WO2010050685A2 - Fluorescent lamp type led lighting device with adjustable light emitting direction - Google Patents

Abstract

The present invention relates to a fluorescent lamp type LED lighting device which can freely adjust the joint angle of a lamp casing relative to a terminal member fixed at a structure, and adjust a light emitting direction. To this end, the present invention provides a fluorescent lamp type LED lighting device including a light source unit in which light emitting diodes (LEDs) are mounted on a PCB, said LED lighting device comprising a lamp casing and a terminal member. The lamp casing accommodates the light source unit therein. The terminal member has an outer surface with a terminal which is electrically connected to a power connection unit installed in the structure. The terminal member is coupled to both sides of the lamp casing in such a manner that the terminal member is rotatable relative to the lamp casing to adjust the installation angle of the lamp casing. The lamp casing includes a casing body having a light transmitting cover coupled to a heat-dissipating frame in which a light source unit mounting board is arranged in the lengthwise direction, and a side closing member fixed at both ends of the casing body. The terminal member is coupled to the side closing member fixed at both ends of the lamp casing such that the terminal member is rotatable relative to the lamp casing.

Description

Fluorescent type LED lighting fixture with adjustable irradiation direction

The present invention relates to a fluorescent lamp type LED luminaire capable of adjusting the irradiation direction to freely adjust the combined placement angle and irradiation direction of the lamp casing with respect to the terminal member fixed to the structure.

LED (Light Emitting Diode) is smaller and longer lifespan than the conventional light source, and because the electric energy is directly converted to light energy, it consumes less power and has the advantage of emitting high brightness with excellent energy efficiency.

Therefore, various lighting apparatuses using such LEDs as light sources have been developed, and recently, various kinds of fluorescent lighting type LED lighting apparatuses that can replace existing fluorescent lamps have been disclosed.

In general, a fluorescent lamp type LED lighting fixture is configured by mounting the LED light source unit corresponding to the fluorescent lamp at a predetermined interval on a long length of the PCB, the light source is installed in a heat dissipation frame close to the PCB is installed, the heat dissipation frame is It consists of a part of the lamp casing that is terminally coupled to the fluorescent lamp installation structure.

However, since the light irradiation angle of the LED is narrow, unlike the general fluorescent lamp, the irradiation direction and the irradiation area vary depending on the direction in which the lamp casing is coupled to the structure.

That is, in the case of fluorescent lamps, light is emitted around the entire 360 °, so the direction of irradiation and the area of irradiation are the same regardless of which direction the structure is coupled to. Since the center is concentrated in the 30 ° range, the irradiation area is narrow and the irradiation direction depends on the installation angle of the lamp casing.

Therefore, when the structure is installed on one side of the ceiling or wall, the lamp casing having the LED having the irradiation direction is limited and the irradiation direction as described above needs to adjust the placement angle.

However, the prior art has a problem that the angle adjustment is difficult because the coupling arrangement angle of the lamp casing coupled to the structure through the terminal portion is fixed structurally.

If the arrangement angle of the lamp casing for the structure is to be adjusted, there is a non-productive problem in that the combination placement angle of the terminal portion of the structure and the lamp casing must be manufactured according to desired specifications.

The present invention has been made to solve the above problems,

SUMMARY OF THE INVENTION An object of the present invention is to provide a fluorescent lamp type LED lighting device capable of adjusting the irradiation direction to freely adjust the irradiation direction by easily adjusting the coupling arrangement angle of the lamp casing with respect to the terminal member fixed to the structure.

Fluorescent lamp type LED lighting apparatus that can adjust the irradiation direction according to the present invention to achieve the above object

In the fluorescent lamp type LED lighting device comprising a light source unit that is mounted in the LED (LED: Light Emitting Diode) array,

A lamp casing in which the light source unit is built-in; And

And a terminal member electrically connected to and fixed to a power connection unit installed in the structure to the outside, and the terminal member coupled to both sides of the lamp casing to allow relative rotation for adjusting an arrangement angle of the lamp casing.

