KR20180043877A - Electrical connection structure of light emitting module - Google Patents

Abstract

The present disclosure relates to an electric connection structure of a light emitting device module having the light emitting device module. The electric connection structure of the light emitting device module comprises: a first connector provided in the light emitting device module; a second connector coupled to the first connector; and a rod for pressing the second connector to be coupled to the first connector.

Description

TECHNICAL FIELD [0001] The present invention relates to an electrical connection structure of a light emitting device module,

Disclosure relates to an electrical connection structure of a light emitting device module as a whole, and more particularly to an electrical connection structure of a light emitting device module having a connector for facilitating electrical connection. Here, the light emitting device includes a semiconductor light emitting device and an OLED, and the semiconductor light emitting device includes a light emitting diode (LED), a laser diode (LD), and a phosphor combined with the light emitting diode.

Herein, the background art relating to the present disclosure is provided, and these are not necessarily meant to be known arts.

1 to 3 are views showing an example of a light emitting device module assembly disclosed in U.S. Patent No. 8,764,220. As shown in FIG. 1, a light emitting device module assembly 100 includes a plurality of light emitting device modules 105A, 105B (e.g., LED modules) and a connector 125 for connecting them. Each light emitting element module 105A and 105B includes a substrate 115 on which the light emitting element 110 (e.g., an LED) and the light emitting element 110 are placed and preferably includes a support 140 (e.g., a heat sink) do. One or more light emitting devices 110 may be provided, and a plurality of light emitting devices 110 are generally provided. It goes without saying that the substrate 115 and the support 140 may be integrally formed. FIG. 2 shows an example of a connector, and the light emitting element module 105a has a pin type connector 125 at one end thereof. 3, the light emitting element module 105C includes a connector 125 and a receptacle 126, and the receptacle 126 is coupled to the connector of another light emitting module. The connector 125 and the receptacle 126 function to electrically and / or mechanically couple a plurality of light emitting device modules. However, in the case of using this type of connector 125 and the receptacle 126, wear and / or deformation may occur in the course of desorption, resulting in problems in their electrical connection .

This will be described later in the Specification for Implementation of the Invention.

SUMMARY OF THE INVENTION Herein, a general summary of the present disclosure is provided, which should not be construed as limiting the scope of the present disclosure. of its features).

According to an aspect of the present disclosure, in an electrical connection structure of a light emitting device module having a light emitting device module, a first connector included in the light emitting device module; A second connection part for coupling with the first connection part; And a rod that presses the second connection portion to be coupled with the first connection portion. The electrical connection structure of the light emitting device module is provided.

This will be described later in the Specification for Implementation of the Invention.

1 to 3 are views showing an example of a light emitting device module assembly disclosed in U.S. Patent No. 8,764,220,
4 is a view showing an example of an electrical connection structure of a light emitting device module according to the present disclosure,
5 to 7 are views for explaining a method of operating the electrical connection structure of the light emitting device module according to the present disclosure,
8 is a view showing an example of a light emitting module according to the present disclosure;

4 is a view showing an example of the electrical connection structure of the light emitting element module according to the present disclosure, in which the electrical connection structure 1 of the light emitting element module includes a first connecting portion 10 (connector) and a second connecting portion 20 do. The first connection part 10 is provided in the light emitting module 30 and the second connection part 20 is directly connected to the electric wire 40. The second connection unit 20 may form a part of another light emitting module and the second connection unit 20 may have a hub form coupled with the plurality of light emitting modules instead of being directly connected to the electric wire and the light emitting module have.

The light emitting module 30 includes a substrate 115 on which the light emitting device 110 (e.g., LED), the light emitting device 110, and preferably a support 140 (e.g., a heat sink) .

