KR101668050B1

KR101668050B1 - Insert type lamp for the ceiling

Info

Publication number: KR101668050B1
Application number: KR1020150189415A
Authority: KR
Inventors: 김석규
Original assignee: 김석규
Priority date: 2015-12-30
Filing date: 2015-12-30
Publication date: 2016-10-21

Abstract

The present invention relates to a built-in lamp for ceiling, capable of enhancing utilization by showing a variety of lighting types by only changing a cover to a housing (body), while improving assembly workability and also enabling a compact internal design. The present invention comprises: a built-in lamp housing including a PCB board installed on the floor; a cover spreading light emitted from a light source; and a cover frame covering the edge of the cover and combined with the housing. An insertion hole is formed on the floor of the built-in lamp housing to install a partition to divide the inside of the housing. A through hole is formed in a position of the PCB board, corresponding to the insertion hole.

Description

{INSERT TYPE LAMP FOR THE CEILING}

[0001] The present invention relates to a ceiling purchase and the like embedded in a ceiling of a bathroom ceiling or the like, and more specifically, it is possible to enhance utilization by enabling various types of lighting to be produced even if only a single housing (body) The present invention relates to a ceiling mounting method capable of realizing various types of designs that can be expected to have effects such as a compact internal design and an increase in assembling workability.

Generally, various lighting lamps are installed for indoor lighting. The lighting lamps are largely divided into a built-in type and an exposed type depending on the installation state of a lighting lamp for a ceiling or a wall, and a built-in type is generally called a ceiling built-in type.

A cover for covering the inside of the housing and for protecting the interior of the housing, and a cover frame coupled with the housing after the cover is placed on the housing. .

In addition, the inside of the cover plate diffused by light in the embedding and the like as described above is divided into two or more portions, and the interior of the divided portions is irradiated with different light. Or light is irradiated only in a part of the divided surfaces (collectively referred to as multi-channel directing).

On the other hand, according to the demand of the user, the inside of the cover plate is not divided, but it is constituted by one side (referred to as one channel production), so that the internal structure of the housing .

In other words, in order to divide the inside of the cover plate into two or more parts and irradiate the respective divided parts of the cover plate independently of each other without being interfered with each other, Lt; / RTI >

A housing such as a hung back housing where the wall structure is to be installed and a housing such as a hung back housing that does not require the installation of such a wall structure are separated and the manufacturer is faced with the difficulty of producing a housing for each type.

For reference, the registered utility model No. 20-0470160 (November 25, 2013) "Ceiling-mounted luminaires capable of producing various kinds of lights"

Registration Practical Utility Model No. 20-0470160 discloses a ceiling embedded luminaires capable of producing various lights by providing a double reflection plate and a diffusion plate at a central and outer diameters, .

However, the registered utility model No. 20-0470160 differs from the structure in which the inside of the cover plate to be pursued in the present invention is divided and the light is irradiated to the divided portions by the elasticity of the reflector using a spring. have.

In recent years, the use of LEDs has been increasingly used as a light source for lighting such as ceiling purchase.

In other words, the conventional fluorescent lamps used in most homes and offices generally have a high consumption power consumption and a short life span, which is inconvenient for replacing the fluorescent lamps when they are used for a certain period of time. At the same time, I have a problem,

Due to these problems, LEDs, which have a very low power consumption compared with fluorescent lamps and have a nearly semi-permanent life span, have received a lot of attention in recent years as a light source of illumination lamps.

However, in the case of the lighting using the LED, there is a lot of heat emitted from the LED, which may cause problems in the durability of the LED illumination. To solve this problem, the heat sink is introduced into the housing .

In addition, the industry is exploring ways to maximize the heat dissipation efficiency by designing such a radiating fin with an optimal structure.

The present invention is intended to provide an illumination light (multichannel rendering) in which a space is divided in a portion irradiated with light and a refill capable of being implemented in a lighting lamp (one channel rendering) in which space division is not performed, in a single housing The first object of the present invention is to provide a method of manufacturing a housing,

In order to achieve the above object, according to the present invention,

A cover for diffusing light emitted from the light source; and a cover frame covering the outer surface of the cover and coupled with the housing,

And a through hole is formed in the PCB plate at a position corresponding to the insertion groove position. In addition, the bottom of the embedded type housing is provided with an insertion groove for mounting a partition wall for dividing the inside of the housing.

