KR20140029577A - Led cooling device of air inflow type from side and bottom, and led lighting lamp thereby - Google Patents

Abstract

The present invention relates to an LED cooling device of side and bottom air inflow type and an LED lighting using the same. The LED cooling device comprises an LED lighting mounting unit (20) in which an LED light source unit (10) made of multiple LED elements is mounted on the bottom surface; multiple heat pipes (30) whose one end is thermally in contact with the upper surface of the LED lighting mounting unit (20) and the other end is bent to cross the upper surface of the LED lighting mounting unit (20) at right angles, and which radiate high temperature heat generated in the LED light source unit (10); and multiple heat radiation plates (40) which form a heat pipe hole (41) to correspond to the heat pipe (30), promote heat radiation by being fitted into the outer circumference surface of the heat pipe (30), and are installed to be vertically integrated with the heat pipe (30). The heat radiation plate (40) forms a convection current hole (42) on the center. Multiple internal heat radiation fins (43) and multiple external heat radiation fins (44) are formed on the inner and outer sides of the heat radiation plate (40). The multiple internal and external radiation fins are twisted to cross the upper surface of the LED lighting mounting unit (20) at right angles, thereby forming an upward air channel. Air which flows from the side and bottom passes through the air channel and the convection current hole (42) and easily moves to the upper side, thereby promoting natural convection. According to the LED cooling device of side and bottom air inflow type having excellent heat radiation performance which is suggested by the present invention, the air which flows from the side and bottom passes through the air channel and the convection current hole and easily moves to the upper side. Therefore, the natural convection is promoted and an effect in which heat radiation performance is improved is obtained.

Description

LED cooling device of air inflow type from side and bottom, and LED lighting lamp

The present invention is a side and bottom air inflow type LED cooling device and LED lighting using the same, in particular, the air flowing from the side and the bottom through the air channel and the convection hole to easily move to the top to improve the heat dissipation performance by natural convection It relates to a side and bottom air inflow type LED cooling device having excellent heat dissipation performance and an LED lamp using the same.

LED (Light Emitting Diode) is expected to be able to replace existing light sources as next-generation eco-friendly light source because it has high light efficiency, long life and does not use environmentally harmful materials. It is known that more than 80% of the power supplied to the LED light is converted into thermal energy, and the increase in temperature causes the light output to fall and the wavelength shift, and the life span is drastically reduced.

Heat pipe technology injects a working fluid into a sealed container and transfers it by latent heat by evaporating it at a low temperature when vacuumed, so that the cooling effect can be increased even with a small temperature difference by minimizing the heat resistance generated in heat exchange. It is also used in various cooling technologies and LED lighting.

In addition, since the heat transfer surface where the high temperature heat and the low temperature fluid is in contact with the outside of the pipe can be used to attach a fan to cool by forced convection to increase the cooling performance.

However, when a fan for forced convection is installed in the LED light, the size of the light is increased, power is consumed for operating the fan, and noise occurs in the fan.

As such, there is an urgent need to develop a cooling device for LED lighting having excellent heat dissipation performance while using heat pipe technology and using natural convection instead of forced convection.

The present invention has been made to solve the above problems, an object of the present invention is to provide a heat pipe and a heat sink having an upward air channel and convection holes to promote natural convection, excellent side and bottom heat dissipation performance To provide an air inlet LED cooling device and LED lighting using the same.

Other objects and advantages of the invention will be described below and will be appreciated by the embodiments of the invention. Further, objects and advantages of the present invention can be realized by the means and the combination shown in the claims.

