DE202012005302U1 - Cooling structure of a light-emitting diode lamp - Google Patents

Abstract

Cooling structure of a light-emitting diode lamp, comprising a base (2) which has an opening (21), a frame (3) which is arranged at the opening (21) of the base (2), on both sides of the frame (3) a heat sink (31) and a fan (32) are arranged, a light emitting diode module (33) being arranged on the heat sink (31), a cover (4) covering the frame (3) at the opening (21) of the Base (2) is fixed and has a first opening (41) and a second opening (42), the lid (4) close to the first opening (41) at least one air outlet opening (411) and close to the second opening (42 ) forms at least one air inlet opening (421), and a lens (5) which is arranged in the first opening (41).

Description

Technical area

The invention relates to a light-emitting diode lamp, in particular a cooling structure of a light-emitting diode lamp, which can increase the cooling effect and reduce the noise.

State of the art

With the increase in the manufacturing technology of the light emitting diode and the consideration of energy saving, the light emitting diode is becoming more widely used in various lighting devices, such as LED vehicle lamp, LED street lamp, LED table lamp, light-emitting diode bulb, etc.

The high power light emitting diode generates a high operating heat during operation, which can be collected locally (around the heat source). This heat must be dissipated to avoid affecting the devices and the product.

When the light emitting diode lamp does not have a cooling structure, the heat in the light emitting diode lamp can be collected, so that the light emitting diodes can be burned by the heat. As a result, a cooling structure is required in the light-emitting diode lamp.

1a . 1b and 1c show a conventional light-emitting diode lamp, which is a pedestal 10 , a lid 11 and a lens 12 includes. In the pedestal 10 is a drive circuit 101 arranged. The lid 11 has an opening 111 on and covers the pedestal 10 , In the lid 11 is a recording room 112 formed around the several air inlets 113 are provided. The recording room 112 forms at the base 10 facing side a variety of cooling fins 114 on which a fan 115 is provided. The ends of the cooling fins 114 are connected to a ring. In the middle of the recording room 112 is an air outlet opening 116 provided to the the cooling fins 114 are distributed. Around the air outlet 116 is a light-emitting diode module 13 placed on the floor of the recording room 112 lies. The Lens 12 is on the lid 11 arranged, has a through hole in the middle 121 for the air outlet opening 116 on and is with the light emitting diode module 13 connected.

How out 1d it can be seen, the heat of the light emitting diode module 13 from the recording room 112 and the cooling fins 114 absorbed. The ventilator 115 sucks the outside air through the air inlet openings 113 in the lid 11 , generates an air flow to the cooling fins 114 and carries the heat of the cooling fins 114 through the air outlet 116 which provides cooling for the light emitting diode module 13 is reached.

Although this cooling structure can heat the light emitting diode module 13 However, the cooling effect is limited because of the air flow of the fan 115 from the recording room 112 is locked. This allows the light emitting diode module 13 be influenced by an excess heat, so that the light intensity and the life of the light-emitting diode lamp is reduced. Furthermore, the light-emitting diode module 13 thereby being damaged (burnt). At the same time a noise can be generated. In addition, foreign bodies in the air outlet opening 116 fall, allowing the fan to turn 115 being affected.

• 1. schlechte Kühlwirkung,
• 2. großes Geräusch,
• 3. Reduzierung der Lichtintensität und der Lebensdauer,
• 4. Fremdkörper können in die Luftaustrittsöffnung fallen.

Therefore, the conventional solution has the following disadvantages:

• 1. bad cooling effect,
• 2. big noise,
• 3. Reduction of light intensity and lifetime,
• 4. Foreign objects can fall into the air outlet opening.

For this reason, in view of the disadvantages of conventional solutions based on many years of experience in this field, the inventor has, after much study, numerous trials and constant improvements, developed the present invention.

Object of the invention

The invention has for its object to provide a cooling structure of a light-emitting diode lamp, which can increase the cooling effect and reduce the noise.

Another object of the present invention is to provide a cooling structure of a light emitting diode lamp capable of preventing foreign matter from entering.