And an insertion portion for passing through the through hole and inserted into the insertion groove is formed at a rear end of the partition wall,

And a second cover for diffusing light emitted from the light source is provided in front of the dividing wall.

And the cover is formed with an exposed portion for exposing the divided wall and the second cover provided on the divided wall to the outside.

In the meantime, the ceiling fill-in lamp according to the present invention has a groove formed at the bottom of the embossed housing perpendicular to the insertion groove so that the position of the fastening hole for fastening the PCB can be adjusted up and down.

A radiating fin for radiating heat is formed on an outer circumferential surface of the haptic device housing, and two radiating fins are formed as a pair, thereby functioning as a fastening groove for parts fastened to the housing.

According to the embossing and the like according to the present invention having the above-described configuration, the partition wall is provided in one housing structure without dividing the housing into separate types, and the inside of the cover can be divided so as to produce multi-channel illumination, It is possible to produce a single channel cover so that the cover plate can be made as one, so that it is possible to save a lot of cost in manufacturing cost and manufacturing process, and it is expected that an effect of multi-channel directing can be achieved easily.

Further, in designing the housing structure capable of directing the above-described design, it is also possible to save a great deal of money in the manufacturing cost and the manufacturing process and to obtain a compact structure by using a simple internal structure.

On the other hand, even in the case of a heat radiating fin which is indispensably employed in the adoption of an LED light source, the heat radiating fin can be provided with a heat sinking function and a fastening groove function.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing embedding and the like according to the present invention; Fig.
FIG. 2 is an exploded perspective view of a filler according to the present invention. FIG.
3 is an exploded perspective view illustrating a housing, a PCB plate, and a partition wall structure for embedding according to the present invention.
4 is an assembled cross-sectional view of a fillet according to the present invention;
5 illustrates another embodiment of embedding according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following description taken in conjunction with the accompanying drawings, in which: FIG.

First, the multi-channel rendering and the one-channel rendering including the two channels used in the present invention will be briefly described.

1, it is confirmed that the cover located inside the cover frame 20 is divided into two surfaces 30A and 30B (for reference, a sensor located at the center is a sensor The sensor S may be installed according to the needs of the user and may or may not function as a sensor). In the present invention, this is referred to as two channels.

The cover 30A located inside the cover frame 20 as shown in [A] of FIG. 5 is referred to as one channel in which a face is not divided but a face.

In addition, since it is possible to have three or more plane divisions of the cover according to the internal structure, it is expressed in the present invention by multiple channels of two or more channels.

Next, as shown in FIGS. 1 and 2, the ceiling embedded lighting and the like according to the present invention includes the embedded lighting housing 10, the cover 30A for diffusing the light emitted from the light source, And a cover frame (20) coupled to the main body while covering an outer periphery of the cover,

In order to employ a light source as an LED, a PCB plate 40 is provided on the bottom of the embedded lighting housing.

The ceiling filler according to the present invention further includes a partition wall 50 used for multi-channel rendering and a second cover 30B coupled to the partition wall.

More specifically, referring to FIG. 2 to FIG. 4, a detailed structure of each component including the internal structure of the embedded lighting housing will be described.

In the case of the PCB 40, LED elements are mounted on the front surface and a terminal 43 for power connection is installed on the rear surface of the PCB 40. Terminal holes 13 are formed in the bottom of the built- So that the position of the PCB plate with respect to the embossed housing is firstly set.

One through hole 41 and one fastening hole 42 are formed as one unit in the PCB plate 40. The fastening hole 42 is formed in the PCB plate 40 to fix the PCB plate to the housing, And the through hole 41 is a portion through which the insertion portion 51 of the dividing wall penetrates so that the dividing wall 50 is installed in the embossed housing.

A plurality of grooves formed in a long vertical direction in the insertion grooves are formed in the bottom of the housing to be described later, (12).

The groove 12 serves as a fastening groove for fastening and fixing the PCB plate 40 to the housing. It is preferable that the grooves 12 are formed in a long direction, So that the fastening position can be adjusted.

That is, when adjustment of the position of the fastening hole 42 by the arrangement of the LED elements is required to be up and down (or left and right depending on the viewing direction), the grooves 12, to which the fixing bolts are fastened and fixed, So that it is possible to fasten the fixing bolt with respect to the embossed housing even if the position of the fastening hole 42 is adjusted vertically.

