the ceiling when the thickness of the ceiling is L2.
15 is a view showing a state in which the center of the perforated ceiling and the center of the lamp is automatically matched in the process of embedding the recessed lamp according to the present invention to the ceiling.

Hereinafter will be described in detail with reference to the accompanying drawings, the recessed-type lamp easy to install the present invention.

Figure 2 is a perspective view showing an easy-to-install recessed lighting according to the present invention, Figure 3 is a view showing a state of installing the recessed lighting according to the present invention on the ceiling, Figure 4 is a recessed lighting according to the present invention Is a view showing the state installed on the ceiling.

Easily installed recessed lighting according to the present invention includes a luminaire body 100 and the fixture 200.

The luminaire body 100 has an LED as a light source, and is installed through the ceiling board 10 when installed. The front surface of the luminaire body 100 is exposed to the room so that light irradiated from the LED illuminates the room.

Fixture 200 is installed on each of the two rear edges of the luminaire body 100 are spaced apart from each other to fix the luminaire body 100 to the steel structure (M bar, 20) installed on the upper surface of the board (10).

The fixture 200 passes through the steel structure 20 as shown in FIG. 3 together with the luminaire body 100 in the process of passing through the perforations 11 formed on the board 10 of the ceiling of the back surface of the luminaire body 100. 4, when the rotary bracket to be described later of the fixture 200 is positioned on the upper portion of the steel structure 20, the rotating bracket is rotated and seated on the upper surface of the steel structure 20, such that the luminaire body 100 is ceilinged. It is installed reliably on the purchase.

Figure 5 is a perspective view of the fixture shown in Figures 2 and 3, Figure 6 is a longitudinal cross-sectional view of Figure 5, Figure 7 is a longitudinal cross-sectional view of the rotating bracket in Figure 5 rotated state.

Fixture 200 includes a fixing bracket 210, a rotating bracket 220, a spring 230 and a rotation preventing screw 240.

The fixing bracket 210 is fixed to the rear surface of the luminaire body 100 to rotatably support the rotating bracket 220. The fixing bracket 210 extends horizontally forward from the bottom of the vertical plate 211 and the vertical plate 211 vertically placed on the rear surface of the luminaire body 100 to support the bottom of the spring 230 to support the fixed bottom. 212, a pair of side support plates 213 extending forward from both side ends of the vertical plate 211 to support both side ends of the vertical plate 211, and both sides from the bottom of each side support plate 213. And a bottom plate 214 extending horizontally in each direction and mounted by welding or screwing to the back surface of the luminaire body 100.

The vertical plate 211 is positioned to be spaced apart upward from the rear surface of the luminaire body 100, but is not limited thereto and may be formed to contact the rear surface of the luminaire body 100. The anti-rotation screw 240 is screwed to both sides of the upper end of the vertical plate 211.

Two spring coupling holes 212a to which the lower end of the spring 230 is fitted and coupled to the spring support plate 212 are spaced left and right. In addition, when the spring 230 is coupled to the front of each spring coupling hole (212a) is cut so that the lower end of the spring 230 does not protrude toward the front of the spring support plate 212, the lower end of the spring 230 is inserted Part 212b is formed, respectively. The spring support plate 212 is located between the side support plates 213.

In front of the upper end of the side support plate 213 is an edge portion insertion groove 213a having a ∪-shape in which the edge portion 221a which will be described later, which is a rotation axis of the rotation bracket 220, is rotatably inserted and opened upward.

Reinforcing ribs 215 for reinforcing the bent state are formed at the connection portions of the bottom plate 214 and the side support plate 213, that is, the bent portion.

The rotating bracket 220 is elastically supported by the spring 230 on the fixing bracket 210 and is rotated when the rear part of the luminaire body 100 is embedded in the ceiling to be seated on the upper surface of the steel structure 20. The rotating bracket 220 includes a body portion 221, a seating portion 222 and the inclined portion 223.