Yet another object of the invention is to provide a cooling structure of a light emitting diode lamp which can reduce the discharge air pressure and increase the amount of air.

These objects are achieved by the inventive cooling structure of a light-emitting diode lamp, comprising: a base having an opening; a frame, which is arranged at the opening of the base, wherein on the two sides of the frame, a heat sink and a fan are arranged, wherein on the heat sink, a light-emitting diode module is arranged; a lid which covers the frame is fixed to the opening of the base and a first opening and a second Opening, wherein the lid forms close to the first opening at least one air outlet opening and close to the second opening at least one air inlet opening, and a lens which is arranged in the first opening. The one from the fan 32 generated air flow flows through the ribs 311 and dissipates the heat through the air outlet opening, so that the cooling effect is increased and the noise is reduced.

The lid has on the outside of the first opening a third opening which is higher than the first opening to prevent ingress of foreign bodies into the lid, whereby an influence on the work of the fan is avoided.

Between the third opening and the lid, a chamfer is formed, through which the outlet air pressure is reduced and the amount of air is increased.

Brief description of the drawings

1a a perspective view of the conventional solution,

1b an exploded view of the conventional solution,

1c a partial representation of the conventional solution,

1d a sectional view of the conventional solution,

2a an exploded view of the first preferred embodiment of the invention,

2 B a perspective view of the first preferred embodiment of the invention,

2c a sectional view of the first preferred embodiment of the invention,

3a a perspective view of the second preferred embodiment of the invention,

3b a sectional view of the second preferred embodiment of the invention,

4a a perspective view of the third preferred embodiment of the invention and

4b a sectional view of the third preferred embodiment of the invention.

Ways to carry out the invention

Further details, features and advantages of the invention will become apparent from the following detailed description taken in conjunction with the accompanying drawings.

2a and 2 B show the first preferred embodiment of the invention, the one pedestal 2 a frame 3 , a lid 4 and a lens 5 includes. The base 2 has an opening on one side 21 on. In the pedestal 2 is a drive module 22 arranged. The frame 3 is at the opening 21 of the pedestal 2 arranged. On the two sides of the frame 3 are a heat sink 31 and a fan 32 arranged. At the fan 32 opposite side of the heat sink 31 is a light-emitting diode module 33 arranged. The lid 4 covers the frame 3 and is at the opening 21 of the pedestal 2 attached. The lid 4 has a first opening 41 and a second opening 42 on, between which a recording room 43 is formed. The lid 4 points further close to the first opening 41 at least one air outlet opening 411 that with the recording room 43 is connected, and close to the second opening 42 at least one air inlet opening 421 on. The Lens 5 is in the first opening 41 arranged and closes the first opening 41 ,

At the second opening 42 are a variety of locking parts 422 provided in the recesses 23 of the pedestal 2 engage. The frame 3 is in the recording room 43 received and has at least a first fastener 34 and a second fastener 35 on. The first fastening element 34 used to attach the heat sink 31 and the light emitting diode module 33 to the heatsink 31 and the light emitting diode module 33 between the frame 3 and the lid 4 to fix. The light-emitting diode module 33 is with the lens 5 connected. The second fastening element 35 serves to fix the fan 32 and the lid 4 to the fan 32 between the frame 3 and the pedestal 2 to fix.

How out 2c As can be seen, the heat sink absorbs 31 the heat of the light emitting diode module 33 , The ventilator 32 sucks the outside air through the air inlet opening 421 in the pedestal 2 , generates an air flow to the cooling fins 311 of the heat sink 31 and guides the heat through the air outlet 411 , whereby the cooling effect is increased, so that the light intensity and the life of the light-emitting diode lamp is increased.

3a and 3b show the second preferred embodiment of the invention, which differs from the first preferred embodiment only in that the lid 4 on the outside of the first opening 41 a third opening 44 which is higher than the first opening 41 lies to prevent entry of foreign bodies in the lid 4 to prevent, thereby affecting the work of the fan 32 and a clogging of the air outlet opening 411 is avoided. Between the third opening 44 and the lid 4 is a chamfer 441 formed, located at the location of the air outlet 411 located to the air from the air outlet 441 to guide, so that the outlet air pressure is reduced and the amount of air is increased.

