DE202011052263U1 - Light bulb and cooling device of the same - Google Patents

Abstract

A light bulb, comprising: a screw socket (10); a drive module (20) which has a drive device (24) electrically connected to the screw socket (10); a cooling device (30) comprising a cylinder part (32), a plurality of cooling fins (34) extending outwards from the circumference of the cylinder part (32), a support (36) formed on the bottom of the cylinder part (32) and a support (36) 36) transitioning, with the cooling fins (34) connecting portion (38), wherein the carrier (36) has an airfoil (P) and a heat dissipation channel (360) which communicates with the interior of the cylinder part (32) and the airfoil (P ) communicates, and wherein the drive device (24) is located inside the cylinder part (32), and wherein a recess (320) extends from the inner wall of the cylinder part (32) to the outside and with those formed between the cooling fins (34) Columns communicates so that the gaps (340) communicate with the heat dissipation channel (360) between the cooling fins (34); a light unit (40) attached to the wing (P) ...

Description

The invention relates to a light bulb and a cooling device provided therein, in particular a light bulb, are used in the light-emitting diodes as the light source.

Currently, light emitting diodes are widely used in light bulbs, which usually have a screw socket, a cooling device and a translucent cover body. In order to allow a better heat dissipation, the cooling device takes up a great height in the conventional light bulb. In other words, the space in the center of the bulb is predominantly occupied by the cooling device when viewed from the side. By contrast, the translucent cover body takes up correspondingly less space. Under these conditions, the translucent cover body of the commercial LED bulb is substantially semicircular. At the same time the beam angle of the light beam is very limited.

In the above-mentioned LED bulbs, there are at least two problems. The light-transmitting cover body is small, and the light angle of the light beam is very limited. This problem depends on the cooling device. In the second problem, the cooling performance of the cooling device must be improved. This means that the height ratio is reduced so that the light angle is increased.

The invention has for its object to provide a light bulb in which a cooling device and a translucent cover body are improved so that the beam angle is increased. At the same time, a cooling device for use in the light bulb is provided, which provides for the increase of the cooling performance of the light bulb.

This object is achieved by a light bulb having the features specified in claim 1, and by a cooling device having the features specified in claim 7. Further advantageous developments of the invention will become apparent from the dependent claims.

According to the invention, there is provided a light bulb comprising:
a screw socket;
a drive module having a drive unit electrically connected to the screw socket;
a cooling device comprising a cylinder part, a plurality of cooling fins extending outwardly from the circumference of the cylinder part, a support formed at the bottom of the cylinder part, and a connecting part connected to the support with the cooling fins, the support having a support surface and a heat removal duct, which communicates with the interior of the cylinder part and the support surface, and wherein the drive device is located inside the cylinder part, and wherein a recess extends outwardly from the inner wall of the cylinder part and communicates with the gaps formed between the cooling fins, so that the gaps between communicate the cooling fins with the heat removal channel;
a light unit mounted on the support surface of the carrier; and
a translucent cover body which is substantially spherical in shape and has an opening around which is disposed a flange supported on the connection portion, the support passing through the opening and being inside the translucent cover body.

According to the invention, there is provided a cooling device comprising:
a cylinder part
a plurality of cooling fins extending outwardly from the periphery of the cylinder part;
a carrier formed at the bottom of the cylinder part; and
a connecting portion that merges into the carrier and is connected to the cooling fins, wherein the carrier has a supporting surface and a heat dissipation channel communicating with the interior of the cylinder portion and the supporting surface, and wherein the connecting portion is connected to a flange of the translucent covering body.