The present invention as a means for solving the above problems, in the side and bottom air inflow type LED cooling device and LED lighting using the same, the LED light source unit 10 is formed of a plurality of LED elements on the bottom surface is equipped with LED lighting mounting portion 20; One end is in thermal contact with the top surface of the LED light mounting portion 20 and the other end is bent and installed to be orthogonal to the top surface of the LED light mounting portion 20 to dissipate the high heat generated in the LED light source 10 A plurality of heat pipes 30; The heat pipe hole 41 is formed to correspond to the heat pipe 30 to be fitted to the outer periphery of the heat pipe 30 to promote heat dissipation, and a plurality of vertically stacked with the heat pipe 30 Heat sink 40; The heat dissipation plate 40 includes a convection hole 42 formed at the center thereof, and a plurality of inner heat dissipation fins 43 and a plurality of outer heat dissipation fins 44 are formed at the inside and the outside of the heat dissipation plate 40. An upward air channel is formed by twisting orthogonal to the top surface of the lighting mounting portion 20, and the air introduced from the side and the bottom easily moves through the air channel and the convection hole 42 to move upward. It is characterized by promoting.

As described above, the present invention includes a heat pipe having a heat pipe and an upstream air channel and a convection hole, so that air introduced from the side and the bottom is easily moved upward through the air channel and the convection hole. By promoting the effect of improving the heat dissipation performance.

1 is a perspective view of one embodiment showing a side and bottom air inflow LED cooling device according to the present invention.
Figure 2 is a perspective view of one embodiment showing the side and bottom air inflow LED cooling device according to the present invention.
Figure 3 is a side view of one embodiment showing the side and bottom air inflow LED cooling device according to the present invention.
Figure 4 is a plan view of one embodiment showing the side and bottom air inflow LED cooling device according to the present invention.
Figure 5 is an embodiment of the embodiment showing a method of forming a heat sink according to the side and bottom air inflow LED cooling apparatus according to the present invention.
Figure 6 is a side view of an embodiment showing a side air inlet LED lamp using the side and bottom air inlet LED cooling apparatus according to the present invention.
Figure 7 is a perspective view of an embodiment showing a side air inlet LED lamp using the side and bottom air inlet LED cooling apparatus according to the present invention.
Figure 8 is a side view of an embodiment showing a bottom air inflow LED lamp using the side and bottom air inflow LED cooling device according to the present invention.
Figure 9 is a perspective view of an embodiment showing a bottom air inflow LED lamp using the side and bottom air inflow LED cooling device according to the present invention.

Before describing in detail several embodiments of the invention, it will be appreciated that the application is not limited to the details of construction and arrangement of components set forth in the following detailed description or illustrated in the drawings. The present invention may be embodied and practiced in various embodiments and carried out in various ways. It should also be noted that the device or element orientation (e.g., "front,""back,""up,""down,""top,""bottom, Expressions and predicates used herein for terms such as "left,"" right, "" lateral, " and the like are used merely to simplify the description of the present invention, Or that the element has to have a particular orientation. It is also to be understood that the terms such as " first, "second," third, " and "third" are used herein for purposes of illustration and appended claims, It is not intended.

The present invention has the following features in order to achieve the above object.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the specification and the drawings shown in the drawings are only the most preferred embodiment of the present invention and do not represent all of the technical idea of the present invention, various modifications that can be replaced at the time of the present application It should be understood that there may be equivalents and variations.

To this end, according to an embodiment of the present invention,

In the side and bottom air inlet LED chiller,

An LED light mounting unit 20 equipped with an LED light source unit 10 formed on a lower surface of the plurality of LED elements; One end is in thermal contact with the top surface of the LED light mounting portion 20 and the other end is bent and installed to be orthogonal to the top surface of the LED light mounting portion 20 to dissipate the high heat generated in the LED light source 10 A plurality of heat pipes 30; The heat pipe hole 41 is formed to correspond to the heat pipe 30 to be fitted to the outer periphery of the heat pipe 30 to promote heat dissipation, and a plurality of vertically stacked with the heat pipe 30 Heat sink 40; The heat dissipation plate 40 includes a convection hole 42 formed at the center thereof, and a plurality of inner heat dissipation fins 43 and a plurality of outer heat dissipation fins 44 are formed at the inside and the outside of the heat dissipation plate 40. An upward air channel is formed by twisting orthogonal to the top surface of the lighting mounting portion 20, and the air introduced from the side and the bottom easily moves through the air channel and the convection hole 42 to move upward. It is characterized by promoting.