Body portion 221 is rotatably coupled to the side support plate 213 of the fixing bracket 210, the top of the spring 230 is connected. Body portion 221 is formed in a plate shape when the luminaire body 100 is inserted vertically when inserted through the perforations of the ceiling is rotated and laid down when seated on the steel structure 20.

Edge portions 221a to be inserted into the edge portion insertion grooves 213a of the side support plates 213 are formed at both lower ends of the body portion 221, respectively. The edge portion 221a is bent in a '' shape. Since the vertical surface of the right angled bent edge portion 221a is in contact with the vertical surface of the edge insertion groove 213a, the body portion resists the moment caused by the inclination of the initial spring 230 while the body portion 221 is standing vertically. The 221 is prevented from tilting toward the vertical plate 211.

Both sides of the body portion 221 are formed with cutouts 221b into which the upper end of the spring 230 can be inserted. When the body 221 is inclined due to the cutout 221b, the body 221 is caught by the spring 230 so that rotation thereof is not hindered. Spring coupling holes 221c to which upper ends of the springs 230 are fitted are coupled to upper portions of the cutouts 221b, respectively.

The seating portion 222 is bent in the direction in which the body portion 221 is rotated from the top of the body portion 221 is seated on the upper surface of the steel structure 20 when the luminaire body 100 is completely embedded in the ceiling. The seating portion 222 has its own elastic force due to the structure bent from the body portion 221, and bent in multiple stages to be stably seated on the steel structure 20, regardless of the thickness of the board 10 of the ceiling do.

The inclined portion 223 extends in the rotational direction from the front center of the body portion 221 so that the body portion is in contact with the steel structure 20 when the luminaire body 100 is inserted into the perforated portion of the ceiling and tilted downward. 221 is tilted in the rotation direction. That is, when the luminaire body 100 is inserted into the perforated part of the ceiling, the relative external force from the steel structure 20 is transmitted to the inclined portion 223 so that the body portion 221 is inclined in the rotation direction.

The inclined portion 223 includes a horizontal extension portion 223a extending horizontally from the body portion 221 and an inclined extension portion 223b formed to be inclined downward from an end of the horizontal extension portion 223a. The inclined extension part 223b is elongated so as to be bent by the steel structure 20 when the luminaire body 100 is inserted into the perforation part of the ceiling. As shown in FIG. 6, the inclined portion 223 is formed to protrude further forward than the seating portion 222 in the state in which the rotation bracket 220 is vertical.

The spring 230 elastically supports the rotating bracket 220 with respect to the fixing bracket 210 as a tension spring. The spring 230 maintains the rotation bracket 220 in a vertical position unless an external force is applied when the rotation bracket 220 is in a vertical position. If an external force acts in a direction in which the rotating bracket 220 rotates, that is, in a direction in which the rotating bracket 220 is seated on the steel structure 20, the rotating bracket 220 is inclined, by the compression force of the spring 230. The rotating bracket 220 is rotated in the direction of the steel structure (20). As long as the force exceeding the force of overcoming the compressive force of the spring 230 in the direction in which the rotating bracket 220 returns to its original state, the rotating bracket 220 maintains the rotating state.

In a state in which the rotating bracket 220 is vertically mounted on the fixing bracket 210, as shown in FIG. 6, the spring 230 is inclined downward toward the rear of the rotating bracket 220. That is, the lower end of the spring 230 is located behind. For this structure, the fixed position of the rotating bracket 220 is located in front of the fixed position of the bottom of the spring 230.

In order for the rotating bracket 220 to rotate in the direction of the steel structure 20 by the compression force of the spring 230, an external force for breaking the state as shown in FIG. 6 should act on the rotating bracket 220. At this time, the size of the external force is determined by the tension of the spring 230, the distance between the installation position of the rotary bracket 220 and the installation position of the bottom of the spring 230, the length of the inclined portion 223 and the like.