9a and 4b show the third preferred embodiment of the invention, which differs from the first preferred embodiment only in that on the outside of the second opening 42 an outer flange 423 is formed, wherein the air inlet opening 421 between the outer flange 423 and the second opening 42 located. If the lid 4 the frame 3 covers and at the opening 21 of the pedestal 2 is attached, the flange can 423 in the opening of the base 2 be plugged. The ventilator 32 sucks the outside air through the air inlet opening 421 in the pedestal 2 , generates an air flow to the cooling fins 311 of the heat sink 31 and guides the heat through the air outlet 411 from, whereby the cooling effect is increased. The one from the fan 32 generated air flow flows directly through the ribs 311 and not from the heat sink 31 locked, so that the noise is reduced.

• 1. Erhöhung der Kühlwirkung,
• 2. Reduzierung des Geräusches,
• 3. Erhöhung der Lichtintensität und der Lebensdauer,
• 4. ein Eintritt von Fremdkörpern wird verhindert.

Therefore, the invention has the following advantages:

• 1. increase the cooling effect,
• 2. reduction of the noise,
• 3. increase in light intensity and lifetime,
• 4. entry of foreign bodies is prevented.

The foregoing description represents only the preferred embodiments of the invention and is not intended to serve as a definition of the limits and scope of the invention. All equivalent changes and modifications are within the scope of this invention.

Claims (10)

Cooling structure of a light-emitting diode lamp, comprising a base ( 2 ), which has an opening ( 21 ), a frame ( 3 ) located at the opening ( 21 ) of the socket ( 2 ) is arranged, on both sides of the frame ( 3 ) a heat sink ( 31 ) and a fan ( 32 ) are arranged, wherein on the heat sink ( 31 ) a light-emitting diode module ( 33 ), a lid ( 4 ), the frame ( 3 ), at the opening ( 21 ) of the socket ( 2 ) and a first opening ( 41 ) and a second opening ( 42 ), wherein the lid ( 4 ) close to the first opening ( 41 ) at least one air outlet opening ( 411 ) and close to the second opening ( 42 ) at least one air inlet opening ( 421 ) and a lens ( 5 ) in the first opening ( 41 ) is arranged. Cooling structure according to claim 1, characterized in that the lid ( 4 ) on the outside of the first opening ( 41 ) a third opening ( 44 ) which is higher than the first opening ( 41 ) lies. Cooling structure according to claim 2, characterized in that between the third opening ( 44 ) and the lid ( 4 ) a chamfer ( 441 ) is formed. Cooling structure according to claim 1, characterized in that in the base ( 2 ) a drive module ( 22 ) is arranged. Cooling structure according to claim 1, characterized in that the heat sink ( 31 ) between the frame ( 3 ) and the lid ( 4 ) and the lens ( 5 ) on the light-emitting diode module ( 33 ) on the heat sink ( 31 ) is attached. Cooling structure according to claim 1, characterized in that the fan ( 32 ) between the frame ( 3 ) and the base ( 2 ) is attached. Cooling structure according to claim 1, characterized in that the frame ( 3 ) at least one first fastening element ( 34 ) and a second fastening element ( 35 ), wherein the first fastening element ( 34 ) for fixing the heat sink ( 31 ) and the light emitting diode module ( 33 ), wherein the second fastening element ( 35 ) for mounting the fan ( 32 ) and the lid ( 4 ) serves. Cooling structure according to claim 1, characterized in that at the second opening ( 42 ) a plurality of locking parts ( 422 ) are provided, which in the recesses ( 23 ) of the socket ( 2 ). Cooling structure according to claim 1, characterized in that on the outside of the second opening ( 42 ) an outer flange ( 423 ) is formed, wherein the air inlet opening ( 421 ) between the outer flange ( 423 ) and the second opening ( 42 ) is located. Cooling structure according to claim 1, characterized in that between the first opening ( 41 ) and the second opening ( 42 ) a recording room ( 43 ), in which the frame ( 3 ) is recorded.

Images