The lamp casing is formed of a casing main body and a side finishing member fixed to both side ends of the casing main body and the casing main body in which the light source cover for protecting the light source unit is formed in the heat dissipation frame is formed in the longitudinal direction of the light source unit mounting stage for the light source unit installation

The terminal member is characterized in that coupled to the side rotatable member rotatably formed on both sides of the lamp casing.

Fluorescent lamp type LED lighting apparatus according to the present invention having the above configuration has the advantage that the irradiation direction can be freely adjusted by easily adjusting the coupling arrangement angle of the lamp casing with respect to the terminal member fixed to the structure.

1 is an exploded perspective view showing the configuration of an embodiment according to the present invention

2 is a partially combined perspective view of FIG. 1

3 is a partial cross-sectional view of the combined state of FIG.

4 is an enlarged cross-sectional view taken along the line A-A of FIG.

5 is an enlarged view taken along the line B-B of FIG.

Figure 6 is a side view of one installation state according to the present invention

Figure 7 is a side view of one installation state according to the present invention

8 is a partially omitted configuration of one embodiment according to the present invention

* Explanation of symbols for the main parts of the drawings

1: Fluorescent lamp type LED lighting apparatus capable of adjusting the irradiation direction of the present invention.

1A: Lamp casing 1Aa: Casing body 10: Light source part

11: LED 13: PC 20: Heat dissipation frame

21: light source unit mounting base 30: side cap 40: side finishing member

41: locking portion 412: locking groove 42: partition wall

43: space 45: main body insertion unit 46: angle marker

50: floodlight cover 70: terminal member 71: terminal

73: locking means mounting portion 731: fixing groove 75: coupling fixing part

76: directional marker 2: structure

Hereinafter, with reference to the accompanying drawings, an embodiment of a fluorescent lamp type LED lighting fixture capable of adjusting the irradiation direction of the present invention will be described in more detail.

1 is an exploded perspective view showing the configuration of an embodiment according to the present invention, Figure 2 is a partially combined perspective view of Figure 1, Figure 3 is a partial cross-sectional view of the combined state of Figure 2, Figure 4 is an AA cross-sectional enlarged view of Figure 3, 5 is an enlarged view taken along the line BB of FIG. 3.

As shown in FIGS. 1 to 5, the fluorescent lamp type LED luminaire 1 of which the irradiation direction is adjustable according to an embodiment of the present invention is arranged with an LED (Light Emitting Diode) 11 on the PC 13. In the fluorescent type LED lighting device comprising a light source unit 10 is mounted, the lamp casing (1A) in which the light source unit 10 is installed, and the terminal 71 is electrically coupled to the power supply connection provided in the structure (2) It is formed to include an outer side and the terminal member 70 is coupled to both sides of the lamp casing (1A) to allow relative rotation for adjusting the placement angle of the lamp casing (1A),

The lamp casing (1A) is a casing body in which the light emitting cover 50 for protecting the light source unit 10 is coupled to the heat dissipation frame 20 in which the light source unit mounting table 21 for installing the light source unit 10 is formed in the longitudinal direction. (1Aa) and the side finishing member 40 fixedly coupled to both ends of the casing body (1Aa),

The terminal member 70 is formed to be relatively rotatable to the side finishing member 40 on both sides of the lamp casing 1A.

Here, the side closing member 40 has a locking portion 41 is formed in the cylindrical inner circumferential surface of the engaging groove 412 is formed continuously, the terminal member 70 is an elastic body and the locking groove detachable to the locking groove 412 Preferably, a locking means 77 having one or more protrusions 771 formed thereon is provided.

In addition, the side closure member 40 is formed with a partition wall 42 having a through hole 422 formed in the middle of the interior, the engaging portion 41 is formed outside the partition 42 and the space inside the partition 42 It is preferable that the main body inserting portion 45 is formed to float 43 and the leading end of the casing body 1Aa is inserted.