The first connection portion 10 is provided on one side or one side of the light emitting module 30 and includes a pin or connection terminal 11 for electrical contact. The number of pins 11 may vary depending on the manner of electrical connection and / or the stability of the electrical connection. For example, when electricity is supplied to the light emitting module 30, two pins are required, When connected in series with the module, one pin may be sufficient and four pins may be provided to secure a reliable electrical connection. In the example shown in Fig. 4, the first connecting portion 10 has the housing 13, and the pin 11 is provided in the receiving groove 12 formed by the housing 13. The housing 13 also serves to fix the second connection part 20 when the second connection part 20 is positioned in the receiving groove 12. The pin 11 is an electrical contact terminal, and is not particularly limited as long as electrical contact is possible.

The second connection portion 20 includes a pin or connection terminal 21 that is in electrical and / or mechanical contact with the first connection portion 10 and is in contact with the first connection portion 10. Preferably, at least a pair of pins 21 are provided and can be securely fixed in the housing 13 when pressed by a rod 50, which will be described later. In the example shown in Fig. 4, the pair of fins 21 are exposed to be engaged with the first connection portion 10, and are opposed to each other. The rod 50 can be moved using the handle 52.

The rod 50 urges the second connecting portion 20 in the state of facing the first connecting portion 10, and ensures the electrical and / or mechanical coupling thereof.

5 to 7 are views for explaining the operation of the electrical connection structure of the light emitting device module according to the present disclosure. FIG. 5 shows a state in which the second connecting portion 20 is housed in the first connecting portion 10 , And the direction in which the second connecting portion 20 is placed with respect to the first connecting portion 10 is defined as the longitudinal direction V. [ 6 shows a state in which the rod 50 is moved into the receiving groove 12 and a direction in which the rod 50 moves in the direction from the first connecting portion 10 to the second connecting portion 20 is shown in Fig. Is defined as a lateral direction (H). 7 shows an example of the operating relationship between the rod 50 and the second connecting part 20. The rod 50 is moved to be inserted between the pair of pins 21 ), And presses them on both sides (first connecting portion 10 (not shown)). If desired, the end of the rod 50 may be provided with an extended end 51 to ensure pressurization. It goes without saying that the extended end 51 may be provided in the middle of the rod 50. 4 to 7, the pin 11 is provided inside the pin 21 and the rod 50 presses the pin 21. However, when the pin 11 is in contact with the pin 21 The rod 50 may be provided on the side of the first connection part 10 or the second connection part 20 corresponding to this form. So that the pin 11 or the pin 21 can be pressed.

4, the width of the receiving groove 12 is designed to be larger than the width of the pair of pins to the connecting terminal 21, so that the second connecting portion 20 moves in the longitudinal direction V, The pin 11 and the pin 21 are not rubbed against each other and their contact is made through the rod 50 so that the wear and tear between the first connection 10 and the second connection 20 The first and second connecting portions 10 and 20 move in the longitudinal direction V and contact each other when they face each other. In this case, And reliable physical and electrical contact between them allows the rod 50 to move in the transverse direction H so that the first and second connections 10 and 20 The fins 11 and 21 are generally made of metal, and the fins 11 and 21 are made of metal, The housing 13 of the side 13a on which the rod 50 is located is opened and the opposite side 13b of the housing 13 is opened, It is possible to prevent the second connection portion 20 from being pushed out in the direction in which the second connection portion 20 is pressed from the first connection portion 10 when the rod 50 moves in the transverse direction H. [ When the housing 13 serves as a case or a housing of the entire light emitting module 30, the opening of the housing 13 is such that the receiving groove 12 on the side on which the rod 50 is positioned is connected to the rod 50, Is open to allow insertion.

8 is a diagram showing an example of a light emitting module according to the present disclosure. The light emitting module 30 includes a substrate 115 on which the light emitting device 100 and the light emitting device 100 are placed. The housing 13 of the first connecting portion 10 (see FIG. 4) is designed to function as a case or a housing of the entire light emitting module 30 so that the rod 50 (see FIG. 4) The first connection portion 10 may be configured as a part of the light emitting module 30 below the substrate 115 and therefore the connection portion 12 (see FIG. 4) may be provided below the substrate 115, 10, and an electrical connection with the substrate 115 can be facilitated.

