KR101300890B1 - LED Fluorescent Lamp with High Heat Radiating And Light Distributing Properties - Google Patents

Abstract

The present invention is a heat sink for mounting the LED module at the bottom; Horizontal lenses disposed on both sides of the heat sink to diffuse and emit a light source toward an upper surface thereof; And it provides an LED fluorescent lamp comprising a fluorescent exterior material for fixing the heat sink to the inner top.

Description

LED Fluorescent Lamp with High Heat Radiating And Light Distributing Properties}

The present invention relates to an LED fluorescent lamp, and more particularly, by mounting horizontal lenses on both sides of the heat sink, the light source reflected from the fluorescent exterior material can be diffused and discharged to the top to diffuse the light source emitted from the LED by 360 °. By storing the inside of the fluorescent exterior material, it is possible to effectively move the high temperature heat generated from the LED to the left and right sides with a dustproof effect, and also to move the high temperature heat to the outside by forming a pipe type heat radiating outlet at the center of the heat sink. It is a LED fluorescent lamp that can be configured to be a passageway to effectively dissipate heat, thereby ensuring a large heat dissipation area even in a small space and reducing the weight.

LED fluorescent lamp in the prior art has a variety of heat dissipation structure is adopted, but the heat sink is mainly exposed to the outside, there is a structural limit that the LED heat sink is diffused and emitted only downward to block all the LED light source moved upward. That is, the LED fluorescent lamp according to the prior art has a structural defect that can be diffused and emitted only in a narrow range of the diffusion angle of about 160 ~ 190 degrees, and a constant amount of light is not distributed in the side portion of the LED heat sink. Furthermore, all of these LED fluorescent lamps have a problem that impurities such as dust can be easily introduced at all times, and thus are vulnerable to dustproofing.

The present invention has been proposed to solve the problems of the prior art as described above, the object is to install a horizontal lens on both sides of the heat sink to diffuse the light source reflected from the fluorescent exterior material to the top to emit light from the LED It can diffuse 360 °, and by storing the heat sink inside the fluorescent exterior material, it is possible to effectively move the high temperature heat generated from the LED to the left and right sides with the dustproof effect, as well as the heat dissipation outlet of the pipe type in the center of the heat sink By forming a high temperature heat to be a passage for moving to the outside to effectively radiate heat by double heat to provide a large fluorescent light emitting area that can secure a large heat dissipation area even though a small space.

The technical problem of the present invention as described above is achieved by the following means.

(1) a heat sink in which the LED module is mounted at the bottom; Horizontal lenses disposed on both sides of the heat sink to diffuse and emit a light source toward an upper surface thereof; And LED fluorescent lamp comprising a fluorescent exterior material for fixing the heat sink to the inner top.

(2) The method according to claim 1,

LED fluorescent lamp characterized in that the heat radiation outlet is formed in the center of the heat sink.

(3) The method according to claim 1,

The fluorescent exterior member has an upper fixing portion for receiving the engaging projection surface formed on the upper end of the heat sink, and an LED fluorescent lamp, characterized in that the recessed portion is inserted into the end of the horizontal lens in the lower portion.

(4) The method according to claim 1,

The heat sink is an LED fluorescent lamp, characterized in that the aluminum material.

(5) The method according to 4,

The heat sink is an LED fluorescent lamp, characterized in that the carbon coating.

(6) The method according to claim 2,

The LED fluorescent lamp is coupled to the end of the heat sink and the heat dissipation discharge connector is formed in the upper portion so that the heat dissipation passage is formed in communication with the pipe-type heat dissipation outlet at the top.

(7) the method of paragraph 6,

An LED fluorescent lamp having a heat dissipation passage in the upper portion and a protective device for covering the connector is attached to the heat dissipation discharge connector.

(8) the method according to any one of items 1 to 7,

The heat sink, the horizontal lens and the fluorescent exterior material is made of a circular, LED fluorescent lamp, characterized in that the heat dissipation discharge connector fixture is coupled to both ends.

(9) a heat dissipation plate mounted with an LED module at the bottom and a heat dissipation outlet formed at the center thereof; Horizontal lenses disposed on both sides of the heat sink to diffuse and emit a light source toward an upper surface thereof; Fluorescent exterior material for fixing the heat sink to the upper inside; A heat dissipation connector coupled to both ends of the heat dissipation plate and having a heat dissipation passage formed at an upper portion thereof so as to communicate heat with the pipe-type heat dissipation outlet; And at least one pair of sockets to which a pin attached to an end of the heat dissipation connector is coupled, and a clasp or a contact pin coupled to an external socket at one end thereof.