In this way, the space 43 is raised in the side closing member 40 and the main body inserting portion 45 is formed in the space 43 of the wire in which the movement occurs in accordance with the irradiation direction adjustment rotation of the lamp casing 1A. This is to mount the spare length (see Fig. 3).

In addition, the side closing member 40 is formed on the outer peripheral portion corresponding to the locking portion 41, the angle marker 46 is formed at a set angle interval, the terminal member 70 is the angle alignment reference direction to the outside of the body 72 It is preferable that the mark 76 is formed.

In addition, the side finishing member 40 and the terminal member 70 preferably correspond to each other, the stopper is formed so that the angle adjustment is possible only within the set angle.

In addition, the side finishing member 40 may be formed only in a portion of the inner peripheral surface when the engaging portion 41.

In addition, the side closure member 40 is preferably the frame fastening portion 451 which is fastened by using the screw (S) to the heat radiation frame 20 on one side of the main body inserting portion 45 is preferably formed (see FIGS. 1 and 3). ).

In addition, the locking means 77 is formed by one or more embossing of the locking protrusion (771) formed in the leaf spring body to be curved, the fixed end 772 is formed on both sides, the terminal member 70 is a body ( 72) It is preferable that the locking means mounting portion 73 for protruding the locking means 77 detachably inwardly protrudes and a fastening portion 75 for protruding to the side finishing member 40 in the center thereof protrudes. Do.

The fastening portion 75 has a pair of hooks that are installed to face each other, and is fitted into a through hole 422 formed in the side closing member partition wall 42, and a hook end 751 for preventing separation is formed at the front end thereof.

The locking means 77 is formed to be bent so that an elastic force is applied toward the engaging portion 41 of the side finishing member, and the fixed end 772 is formed by bending both ends of the leaf spring body,

The terminal member 70 forms a space portion 733 in the middle so that the locking means installation portion 73 does not interfere with the variable of the locking means 77 and the fixing groove 731 into which the fixed end 772 is fitted. This is preferably formed.

In addition, the casing body (1Aa) is preferably coupled to the side cap 30, the wire passage 31 is formed before the side closing member 40 is coupled to both ends.

The side cap 30 blocks the front end of the casing body 1Aa to prevent the wire from being exposed to the heat dissipation frame.

On the other hand, the heat dissipation frame 20 is formed with a projection cover coupling portion 22 in the longitudinal direction, and the projection cover 50 is preferably formed in the projection frame 50 protruding in the longitudinal direction on both sides of the curved surface (51). Do.

In addition, the heat dissipation frame 20 has a hanger coupling portion 25 which serves as a heat dissipation fin and a reinforcing rod toward the rear surface of the light source unit mounting stand 21 is formed in the longitudinal direction, and the hanger coupling portion 25 is a tie (T) type hanger. It is preferable that the locking portion (not shown) is formed in a channel shape to be inserted.

The heat dissipation frame 20 may be extruded from aluminum, etc., and irregularities may be formed in a longitudinal direction to increase reinforcement and heat dissipation performance.

In addition, the terminal 71 of the terminal member is formed in various forms, as shown in FIG. 8, the terminal 71 is formed in a two-pin type in which two terminal pins protrude.

The operation state of the fluorescent lamp type LED lighting device 1 capable of adjusting the irradiation direction according to the present invention having the above configuration will be described with reference to FIGS. 6 and 7.

The present invention is largely divided into a lamp casing (1A) in which the light source unit 10 is installed and a terminal member (70) fixed to the structure (2), the lamp casing (1A) with respect to the terminal member 70 adjustment of the placement angle Rotation is configured to be possible.

That is, the terminal member 70 is a fixed body, the lamp casing 1A is a rotatable variable body, and the locking means of the locking means is a spring spring body in the locking groove 412 of the locking portion 41 on both sides of the lamp casing 1A. The fixing state of the lamp casing 1A to the terminal member 70 is maintained unless the protrusion 771 is fitted and no external force is applied.