In addition, in the side air inflow LED lamp, the LED light mounting portion 20 is equipped with an LED light source unit 10 formed of a plurality of LED elements on the bottom surface, one end is attached to the upper surface of the LED light mounting portion 20 A plurality of heat pipes 30 and heat pipes 30 which are thermally contacted and the other end is bent and orthogonal to an upper end surface of the LED light mounting part 20 to dissipate high heat generated from the LED light source part 10. Heat pipe holes 41 are formed to correspond to the plurality of heat pipes 40 to be coupled to the outer circumference of the heat pipe 30 to promote heat dissipation, and a plurality of heat dissipation plates 40 are stacked and installed vertically with the heat pipe 30. The heat dissipation plate 40 has a convection hole 42 formed at the center thereof, and a plurality of inner heat dissipation fins 43 and a plurality of outer heat dissipation fins 44 are formed at the inside and the outside of the heat dissipation plate 40, respectively. Upward ball twisted to be orthogonal to the top surface of 20 Side and bottom air inlet type LED cooling device (100) to facilitate the natural convection by the air channel is formed so that the air introduced from the side and the bottom is easily moved upward through the air channel and the convection hole (42); A dome-shaped case 50 having the side and bottom air inflow LED cooling devices 100 provided in an inner space, and having a lower portion opened; Inserted into the inner space of the case 50 is installed, the lower end is coupled to the open lower outer periphery of the case 50, the upper end is installed in the LED light mounting portion 20, in the LED light source unit 10 A reflector plate 60 having a narrow light beam shape for controlling a path of light generated; It includes, the case 50 is formed by circulating the air discharge hole 51 is discharged heated air on the top of the outer circumferential surface, the side air inlet hole 52 is formed to circumscribe the outer air in the lower peripheral surface Then, the air introduced from the side through the side air inlet 52 is characterized in that it facilitates natural convection by passing easily through the air outlet hole 51 to the top.

In addition, the LED light mounting portion 20 equipped with an LED light source unit 10 formed of a plurality of LED elements on the bottom surface, one end is in thermal contact with the top surface of the LED light mounting portion 20 and the other end is the LED A plurality of heat pipes 30, which are bent and orthogonal to the top surface of the lighting mounting part 20 to dissipate high heat generated by the LED light source unit 10, correspond to the heat pipes 30. ) Is formed and fitted to the outer periphery of the heat pipe 30 to facilitate heat dissipation, and includes a plurality of heat dissipation plates 40 stacked vertically with the heat pipe 30 and provided with the heat dissipation plate 40. The convection hole 42 is formed at the center thereof, and a plurality of inner heat dissipation fins 43 and a plurality of outer heat dissipation fins 44 are formed on the inner and outer sides of the heat dissipation plate 40, and are orthogonal to the top surfaces of the LED lighting units 20. Twisted to form an upward air channel, Rimmed air to the air channel and the air inflow side and a lower cooling type LED to pass through the convection hole 42 facilitate the natural convection by easily moved to the upper device (100); A dome-shaped case 70 having the side and bottom air inflow LED cooling devices 100 provided in an inner space and having a lower portion opened; Is installed in the lower portion of the case 70, the lower outer periphery and the upper end of the case 70 is connected in a flat, the upper end is installed in the LED lighting mounting portion 20, generated in the LED light source unit 10 A reflector plate 80 having a shape of upper and lower beams for controlling a light path to be formed; It includes, the case 70 is formed by circulating the air discharge hole 71 for discharging the heated air on the top of the outer circumferential surface, the outside air is in a plane connected to the case 70 and the reflector plate 80 The lower air inlet hole 72 is formed to be circumferentially formed, so that air introduced from the lower part through the lower air inlet hole 72 easily moves upward through the air outlet hole 71, thereby increasing natural convection. It is characterized by promoting.