(10) The method according to 9,

The connection member is provided with two pairs of sockets to which each of the heat dissipation discharge connector fixtures are coupled so that fluorescent lamps of different radii can be coupled, and the fluorescent lamps having a small radius are coupled to the connection member so as to be rotatable. Round LED fluorescent lamp.

According to the present invention, by mounting horizontal lenses on both sides of the heat sink, the light source reflected from the fluorescent exterior material can be diffused and discharged to the top to spread the light source emitted from the LED by 360 °, and the heat sink is housed inside the fluorescent exterior material to provide a dustproof effect. In addition, it is possible to effectively move the high temperature heat generated from the LED to the left and right sides, as well as to form a heat dissipation outlet in the center of the heat sink to form a passage for moving the high temperature heat to the outside By effectively radiating heat effectively, even though it is a small space, a large heat dissipation area can be secured and the weight of the LED fluorescent lamp can be reduced.

1 and 5 are cross-sectional views of the LED fluorescent lamp excellent in heat emission and light source diffusion according to the present invention.
2 is a specific structural diagram of an exterior material of an LED fluorescent lamp having excellent heat emission and light source diffusion according to the present invention.
Figure 3 is a detailed structural diagram of the heat sink of the LED fluorescent lamp excellent in heat emission and light source diffusion according to the present invention.
4 is a specific structural diagram of a horizontal lens of the LED fluorescent lamp excellent in heat emission and light source diffusion according to the present invention.
6 is a side cross-sectional view of a linear LED fluorescent lamp having a heat sink and a horizontal lens attached therein according to the present invention.
7A and 7B are perspective and side cross-sectional views, respectively, of the heat dissipation discharge connector constituting the LED fluorescent lamp according to the present invention;
8 and 9 is a heat dissipation discharge connector protector constituting the LED fluorescent lamp according to the present invention and a combination state thereof.
10 is an explanatory diagram showing a diffusion pattern of a light source of the LED fluorescent lamp according to the present invention.
Figure 11 shows a first embodiment of a circular LED fluorescent lamp having a heat sink and a horizontal lens attached therein according to the present invention.
12 shows a second embodiment of a circular LED fluorescent lamp having a heat sink and a horizontal lens attached therein according to the present invention.
13A and 13B illustrate a third embodiment of a circular LED fluorescent lamp having a heat sink and a horizontal lens attached therein according to the present invention.
14 is an example of installation of a circular LED fluorescent lamp having a contact pin according to a second embodiment of the present invention.

The present invention is a heat sink for mounting the LED module at the bottom; Horizontal lenses disposed on both sides of the heat sink to diffuse and emit a light source toward an upper surface thereof; And it provides an LED fluorescent lamp comprising a fluorescent exterior material for fixing the heat sink to the inner top.

Hereinafter, the contents of the present invention will be described in more detail.

1 is a cross-sectional view of the LED fluorescent lamp excellent in heat emission and light source diffusion according to the present invention.

The LED fluorescent lamp according to the present invention has a light diffused and the exterior member 20, the coupling protrusion 21 is formed on the upper portion, the horizontal lens 40 formed with at least one lens 40b for diffusing the light source thereon, the bottom The LED module 30 is attached to the 10b, and includes a heat sink 10 for dissipating heat generated from the LED 31 to the outside. Hereinafter, a detailed description of the LED fluorescent lamp according to the configuration will be described with reference to the detailed configuration diagram for each component.

2 is a detailed configuration diagram of the exterior material 20 of the LED fluorescent lamp excellent in heat emission and light source diffusion according to the present invention. In the present invention, the exterior material 20 is preferably a polycarbonate material, a known diffusion material may be added to about 20-25%. The exterior member 20 has an upper fixing part 21 formed on an inner circumferential surface of the upper part, and includes a mounting groove 21b and both end portions 21a to fix the upper end of the heat sink.

3 is a detailed configuration diagram of the heat sink 10 of the LED fluorescent lamp having excellent heat emission and light source diffusion according to the present invention.

The heat dissipation plate 10 has a coupling protrusion surface 10a coupled to the top fixing portion 21 of the exterior material 20 at the same time, dissipating heat to the upper portion, and the recess 10c is provided at the bottom thereof. Formed. In the center, a pipe-type heat dissipation outlet 11 for horizontally moving high-temperature heat generated from the LED 31 and discharging it to the outside is formed. An LED module attaching surface 10b to which an LED module is attached is formed at a lower end of the heat sink 10. The heat sink as described above is made of aluminum, which is light and has excellent heat dissipation efficiency. Preferably, the heat dissipating plate uses carbon coated to minimize heat resistance. Reference numeral 12 is a fixture 12 for fixing the heat radiation discharge connector to be described later. According to the above configuration, the heat of the high temperature emitted from the LED is transferred to the outside through a large amount of heat through the pipe-type heat dissipation outlet 11 in addition to the heat dissipation effect through the heat dissipation plate 10 itself, thereby providing a dual heat dissipation structure. .

