KR200458784Y1 - Tang district for LED purchase - Google Patents

Tang district for LED purchase Download PDF

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Publication number
KR200458784Y1
KR200458784Y1 KR2020100002267 KR200458784Y1 KR 200458784 Y1 KR200458784 Y1 KR 200458784Y1 KR 2020100002267 KR2020100002267 KR 2020100002267 KR 200458784 Y1 KR200458784 Y1 KR 200458784Y1
Authority
KR
South Korea
Prior art keywords
ceiling
led
part
formed
portion
Prior art date
Application number
KR2020100002267
Other languages
Korean (ko)
Inventor
박창식
전석근
Original Assignee
주식회사 대진디엠피
Filing date
Publication date
Application filed by 주식회사 대진디엠피 filed Critical 주식회사 대진디엠피
Application granted granted Critical
Publication of KR200458784Y1 publication Critical patent/KR200458784Y1/en

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Abstract

The present invention is an invention for an LED light bulbs for improving the ball, which is used to install a number of LEDs, such as a light to focus the light, especially when mounted in the ceiling or wall to expose only the front.
The LED fixture for LED embedded lamp according to the present invention, the insertion portion is inserted into the luminaire by inserting, and the insertion portion is formed on one side of the insertion portion is formed integrally curved and extended while forming a plurality of bent bent.
Therefore, the LED fixture for LED embedded light of the present invention is a structure that can sufficiently support the heavy LED, while being applied irrespective of the thickness of the ceiling, it is a structure that allows the work that was done in the conventional ceiling even outside the ceiling, in particular a single It is an innovative design that is easy to be attached / detached to the luminaire while being mass-produced at low cost because it is a structure.

Description

Tang district for LED purchase lamp {SPRING FOR LED BURIED LIGHT}

The present invention is an invention for an LED light bulbs for the LED embedded light made by improving the ballast used when mounting a large number of LEDs to obtain a light, especially when mounted in the ceiling or wall exposed only the front.

LED embedding uses a semiconductor chip called LED as a lighting medium. Since semiconductors are vulnerable to heat, a structure that can obtain high heat dissipation is essential. Therefore, a built-in fan or a myriad of metal fins are installed. This increases the overall weight of the luminaire.

However, when such a luminaire is buried in a ceiling, for example, it is common to adopt a structure that is mounted from the front (below the ceiling) to the rear side. Should have

As such tan districts, Tan districts used for Utility Model Registration Application No. 2007-6830 and Utility Model Registration Application No. 2007-6831, for example, purchase of LEDs for Utility Model Registration No. 429206 (registered on October 12, 2006). In general, this is briefly described as follows.

As illustrated in FIGS. 4 and 5, the ballistic strip used in the conventional LED embedding light includes a pin 16 bent in a 'c' shape and a coil spring 17 integrally formed with the proximal end of the pin 16. )

Conventional tangerine is made as described above is a coil spring (17) mounted on the ceiling to accommodate the back (2) and free tilting (tilting) is pinned the upper surface of the ceiling when mounted on the ceiling The coil spring 17 is mounted so that the 16 is pressed.

However, the above-described conventional bullet strip is impossible to install when the ceiling is thicker than the distance from the front surface of the luminaire 3 to the position of the coil spring 17, and when the thickness of the ceiling is thin, the coil spring 17 is pinned. By pushing 16, only the engaging portion of the pin 16 comes into contact with the upper surface of the ceiling, so the supporting force is weak and the ceiling may be damaged.

Document 1: Utility Model Registration No. 429206 (registered October 12, 2006) Document 2: Utility Model Registration Application No. 2007-6830 (filed April 25, 2007) Document 3: Utility Model Registration Application No. 2007-6831 (filed April 25, 2007)

In order to solve the above-mentioned problems, LED bullet lights for use in the present invention have been devised to solve them, and an object of the present invention is to provide a bullet strip that sufficiently supports heavy LEDs while being applied regardless of the thickness of the ceiling.

In addition, the LED strip light fixtures of the present invention aims to provide a structure that enables the work (for example, the wiring work, etc.) that was conventionally performed in the ceiling outside the ceiling.