• 1. Der Träger tritt durch die Öffnung des lichtdurchlässigen Abdeckkörpers hindurch und befindet sich im Inneren des lichtdurchlässigen Abdeckkörpers. Damit weist die ganze Konstruktion einen breiten Leuchtwinkel auf.
• 2. Gegenüber der herkömmlichen Kühlanordnung liegt die Wärmekonvektion bei der vorliegenden Erfindung zusätzlich vor. Die von der Lichteinheit erzeugte Wärme wird nicht durch den Träger auf die Kühlrippen übertragen, sondern auch durch den Wärmeabfuhrkanal und die Aussparung unter Einwirkung der Wärmekonvektion abgeführt. Damit ist eine erhöhte Kühlleistung der Kühlvorrichtung erzielbar.

The present invention has the following advantages:

• 1. The carrier passes through the opening of the translucent cover body and is located inside the translucent cover body. Thus, the whole construction has a wide light angle.
• 2. Compared with the conventional cooling arrangement, the heat convection is additionally present in the present invention. The heat generated by the light unit is not transmitted to the cooling fins by the support, but also dissipated by the heat removal passage and the recess under the action of the heat convection. For an increased cooling capacity of the cooling device can be achieved.

In the following the invention and its embodiments will be explained in more detail with reference to the drawing. In the drawing shows:

1 an exploded perspective view of a light bulb according to the invention;

2 an exploded perspective view of a light bulb of the invention seen from another side;

3 an assembled perspective view of a light bulb according to the invention;

4 a sectional perspective view of a cooling device of the light bulb according to the invention; and

5 a section through the light bulb according to the invention.

How out 1 and 2 can be seen, a light bulb according to the invention has a screw socket 10 , a drive module 20 , a cooler 30 , a light unit 40 and a translucent cover body 50 on. The screw socket 10 is in the format of E27, but should not be so limited. The drive module 20 has an outer casing 22 and a drive unit provided in this 24 on. The cooling device 30 is between the screw socket 10 and the light unit 40 provided and preferably made of thermally conductive material such. As aluminum, copper, etc. manufactured. The translucent cover body 50 is at the cooler 30 attached and covers the light unit 40 from. After assembly of the above-mentioned components, the results in 3 shown, inventive light bulb.

It will be up again 1 and 2 Referenced. The cooling device 30 includes a cylinder part 32 , several starting from the circumference of the cylinder part 32 outwardly extending cooling fins 34 , one at the bottom of the cylinder part 32 trained carrier 36 and one in the carrier 36 passing, with the cooling fins 34 connected connection section 38 , The carrier 36 has a support surface P and a heat removal channel 360 that with the inside of the cylinder part 32 and the wing P communicates. The drive unit 24 is located inside the cylinder part 32 ,

The drive module 20 is between the screw socket 10 and the cooling device 30 intended. The drive unit 24 is electric with the screw socket 10 connected and ensures the conversion of the screw socket 10 forwarded electrical energy into one for the operation of the light unit 40 needed electricity. At one end of the outer casing 22 is a shell 221 trained, the at the screw socket 10 is attached. At another end of the outer housing 22 is a lower part 222 formed in the interior of the cylinder part 32 located. The outer housing 22 is in the middle of its circumference with a stop collar 223 provided with the outer housing 22 on the cylinder part 32 and the cooling fins 34 the cooling device 30 is applied. In the illustrated embodiment, the outer housing 22 also a bottom wall 224 on, with screws S1 on the carrier 36 the cooling device 30 is attached.

The light unit 40 is on the wing P of the carrier 36 appropriate. In the illustrated embodiment, the light unit 40 with a resting on the support surface P substrate 42 and a condenser lens 44 Mistake. At the substrate 42 LEDs are arranged as a light source. The substrate 42 is made of metal or ceramic. In the illustrated embodiment corresponds to the surface area of the substrate 42 essentially that of the wing P, wherein the substrate 42 with screws S2 on the carrier 36 is attached.