The anti-rotation screw 240 is screwed to both sides of the upper end of the vertical plate 211 so that the rotation bracket 220 is inclined backward when the compression force of the spring 230 is applied in the state in which the rotation bracket 220 is vertically established. prevent. By adjusting the degree to which the anti-rotation screw 240 is projected toward the front of the vertical plate 211, it is possible to adjust the external force for breaking the state of FIG. That is, as the anti-rotation screw 240 protrudes toward the front of the vertical plate 211, the rotation bracket 220 may be rotated even with a small external force.

8 to 11 is a view showing a state in which the recessed lamp according to the present invention is installed on the ceiling.

As shown in FIG. 8, the angle α formed between the vertical plate 211 and the spring 230 of the fixing bracket 210 in a state where the rotating bracket 220 is vertically set is 7 ° (above 7 ° or less). Of course it is). At this time, the compression force of the spring 230 is applied to the rotating bracket 220, the force is applied to the rear, but due to the right angled bent edge portion 221a of the rotating bracket 220 does not tilt the rotating bracket 220 to the rear. It will remain vertical. Of course, the rotation to the rear of the rotating bracket 220 can be prevented by the rotation preventing screw 240.

As shown in FIG. 9, when the rear part of the luminaire body 100 is inserted into the perforation part 11 formed on the board 10 of the ceiling, the inclined extension part 223b constituting the inclined part 223 of the rotating bracket 220 is provided. The bottom edge of the steel structure 20 is in contact.

As shown in FIG. 10, when the rear portion of the luminaire body 100 is continuously inserted into the perforation part 11, the inclined extension part 223b is pushed by the steel structure 20 to rotate clockwise in the drawing and the seating part 222. It will also rotate clockwise. As such, the rotation bracket 220 is inclined toward the steel structure 20 in the process of inserting the luminaire body 100, and the angle formed by the vertical plate 211 and the spring 230 of the fixing bracket 210 is 7. It will exceed °.

When the seating portion 222 is completely out of the steel structure 20 and positioned above the steel structure 20, the steel structure is continuously rotated in the clockwise direction by the compression force (reaction) of the spring 230. It is seated on the upper surface of (20). The luminaire body 100 is lifted up by the lever principle in the seating portion 222 is seated on the upper surface of the steel structure 20.

As shown in FIG. 11, the luminaire body 100 is continuously lifted and the rotating bracket 220 is continuously rotated in the clockwise direction in the fixing in which the seating portion 222 is seated. This process is automatically performed by the force acting on the rotating bracket 220 from the spring 230.

As shown in FIG. 12, the rotary bracket 220 continues to rotate to lift the luminaire body 100 until the rear edge of the luminaire body 100 contacts the board 10 of the ceiling. When the rear edge is in contact with the ceiling board 10, the seating surface of any one of the multi-stage seating surface constituting the seating portion 222 is in stable contact with the upper surface of the steel structure (20).

At this time, since the fixing state of the luminaire body 100 is maintained by the force acting on the rotating bracket 220 by the spring 230, in order to release the fixing state of the luminaire body 100, the rotating bracket 220 The force exceeding the force of the spring 230 acting on should act on the rotating bracket (220).

In order to separate the luminaire body 100, which is installed through the above-described process, from the ceiling, as described above, the luminaire body 100 has a force exceeding the force of the spring 230 acting on the rotating bracket 220. Grab it and pull it down.

Holding the luminaire body 100 and pulling it down, the rotating bracket 220 rotates counterclockwise in the drawing and the seating part 222 is rotated while the luminaire body 100 and the fixture 200 are rotated from the ceiling. Easily separated

FIG. 13 is a view illustrating a state in which the recessed lighting is installed in the ceiling when the thickness of the ceiling is L1, and FIG. 14 is a view illustrating the state in which the recessed lighting is installed in the ceiling when the ceiling is L2. At this time, L1 <L2.

Even if the thickness of the board 10 of the ceiling is changed, the luminaire body 100 is stably mounted on the ceiling by the elastic force of the multi-stage seating surface constituting the seating portion 222 of the rotating bracket 220 and the seating portion 222 itself. It is fixedly installed.