In addition, the grooves 12 should function as fastening grooves, so that the width of the grooves is preferably set to a width that can be tightened when the fixing bolts are inserted.

Next, the partition wall 50 is formed in a cylindrical shape having front and rear openings. In the front side, a second cover 30B for diffusing light emitted from the light source is coupled and a light source is exposed to the rear side Thereby maintaining the opened state. And an insertion portion 51 for insertion into an insertion groove formed in the bottom of the housing is protruded from the rear end.

The terminal 43 is inserted into the terminal hole 13 to set the position of the PCB plate with respect to the embossed housing and then the fixing bolt is passed through the fastening hole 42 of the PCB plate to be fastened to the groove 12, Complete the fastening of the PCB plate to the housing.

The insertion portion 51 formed at the rear end of the dividing wall 50 passes through the through hole 41 formed in the PCB plate and is inserted into the insertion groove 11 of the embossed housing so that the divided wall, Respectively.

Then, after the cover 30A is positioned, the cover frame 20 is covered and the cover frame and the housing of the embossing or the like are fastened to complete the embossing assembly. At this time, since the second cover 30B has to be exposed to the outside, the cover is formed with the exposed portion 35 as much as necessary to expose.

When a function as a sensor or the like is required, the sensor S may be provided at the center of the second cover (although the sensor is shown in the figure as a reference, in order to mount the sensor, However, it should be noted that this is not related to the gist of the present invention,

Next, referring to the structure in which the second cover is mounted on the partition wall, as shown in FIGS. 3 and 4, the second cover 30B is provided with the engaging tab 54a inward from the front end of the partition wall , And then fixed by a locking protrusion 54b provided thereafter.

When the second cover is pushed toward the front of the dividing wall such as the locking protrusion, the second cover moves forward through the locking protrusion 54b and is caught by the locking protrusion 54a to extend over the dividing wall, So that it can not be moved backward and is fixed at the corresponding position.

Next, a waterproof packing (P) is placed on the outer periphery of the jaw (10) and a housing (10) is formed on the periphery of the housing ) To the cover frame (20). Further, when the light source uses an LED element, it is preferable to install the waterproof packing (P) because a moisture-proof structure is further required.

As described above, the heat dissipating fin portions 15a and 15b are formed in a radial shape on the outer circumferential surface of the embossed housing such that the heat dissipating fin portions 15a and 15b have a heat dissipating function and are fastened to bolts for fastening electronic components such as ballasts Home function.

That is, in the conventional embedding, when an electronic part such as a ballast is fastened to the housing, a separate hole is formed in the housing and fastened. In this case, other parts such as the PCB plate located on the bottom of the housing may be damaged, requiring prechecking of the hole position for the fastening position, and in some cases, the position is limited.

According to the present invention, in the case of the radiating fins (15a, 15b), two radiating fins are formed adjacent to each other at such an interval that the fastening bolts can be tightened so that the fastening bolts can be fastened .

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, And substitutions are to be construed as falling within the scope of protection of the present invention.

Description of the Related Art [0002]
10: Housing
11: insertion groove 12: groove 13: terminal ball
14: chin 15: heat sink fin
20: Cover frame
30A: cover 35: exposed portion 30B: second cover
40: PCB board
41: through hole 42: fastening hole 43: terminal
50: partition wall 51: insertion part
S: Sensor P: Waterproof packing

Claims

A cover for diffusing light emitted from the light source; and a cover frame covering the outer surface of the cover and coupled with the housing,
Wherein the bottom of the recessed housing is formed with an insertion groove for mounting a dividing wall for dividing the interior of the housing and a through hole is formed in the PCB plate at a position corresponding to the insertion groove position,
The bottom of the embossed housing is formed with a vertical groove perpendicular to the insertion groove so that the position of the fastening hole for fastening the PCB can be adjusted up and down.
An insertion portion for passing through the through hole and inserted into the insertion groove is formed at a rear end of the partition wall,
And a second cover for diffusing light emitted from the light source is provided in front of the dividing wall,
Wherein the cover is formed with an exposed portion for exposing the divided wall and the second cover provided on the divided wall to the outside.

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