Hereinafter, with reference to FIGS. 1 to 9 will be described in detail the side and bottom air inflow type LED cooling apparatus and LED lighting using the same according to a preferred embodiment of the present invention.

The present invention relates to a side and bottom air inflow type LED cooling apparatus, and includes an LED lighting unit 20, a heat pipe 30, and a heat sink 40.

The LED lighting mounting unit 20 is mounted to the LED light source unit 10 formed of a plurality of LED elements on the bottom surface. The LED light source unit 10 has a plurality of LED elements can be disposed directly on the bottom surface of the LED light mounting portion 20, LED light source unit 10 is a combination of a plurality of LED elements is the LED light mounting portion 20 is the bottom Can be mounted on a face.

The heat pipe 30 is installed in thermal contact with the top surface of the LED lighting mounting portion 20 to transfer the high heat generated in the LED light source unit 10 to the heat sink (40). The heat pipe 30 transfers heat between the both ends of the vessel through a phase change process between the working fluid in the sealed container and the gas-liquid continuously. The plurality of heat dissipating parts 31 of the heat pipes 30 are disposed on the top surface of the LED lighting mounting part 20, thereby rapidly dissipating high heat generated in the LED light source part 10.

The heat sink 40 has a heat pipe hole 41 formed to correspond to the heat pipe 30 is fitted to the outer periphery of the heat pipe 30 to promote heat dissipation, but vertically with the heat pipe 30 Laminated and installed. In addition, the heat sink 40 may be configured in the shape of a round, square, pentagonal or the like. The plurality of heat sinks 40 are fitted to be spaced apart from the outer circumference of the heat pipe 30 to shorten the process of changing the gas-liquid in the phase change process of the heat pipe to promote heat dissipation to the LED light source unit 10 Heat can be dissipated quickly.

In addition, the heat dissipation plate 40 has a convection hole 42 formed at the center thereof, and a plurality of inner heat dissipation fins 43 and a plurality of outer heat dissipation fins 44 are formed at the inside and the outside of the heat dissipation plate 40, and the LED lighting mounting portion The upper air channel is twisted to be orthogonal to the upper surface of the 20 so that the air introduced from the side and the lower portion easily moves upward through the air channel and the convection hole 42 to promote natural convection. . That is, the heat dissipation fins 43 and 44 are installed vertically, and the convection hole 42 is formed in the center of the heat dissipation plate 40, so that upward flow of air is made easier than the heat dissipation plate installed horizontally. Since the exchange is performed smoothly, the efficiency deterioration due to the high heat generated in the LED light source unit 10 may be minimized.

The present invention relates to a side air inlet LED lamp using the side and bottom air inlet LED cooling device, and includes a case 50 and a reflector plate 60.

The case 50 is provided with a side and a lower air inflow type LED cooling device in the inner space, and is formed in a dome shape so that the lower part is opened. The case 50 formed in a dome shape can be installed to be inserted into the side and the lower air inflow type LED cooling device to prevent from being seen from the outside to improve the commerciality of the LED lamp. In addition, the case 50 of the dome shape serves to collect the light emitted from the LED light source unit 10 to adjust the illumination of the illumination and collect the light to create a cozy atmosphere. In addition, the side and bottom air inflow type LED cooling device is installed in the interior space to improve the heat dissipation performance by the configuration to facilitate the up-draft and natural convection heat dissipation.

In addition, the case 50 is formed by circulating the air discharge hole 51 through which the heated air is discharged at the upper end of the outer circumference, and is formed by circulating the side air inlet hole 52 through which the outside air is introduced at the lower end of the outer circumference, Air introduced from the side through the side air inlet 52 is easily moved upward through the air outlet 51 to promote natural convection. Due to the case 50, the heat remaining in the inside of the case 50 is formed on the side of the air inlet 52 and the air outlet 51 in the upper portion so as to be discharged to the outside of the case 50. do. It is a structure that facilitates heat exchange by natural convection, so that the rising temperature caused by light can be multi-dispersed quickly to the ambient temperature, and the performance of the light source device can be improved and the life can be extended. It can solve large size, noise problem, power supply problem.