4 is a detailed configuration diagram of the horizontal lens 40 of the LED fluorescent lamp having excellent heat emission and light source diffusion according to the present invention.

Horizontal lens 40 has one end (40a) is fixed to the recess 10c of the heat sink is attached to a pair of left and right sides. At least one lens 40b is formed on the surface of the horizontal lens 40, and is disposed on the LED module in a circular arc shape as a whole to diffuse the light source emitted from the LED upwards. The number of such lenses may be adjusted in consideration of the characteristics and quantity of the LEDs, and the angle of the lens may be adjusted to control the movement of the light source. Such horizontal lenses may be made of a polycarbonate material, to which no diffusion material is added.

LED fluorescent lamp according to the present invention having the detailed configuration as described above, as shown in Figure 1 and 5, first, the LED module 30 is attached to the LED heat sink 10, the LED heat sink 10 on top After mounting the horizontal lens 40 to the left and right fixed to the upper fixture 21 of the fluorescent facade material (20). In more detail, this process, the engaging projection surface (10a) formed on the top of the heat sink 10 is inserted into the mounting groove (21b) of the upper fixing portion 21, the top of the LED heat sink (10) The end portion 40a of the horizontal lens 40 is inserted into and fixed to the recess 10c provided at the lower end of the formed engaging projection surface 10a. In addition, each component may be joined by screwing or the like, or any method such as fixing by applying an adhesive such as epoxy may be used. As described above, the left and right pairs of horizontal lenses 40 have one end 40a inserted into the upper recess 10c of the LED heat sink 10 and are disposed on the LED module 30 so that they emerge from the LED 31. The light source is diffused upward through the lens 40b, thereby providing a light source capable of diffusing to 360 °.

6 is a side cross-sectional view of a linear LED fluorescent lamp having a heat sink and a horizontal lens attached therein according to the present invention.

The LED fluorescent lamp 100 of the present invention is coupled to the heat dissipation discharge connector 50 as shown in Figure 7a, 7b at both ends. To this end, the heat dissipation discharge connector 50 has an insertion hole 43 and a horizontal lens end insertion hole 44 at the end of the heat dissipation plate. The heat dissipation discharge connector 50 is in communication with the pipe-type heat dissipation outlet 11 formed in the heat dissipation plate 10, the heat dissipation outlet 41 is formed with the end bent upwards, the power supply screw (or fin) ( 42) is combined. Before coupling the heat dissipation discharge connector 50, the power supply line of the LED module is connected to the power supply screw 42. It is preferable that rubber rings are inserted at both sides of the fluorescent exterior material 20 and the heat dissipation discharge connector 50 so that foreign substances are not inserted.

Preferably, the heat dissipation discharge connector 50 is protected at an end thereof by the heat dissipation discharge connector protector 60 as shown in FIGS. 8 and 9. The heat dissipation outlet 41 formed in the heat dissipation discharge connector 50 is opened by the heat dissipation outlet 61 formed in the protective tool 60. The protective device 60 is made of aluminum and used for surface treatment to prevent corrosion and is attached to the heat dissipation discharge connector 50 using epoxy.

LED fluorescent lamp having excellent heat emission and light source diffusion according to the present invention as described above is a light source emitted from the LED 31 attached to the LED module 30 by the exterior material 20 as shown in FIG. The reflected light is diffused upward through the horizontal lens 40 to diffuse the light source emitted from the LED 31 at 360 °.

Fig. 11 shows a first embodiment of a circular LED fluorescent lamp having a heat sink and a horizontal lens attached therein according to the present invention.

The LED fluorescent lamp 100a according to the first embodiment of the present invention includes a clasp 70 coupled to an external socket, and a heat dissipation discharge connector on a pair of sockets formed at both ends of the connection member 61 attached to the lower end thereof. 50 are combined to attach a circular LED fluorescent lamp.

12 shows a second embodiment of a circular LED fluorescent lamp having a heat sink and a horizontal lens attached therein according to the present invention.

The LED fluorescent lamp 100b according to the second embodiment of the present invention is the same as the structure of the first embodiment except that the contact pin 71 is coupled to the power supply device.