That is, when the thickness (L1) of the board 10 is relatively thin, the seating surface 222a of the position adjacent to the body portion 221 of the multi-stage seating surface, as shown in Figure 13 on the upper surface of the steel structure 20 When it is seated to stably support the luminaire body 100, and when the thickness L2 of the board 10 is relatively thick, as shown in FIG. 14, the seating surface 222b positioned at the end of the seating surface of the multi-stage is steel structure. It is seated on the upper surface of the 20 to stably support the luminaire body (100).

If the board 10 has two thickness types, the seating surface may be formed in two stages as shown in the drawing. If the board 10 has three or more thickness types, the seating surface may be formed in three or more stages accordingly. do.

FIG. 15 is a view illustrating a state in which a center of a ceiling perforating part and a center of a lighting lamp are automatically fitted in a process of embedding the recessed lighting lamp according to the present invention. FIG.

When the rotating bracket 220 contacts the steel structure 20 while the luminaire body 100 is inserted into the perforated part 11 of the ceiling, the steel structure 20 from the rotating bracket 220 by the spring 230. An external force (moment) acts on the side of the. The reaction to the external force is transmitted from the steel structure 20 to the luminaire body 100 through the rotating bracket 220 and the fixing bracket 210. Therefore, the center C1 of the luminaire body 100 is automatically located at the center C2 of the perforated part 11 of the ceiling. This technical feature allows the operator to quickly and accurately install the luminaire body 100 on the ceiling.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims.

100: luminaire body 200: fixture
210: fixing bracket 211: vertical plate
212: spring support plate 213: side support plate
214: bottom plate 215: reinforcing rib
220: rotating bracket 221: body
222: seating portion 223: inclined portion
230: spring 240: anti-rotation screw

Claims (5)

A fixing bracket fixed to the rear surface of the luminaire body and a rotation bracket rotatably coupled to the fixing bracket and elastically supported by the fixing bracket by an elastic member to insert the luminaire body into the perforation of the ceiling. When the rotating bracket is rotated by the elastic member to be mounted on the upper structure of the ceiling embedded lamp,
The rotating bracket,
A body part rotatably coupled to the fixing bracket and to which the elastic member is connected;
A seating portion extending from the body portion in a rotational direction and seated on the structure; And
An inclination portion extending from the body portion in a rotational direction to be in contact with the structure to tilt the body portion in a rotational direction when the luminaire body is inserted into the perforation portion of the ceiling;
When the luminaire body is inserted into the perforated part of the ceiling, the inclined portion is first in contact with the structure and the body portion is inclined in the rotational direction. The body is continuously rotated in the rotational direction by the force to make the seat is seated on the upper portion of the structure, the installation is easy, characterized in that the luminaire body is lifted by the lever principle in the process of seating One recessed light fixture. The method of claim 1,
Easy to install, characterized in that the mounting portion of the rotating bracket seated on the upper structure of the ceiling has a multi-stage mounting surface to be stably seated on the upper surface of the structure even if the board thickness of the ceiling is different Lighting. 3. The method according to claim 1 or 2,
The anti-rotation member is coupled to the fixing bracket to prevent the rotating bracket from rotating in a direction opposite to the direction in which it is seated on the structure, and on the fixing bracket before inserting the luminaire body into the perforation of the ceiling. Easily mounted recessed lamp, characterized in that the rotating bracket is coupled to the fixed bracket so that the rotating bracket is prevented from rotating in the fixed bracket direction. delete 3. The method according to claim 1 or 2,
When the luminaire body is inserted into the perforated part of the ceiling, the rotating bracket is in contact with the structure, the reaction to the external force applied to the structure through the rotating bracket from the structure through the rotating bracket and the fixing bracket Easy-to-install recessed light, characterized in that the center of the luminaire body is automatically transferred to the center of the perforated part of the ceiling is delivered to the luminaire body.

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