In addition, the LED strip for buying LED light of the present invention is intended to provide a structure that is easy to install / detach the luminaire while being mass-produced inexpensively.

According to a preferred aspect of the present invention for solving the above problems, there is a luminaire having a plurality of insertion grooves having a plurality of ribs having a stopper fixing step in the front is formed in the front and both ends of the opening slightly closed inwardly In the bullet strip for fixing the to the ceiling, the inserting portion is mounted by the force indentation in the insertion groove, and is formed in the center in the opposite direction in which the inserting portion is inserted in the center of the inserting portion is formed to be wide open Characterized in that it comprises a stopper, a plurality of support portions which are bent and extended on one side of the inserting portion several times and integrally formed, and a locking portion bent in a lower direction at the distal end of the plurality of support portions formed integrally. The insert and the stopper are fixed in the insertion groove of the luminaire, The supporting part fixes the luminaire to the perforation of the ceiling by the elastic force while the supporting part of the part corresponding to the thickness length thereof is in contact with the inner circumferential surface of the perforating part of the ceiling according to the thickness of the ceiling. There is provided a bullet hole for the LED embedded lamp which is located above the inner circumferential surface of the perforated part spaced apart from the ceiling.
According to another preferred aspect of the present invention for solving the above problems, in the above-described aspect is characterized in that the reinforcing portion of the "c" shape is formed on both sides of the inserting portion is an LED embedded lamps for ballast Is provided.

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The bullet strip for LED embedded light of the present invention is a structure that can sufficiently support heavy LEDs while being applied regardless of the thickness of the ceiling. It is an innovative design that is easy to attach / detach to a luminaire while being mass produced at low cost.

1 is a configuration diagram of a bullet strip for LED purchase light of the present invention,
Figure 2 is an embodiment of the bullet strip for LED purchase light of the present invention,
Figure 3 is another embodiment of the bullet strip for LED purchase light of the present invention,
Figure 4 is a side view of an embodiment of a conventional tanji,
5 is an exploded perspective view of an exemplary embodiment of a conventional tan earth.

With reference to the above drawings will be described in detail with respect to the LED strip (1) for LED purchase light of the present invention.

The LED strip for LED purchase light 1 of the present invention is made in one whole, and can be divided into the inserting portion 11 and the support portion 12 by function, and will be described below by dividing each part.

When explaining the LED fixture 1 for the embedded LED lamp according to the present invention with reference to Figs. 1 to 3, the inserting portion 11 is inserted into the insertion groove 31 formed in the luminaire 3 by press-fitting As a part, a stopper 13 formed so as to be inclined at an opposite side to the direction in which the inserting portion 11 is inserted is formed at the center of the inserting portion 11 by, for example, piercing with a punch. The stopper 13 may provide a support force to the tangear 1 even if the inserting portion 11 is thinner than the thickness (width) of the inserting groove 31 formed in the luminaire 3, specifically, the inserting portion. Since the thickness of the insert 11 is formed to be thinner than the thickness (width) of the inserting groove 31, the inserting portion 11 is easily inserted into the inserting groove 31, and the stopper 13 has the inserting portion ( 11) are inclined to the opposite side of the direction of insertion (see the arrow in Fig. 2) To become as not interfere with the insertion direction in which the deviation is not on the side opposite to the insertion (FIG opposite direction of the arrow in 2) form the engagement is firmly supported in the insert the burnt earth (1) chakhom 31.
On the other hand, as shown, the insertion groove 31 has a plurality of ribs 32 having an opening (not shown) for fixing the stopper 13 in the front end therein is formed with the opening slightly closed inwardly at both ends. ) Is formed and such fixing structures are known in the art.
The insertion groove 31 of the luminaire 3 is made of resin or soft metal, so that the inserting portion 11 of the carbon support 1 is easily inserted by press-fitting. The separation is prevented, and the bullet strip 1 is firmly held by the elastic force of the bullet strip 1 itself.