The reflecting plate 60 is inserted into the inner space of the case 50 is installed, the lower end is coupled to the open lower outer periphery of the case 50, the upper end is installed on the LED light mounting portion 20, The light path to control the light path generated from the LED light source 10. The reflector 60 controls the light emitted from the LED light source unit 10 to provide effective light distribution, brightness of the lamp, reduction of glare, protection of the lamp, decoration, and the like.

The present invention relates to a lower air inflow LED lamp using a side and a lower air inflow LED cooling device, and includes a case 70 and a reflector plate 80.

The case 70 is provided with a side and a lower air inflow type LED cooling device in the inner space, and is formed in a dome shape so that the lower part is opened. Like the case 50 of the side air inflow LED light, the case 70 formed in the dome shape is installed to be inserted into the side and the bottom air inflow LED cooling device to prevent the product from being seen from the outside to improve the merchandise of the LED light. Can be. In addition, the case 70 of the dome shape serves to collect the light emitted from the LED light source unit 10 to adjust the illumination of the illumination and collect the light to create a cozy atmosphere. In addition, the side and bottom air inflow type LED cooling device is installed in the interior space to improve the heat dissipation performance by the configuration to facilitate the up-draft and natural convection heat dissipation.

The reflector plate 80 is installed in the lower portion of the case 70, the lower outer periphery and the upper end of the case 70 is connected in a flat, the upper end is installed in the LED light mounting portion 20, It controls the path of the light generated from the LED light source unit 10 in the shape. The reflector plate 80 controls light emitted from the LED light source unit 10 to provide effective light distribution, brightness of the lamp, reduction of glare, protection of the lamp, and decoration.

The case 70 is formed by circulating an air discharge hole 71 through which heated air is discharged at an upper end of an outer circumferential surface thereof, and lower air into which outside air flows into a plane to which the case 70 and the reflector plate 80 are connected. The inlet hole 72 is formed to circulate to facilitate natural convection by allowing the air introduced from the lower part through the lower air inlet hole 72 to easily move upward through the air outlet hole 71. Due to the case 70, the heat remaining in the inside of the lower air inlet hole 72 and the upper portion of the air outlet hole 71 is formed around each of the discharge to the outside of the case 70 do. It is a structure that facilitates heat exchange by natural convection, so that the rising temperature caused by light can be multi-dispersed quickly to the ambient temperature, and the performance of the light source device can be improved and the life can be extended. It can solve large size, noise problem, power supply problem.

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 exemplary embodiments. It is to be understood that various changes and modifications may be made without departing from the scope of the appended claims.

10: LED light source unit 20: LED light mounting unit
30: heat pipe 40: heat sink
41: heat pipe hole 42: convection hole
43: inner heat radiation fin 44: outer heat radiation fin
50: case 51: air outlet
52: side air inlet 60: reflector
70: case 71: air outlet
72: lower air inlet 80: reflector
100: side and bottom air inlet LED chillers

Claims (3)