13A and 13B show a third embodiment of a circular LED fluorescent lamp having a heat sink and a horizontal lens attached therein according to the present invention. The LED fluorescent lamp 100c according to the third embodiment of the present invention includes a clasp 70 coupled to an external socket, and a pair of first sockets 62a at both ends of the connection member 61 attached to the lower end thereof. Through the fins of the heat dissipation discharge connector of the first LED fluorescent lamp having a large radius is coupled, and the fins of the heat dissipation emission connector of the second LED fluorescent lamp with a small radius are coupled through a pair of second sockets 62b. . Preferably, the second LED fluorescent lamp having a small radius is configured to be rotatable 360 °. In this case, preferably, the connecting member 61 is used as a first connecting member, and a second connecting member 61a having the pair of second sockets is disposed at a lower end thereof so that the second connecting member is connected to the first connecting member. To be rotatably coupled thereto. According to the above configuration, it is possible to freely provide brightness suited to the surrounding conditions.

Fig. 14 shows an example of installation of a circular LED fluorescent lamp having a contact pin according to a second embodiment of the present invention. The circular LED fluorescent lamp 100b shows a form in which a contact pin is coupled to the power supply 80 to be horizontally attached to the ceiling and the outside of the cover is covered.

As described above, according to the configuration of the present invention, by mounting horizontal lenses on both sides of the heat sink, the light source reflected from the fluorescent exterior material can be diffused and discharged to the top to diffuse the light source emitted from the LED by 360 °, and the heat sink and the horizontal lens It is possible to effectively move the high temperature heat generated from the LED to the left and right sides together with the dustproof effect by storing the inside of the fluorescent exterior material. In addition, by forming a pipe-type heat dissipation outlet at the center of the heat sink, the heat dissipation outlet can be configured to be a passage through which high temperature heat can move to the outside. We offer LED fluorescent lamp

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will be variously modified and modified within the scope of the present invention without departing from the spirit and scope of the present invention described in the claims below. It will be appreciated that it can be changed.

10: LED heat sink
11: Piping type heat dissipation outlet
20: exterior material
30: LED module
31: LED
40: horizontal lens
50: heat dissipation connector
60: heat dissipation connector connector
61: connecting member
70: clasp
71: contact pin

Claims (10)

A heat dissipation plate having an LED module mounted at a lower end thereof, and a heat dissipation outlet formed at a center thereof; Horizontal lenses disposed on both sides of the heat sink to diffuse and emit a light source toward an upper surface thereof; And LED fluorescent lamp comprising a fluorescent exterior material for fixing the heat sink to the inner top. delete The method of claim 1,
The fluorescent exterior member has an upper fixing portion for receiving the engaging projection surface formed on the upper end of the heat sink, and an LED fluorescent lamp, characterized in that the recessed portion is inserted into the end of the horizontal lens in the lower portion. The method of claim 1,
The heat sink is an LED fluorescent lamp, characterized in that the aluminum material. 5. The method of claim 4,
The heat sink is an LED fluorescent lamp, characterized in that the carbon coating. The method of claim 1,
The LED fluorescent lamp is coupled to the end of the heat sink and the heat dissipation discharge connector is formed in the upper portion so that the heat dissipation passage is formed in communication with the pipe-type heat dissipation outlet at the top. The method according to claim 6,
An LED fluorescent lamp having a heat dissipation passage in the upper portion and a protective device for covering the connector is attached to the heat dissipation discharge connector. The method of claim 1,
The heat sink, the horizontal lens and the fluorescent exterior material is made of a circular, LED fluorescent lamp, characterized in that the heat dissipation discharge connector fixture is coupled to both ends. A heat dissipation plate having an LED module mounted at a lower end thereof, and a heat dissipation outlet formed at a center thereof; Horizontal lenses disposed on both sides of the heat sink to diffuse and emit a light source toward an upper surface thereof; Fluorescent exterior material for fixing the heat sink to the upper inside; A heat dissipation connector coupled to both ends of the heat dissipation plate and having a heat dissipation passage formed at an upper portion thereof so as to communicate heat with the pipe-type heat dissipation outlet; And at least one pair of sockets to which a pin attached to an end of the heat dissipation connector is coupled, and a connecting member having a clasp or a contact pin formed at one end thereof and coupled to an external socket. The method of claim 9,
The connection member is provided with two pairs of sockets to which each of the heat dissipation discharge connector fixtures are coupled so that fluorescent lamps of different radii can be coupled, and the fluorescent lamps having a small radius are coupled to the connection member so as to be rotatable. Round LED fluorescent lamp.

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