In addition, the support portion 12 is a plurality of integrally formed portions that are bent and extended several times on one side of the inserting portion 11, which is not bent smoothly but is bent and bent several times to form an angle. When the part is in contact with the edge (inner circumferential surface) of the upper perforated part of the ceiling 4, the luminaire 3 is supported on the ceiling 4 by its elastic force, and the plurality of bent parts having such multiple bent angles are bent. The luminaire 3 is opened by elastic force in a state in which the supporting portion 12 of the portion corresponding to its length is brought into contact with the inner circumferential surface of the perforated portion of the ceiling 4 according to the thickness of the ceiling 4 by the supporting portion 12 integrally formed. It is fixed to the perforated part of the ceiling 4 (by pressing in the direction of the arrow in Fig. 3 to push the abutment to the ceiling fixed), wherein the rest of the outer portion of the support 12 is above the inner peripheral surface of the perforated part of the ceiling 4 Ceiling (4) Apart from each other from is positioned.

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In addition, the LED strip for LED embedded lamp 1 of the present invention is slightly bent inward both sides of the inserting portion 11 to form a "b" shaped reinforcement portion 14, such a reinforcement portion 14 The thickness of the inserting portion 11 can be effectively prevented even if the breakage and deterioration of the support force is formed, so that it is possible to increase the durability while saving the material cost, the "c" shaped reinforcement portion 14 also It is inserted into the insertion groove 31.

In addition, in the LED strip 1 for LED embedding lamp of the present invention, the engaging portion 15 bent in the lower direction is formed at the end of the supporting portion 12, the engaging portion 15 is the ceiling (4) Since the lamp 2 and the lamp 3 are supported in the state of being hung outside the perforated inner circumferential surface of the lamp, the wiring work, which was conventionally performed in the ceiling 4, can be performed outside the ceiling 4, thereby significantly improving work convenience. You can increase it.

In the above description of the embodiments of the present invention with reference to the accompanying drawings, but described with respect to the LED strip for LED embedded light having a specific shape and structure, the present invention is capable of various modifications and changes by those skilled in the art, such variations and Changes should be construed as falling within the protection scope of the present invention.

1. Tan District
11. Insertion part 12. Supporting part 13. Stopper 14. Reinforcing part 15. Hanging part 16. Pin 17. Coil spring
2. Light (LED light)
3. Luminaire
31. Insertion groove 32. Rib
4. ceiling

Claims (4)

  1. The luminaire 3 having a plurality of inserting grooves 31 having a plurality of ribs 32 having a stopper 13 fixing step therein is formed in the front of the ceiling (2). In the bullet strip for fixing to 4),
    The insertion part 11 mounted by the forced insertion in the insertion groove 31 and positioned in the center of the insertion part 11 and inclined in the opposite direction in which the insertion part 11 is inserted are opened. A stopper 13 which is formed in a fork, a plurality of support portions 12 which are bent and extended on one side of the inserting portion 11 and are integrally formed, and end portions of the plurality of support portions 12 formed integrally. And characterized in that consisting of the engaging portion 15 is formed to be bent in the lower direction:
    The inserting portion 11 and the stopper 13 are fixed in the insertion groove 31 of the luminaire 3, while the plurality of support portions 12 have a thickness length according to the thickness of the ceiling 4. The support part 12 of the corresponding part is fixed to the perforation part of the ceiling 4 by the elastic force in the state which contact | abuts the inner peripheral surface of the perforation part of the ceiling 4, At this time, the outer side of the support part 12 The remaining portion is a bullet strip for LED embedded lamps which are spaced apart from the ceiling (4) above the inner peripheral surface of the perforated portion of the ceiling (4).
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  3. According to claim 1, wherein the inserting portion (11) on the both sides of the "B" shaped reinforcement portion 14 is characterized in that the LED fixtures for LED embedded lamps.
  4. delete
KR2020100002267 2010-03-05 Tang district for LED purchase KR200458784Y1 (en)

Publications (1)

Publication Number Publication Date
KR200458784Y1 true KR200458784Y1 (en) 2012-03-09

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Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR200429206Y1 (en) * 2006-08-04 2006-10-18 주식회사 대진디엠피 Buried Light using by LED

Patent Citations (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR200429206Y1 (en) * 2006-08-04 2006-10-18 주식회사 대진디엠피 Buried Light using by LED

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