Then, when the rotational pressure is applied to the lamp casing (1A) is released from the locking groove 412 to which the locking protrusion 771 is coupled by elasticity, the angle adjustment is made to allow the rotation of the lamp casing (1A), and then rotates When the pressure disappears, the locking protrusion 771 is inserted into the opposing engaging groove 412 of the side closing member engaging portion 41 in which the locking protrusion 771 is moved by the elastic return force of the leaf spring locking means 77, and thus the terminal of the lamp casing 1A. The fixing to the member 70 is made.

As such, the angle adjustment of the lamp casing 1A with respect to the terminal member 70 fixed to the structure 2 is easily performed by a simple method of applying a rotational pressure to the lamp casing, for example, the downward irradiation shown in FIG. 6. In the installation state, the adjustment of the irradiation direction switching to the one-side deflection irradiation installation state shown in FIG. 7 is free, and accordingly, the installation environment of the fluorescent lamp type LED lighting fixture is universal.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be apparent to those who have knowledge.

Fluorescent lamp type LED lighting fixture can be adjusted in accordance with the present invention is easy to adjust the combined arrangement angle and irradiation direction of the lamp casing with respect to the terminal member fixed to the structure to increase the versatility for the installation environment of the fluorescent lamp type LED lighting fixture It is expected.

Claims (6)

In the fluorescent lamp type LED lighting device comprising a light source unit 10 formed by mounting an LED (Light Emitting Diode) (11) to the PC 13, A lamp casing 1A in which the light source unit 10 is installed; And The terminal 71 is electrically coupled to the power supply connecting portion installed in the structure 2 is formed to the outside and the terminal is coupled to enable the relative rotation for adjusting the placement angle of the lamp casing (1A) on both sides of the lamp casing (1A) And a member 70; The lamp casing (1A) is a casing body in which the light emitting cover 50 for protecting the light source unit 10 is coupled to the heat dissipation frame 20 in which the light source unit mounting table 21 for installing the light source unit 10 is formed in the longitudinal direction. (1Aa) and the side finishing member 40 fixedly coupled to both ends of the casing body (1Aa), The terminal member (70) is fluorescent lamp type LED lighting fixtures can be adjusted to the irradiation direction, characterized in that the coupling is formed to be relatively rotatable to the side closing member (40) on both sides of the lamp casing (1A). The method according to claim 1, The side closing member 40 is formed with a locking portion 41 is formed with a continuous engaging groove 412 on the cylindrical inner peripheral surface, The terminal member 70 is a fluorescent lamp type LED lighting device that can be adjusted to the irradiation direction, characterized in that the elastic member is provided with a locking means (77) formed with at least one locking protrusion (771) detachable to the engaging groove (412). The method according to claim 2, The side closing member 40 is formed with a partition wall 42 having a through hole 422 formed in the middle of the inside, and a locking portion 41 is formed outside the partition wall 42 and the space 43 inside the partition wall 42. Floating lamp type LED lighting apparatus, characterized in that the body insertion portion 45 is formed to float the insertion and insertion of the casing body (1Aa) is coupled. The method according to claim 2, The locking means 77 is formed by one or more embossing of the locking protrusion 771 in the leaf spring body is formed to be curved, the fixed end 772 is formed on both sides, The terminal member 70 is a locking means installation portion 73 for protruding the locking means 77 is detachably coupled into the body 72 inside the fastening for fastening to the side finishing member 40 in the center Fluorescent lamp type LED lighting fixture that can adjust the irradiation direction, characterized in that the projection portion 75 is formed. The method according to claim 1, The casing body (1Aa) is a fluorescent lamp type LED lighting device capable of adjusting the irradiation direction, characterized in that the side cap 30 is formed with a wire passage 31 is coupled to the front end side side member 40 is coupled to both ends. The method according to claim 1, The terminal 71 is a fluorescent lamp type LED lighting device capable of adjusting the irradiation direction, characterized in that formed in a two-pin type protruding two terminal pins.

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