An LED light mounting unit 20 equipped with an LED light source unit 10 formed on a lower surface of the plurality of LED elements;
One end is in thermal contact with the top surface of the LED light mounting portion 20 and the other end is bent and installed to be orthogonal to the top surface of the LED light mounting portion 20 to dissipate the high heat generated in the LED light source 10 A plurality of heat pipes 30;
The heat pipe hole 41 is formed to correspond to the heat pipe 30 to be fitted to the outer periphery of the heat pipe 30 to promote heat dissipation, and a plurality of vertically stacked with the heat pipe 30 Heat sink 40; / RTI >
The heat dissipation plate 40 has a convection hole 42 formed at the center thereof, and a plurality of inner heat dissipation fins 43 and a plurality of outer heat dissipation fins 44 are formed at the inside and the outside of the heat dissipation plate 40, respectively. The upper air channel is twisted to be orthogonal to the upper surface of the c), so that air introduced from the side and the lower part easily moves upward through the air channel and the convection hole 42 to promote natural convection. Side and bottom air inlet LED chillers.
LED light mounting portion 20 equipped with a LED light source unit 10 formed of a plurality of LED elements on the bottom surface, one end of the thermal contact with the top surface of the LED light mounting portion 20 and the other end is the LED light mounting portion A plurality of heat pipes 30, which are bent and orthogonal to an upper end surface of the 20, to radiate high heat generated by the LED light source unit 10, and the heat pipe holes 41 correspond to the heat pipes 30. It is formed to be coupled to the outer periphery of the heat pipe 30 to facilitate heat dissipation, provided with a plurality of heat sinks 40 are stacked and installed vertically with the heat pipe 30, the heat sink 40 is in the center A convection hole 42 is formed, and a plurality of inner heat dissipation fins 43 and a plurality of outer heat dissipation fins 44 are formed on the inside and the outside of the heat dissipation plate 40, and are twisted upward to be orthogonal to the top surface of the LED lighting mounting portion 20. Air channels are formed and flowed in from the side and bottom Side and bottom air inlet type LED cooling devices (100) for promoting natural convection by allowing air to move upwards through the air channel and the convection hole (42);
A dome-shaped case 50 having the side and lower air inflow type LED cooling devices provided in an inner space and having a lower portion opened;
Inserted into the inner space of the case 50 is installed, the lower end is coupled to the open lower outer periphery of the case 50, the upper end is installed in the LED light mounting portion 20, in the LED light source unit 10 A reflector plate 60 having a narrow light beam shape for controlling a path of light generated; / RTI >
The case 50 is formed by circulating an air discharge hole 51 through which heated air is discharged at an upper end of an outer circumference, and a side air inlet hole 52 is formed by circulating an outer air inlet at a lower end of the outer circumference, Side air inlet-type LED lamp, characterized in that the air introduced from the side through the air inlet hole 52 to facilitate the natural convection by passing easily through the air outlet hole 51 to the top.
LED light mounting portion 20 equipped with a LED light source unit 10 formed of a plurality of LED elements on the bottom surface, one end of the thermal contact with the top surface of the LED light mounting portion 20 and the other end is the LED light mounting portion A plurality of heat pipes 30, which are bent and orthogonal to an upper end surface of the 20, to radiate high heat generated by the LED light source unit 10, and the heat pipe holes 41 correspond to the heat pipes 30. A plurality of heat dissipation plates 40 are formed to be fitted to the outer circumference of the heat pipe 30 to promote heat dissipation and are vertically stacked with the heat pipes 30, and the heat dissipation plate 40 is disposed at the center thereof. A convection hole 42 is formed, and a plurality of inner heat dissipation fins 43 and a plurality of outer heat dissipation fins 44 are formed on the inside and the outside of the heat dissipation plate 40, and are twisted upward to be orthogonal to the top surface of the LED lighting mounting portion 20. Air channels are formed and flowed in from the side and bottom Side and bottom air inlet type LED cooling devices (100) for promoting natural convection by allowing air to move upwards through the air channel and the convection hole (42);
A dome-shaped case 70 having the side and bottom air inflow LED cooling devices 100 provided in an inner space and having a lower portion opened;
Is installed in the lower portion of the case 70, the lower outer periphery and the upper end of the case 70 is connected in a flat, the upper end is installed in the LED lighting mounting portion 20, generated in the LED light source unit 10 A reflector plate 80 having a shape of upper and lower beams for controlling a light path to be formed; / RTI >
The case 70 is formed by circulating an air discharge hole 71 through which heated air is discharged at an upper end of an outer circumferential surface thereof, and lower air into which outside air flows into a plane to which the case 70 and the reflector plate 80 are connected. The inlet hole 72 is formed to circulate, and the air introduced from the lower part through the lower air inlet hole 72 facilitates natural convection by easily moving upward through the air outlet hole 71. Bottom air-flow type LED lighting.

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