Various embodiments of the present disclosure will be described below.

(1) An electrical connection structure of a light emitting device module having a light emitting device module, comprising: a first connector provided in the light emitting device module; A second connection part for coupling with the first connection part; And a rod that presses the second connection portion to be coupled with the first connection portion. Here, the rod may be constituted such that the second connecting portion presses the first connecting portion and is engaged with the first connecting portion, and the second connecting portion presses the second connecting portion so that the second connecting portion is engaged with the first connecting portion.

(2) The electrical connection structure of the light emitting element module housed in the second connecting portion inside the first connecting portion.

(3) The second connection portion includes a pair of connection terminals, and the rod is moved to be inserted between the pair of connection terminals to press the pair of connection terminals to the first connection portion.

(4) The electrical connection structure of the light emitting element module, wherein the first connecting portion includes a pair of connecting terminals corresponding to a pair of connecting terminals of the second connecting portion.

(5) The electrical connection structure of the light emitting device module, wherein the rod is moved in the lateral direction to press the second connection portion to the first connection portion, when the direction in which the second connection portion is placed with respect to the first connection portion is the longitudinal direction. Here, pressurization refers to a pressed state or a result, and thus includes a state (state) in which the rod pushes the first connection portion toward the second connection portion, and a state (state) in which the second contact portion is pressed toward the first connection portion .

(6) The first connection part includes a housing and at least one connection terminal provided in the housing.

(7) The electrical connection structure of the light emitting device module, wherein the second connection portion is exposed to be coupled to the first connection portion and is opposed to each other.

(8) When the direction of movement of the second connecting portion to the housing is referred to as the longitudinal direction, the rod is moved in the lateral direction to press the second connecting portion to the first connecting portion Electrical connection structure. Preferably, the housing on the opposite side to which the rod is inserted into the housing is clogged to prevent the second connecting portion from being moved in the lateral direction.

(9) The electrical connection structure of the light emitting device module included in the first light emitting module.

(10) The light emitting module includes a light emitting element and a substrate on which the light emitting element is placed, and the first connecting portion is located below the substrate.

The first connecting portion 10, the second connecting portion 20, the light emitting module 30, the electric wire 40,

Claims (11)

In the electrical connection structure of the light emitting device module having the light emitting device module,
A first connector included in the light emitting device module;
A second connection part for coupling with the first connection part; And
And a rod that presses the second connection portion to be coupled with the first connection portion. The method according to claim 1,
And the second connection portion is housed inside the first connection portion. The method according to claim 1,
The second connection portion includes a pair of connection terminals,
And the rod is moved so as to be inserted between the pair of connection terminals to press the pair of connection terminals to the first connection portion. The method of claim 3,
And the first connection portion includes a pair of connection terminals corresponding to a pair of connection terminals of the second connection portion. The method according to claim 1,
When the direction in which the second connecting portion is placed with respect to the first connecting portion is referred to as the longitudinal direction,
And the rod is moved in the lateral direction to press the second connection portion to the first connection portion. The method according to claim 1,
The first connection part includes a housing and at least one connection terminal provided in the housing. The method according to claim 1,
And the second connection portion is exposed to be coupled to the first connection portion, and the pair of connection terminals are opposed to each other. The method according to claim 1,
The first connection part includes a housing,
And the rod is moved in the lateral direction to press the second connection portion to the first connection portion when the direction in which the second connection portion moves to the housing is referred to as the longitudinal direction. The method of claim 8,
And the second connection portion is exposed to be coupled to the first connection portion, and the pair of connection terminals are opposed to each other. The method of claim 9,
The load is an electrical connection structure of the light emitting device module included in the first light emitting module. The method according to claim 1,
The light emitting module includes a light emitting element and a substrate on which the light emitting element is placed,
And the first connection portion is located at a lower portion of the substrate.

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