The translucent cover body according to the invention 50 , which is specially designed, takes about two-thirds of the ball cup 51 and about one third of turning cup 53 one. The turning bowl 53 is with the ball cup 51 connected. There is a crossing point 510 between the ball cup 51 and the turning bowl 53 in front. The translucent cover body 50 has an opening 52 on, from the edge of the turning bowl 53 is limited. Around the opening 52 the translucent cover body 50 around is a flange 54 arranged at the connecting section 38 is held. Due to the above-mentioned design results in a wide beam angle. That is, by the carrier 36 and the connecting section 38 gives a luminous angle of 285 degrees. With reference to 5 the construction according to the invention is explained in more detail.

By the invention, the construction of the cooling device is improved to increase the cooling performance of the bulb. As in 4 shown, the cooling device 30 a recess 320 on, starting from the inner wall of the cylinder part 32 extends outward and with the between the cooling fins 34 formed columns communicates. In other words, a recess is starting from the interior of the cylinder part 32 outwards to the root or bottom of the cooling fins 34 cut that column 340 between the cooling fins 34 with the one in the middle of the carrier 36 trained heat dissipation channel 360 communicate. Compared to the conventional cooling arrangement, in which only the heat conduction and the heat radiation take place, according to the invention, the convection also takes place. The of the light unit 40 generated heat is not transmitted through the carrier 36 on the cooling fins 34 transmitted, but also through the heat dissipation channel 360 and the recess 320 dissipated under the influence of heat convection.

It should be noted that the heat dissipation channel 360 a center hole 361 and a plurality of extension grooves communicating therewith 363 having. The center hole 361 is in the middle of the carrier 36 and extends inwardly from the wing P, while the expansion grooves 363 starting from the inner bottom surface, that is from the cylinder part 32 adjacent floor surface, recessed to the outside. In the illustrated embodiment, the extension grooves extend 363 radially in the direction of the recess 320 or between the cooling fins 34 present column 340 , The design ensures more improved heat convection.

In the illustrated embodiment, the carrier 36 further with a heat conduction slot 362 provided, the recessed in the wing P is provided. The heat pipe slot 362 communicates with the heat dissipation channel 360 , There is at least one heat conduction slot 362 in front. Over the heat conduction slot 362 The air can pass through the space between the bottom surface of the light unit 40 and the carrier 36 pass. Therefore, the heat conduction slot is used 362 as a convection channel, starting from the interior of the translucent cover body 50 to the outside of the cooling device 30 runs.

With reference to 4 becomes the detailed construction of the connecting section 38 explained in more detail. The cooling fins 34 taper off from the wearer 36 in the direction of the opening point of the cylinder part 32 , According to 4 takes the width of the cooling fins 34 gradually from top to bottom. The connecting section 38 has a cone shell 382 and one on the circumference of the cylinder part 32 trained locking part 384 on. The locking part 384 is with both the cone shell 382 and the cooling fins 34 connected. The locking part 384 is inside with one on the cone shell 382 adjacent ring groove 386 provided, in which the flange 54 the translucent cover body 50 intervenes.

According to 5 enters the carrier 36 through the opening 52 the translucent cover body 50 through and is located inside the translucent cover body 50 , The cone shell 382 of the connection section 38 closes with the extending horizontal of the wing P or the substrate 42 the light unit 40 an angle θ1 greater than 52.5 degrees. Due to this large angle, the light beam of the light unit can 40 obliquely outwards or in the direction of the cooling device 30 spread. Seen from the side, the bottom surface of the condenser lens lies 44 the light unit 40 about the same height as at the crossing point 510 the translucent cover body 50 , That is, the condenser lens 44 the light unit 40 at an imaginary level of the transition point 510 is arranged. In this way, that of the condenser lens 44 emitted light beams completely on both the spherical shell 51 as well as on the turning bowl 53 to be thrown. Overall, the light in this embodiment completely to the entire translucent cover body 50 as well as to the ball cup 51 and the turning bowl 53 reach. In this case, a luminous angle of 285 degrees can be achieved.

In summary, for example, the following advantages can be realized with the light bulb according to the invention:
The carrier 36 enters through the opening 52 the translucent cover body 50 through and is located inside the translucent cover body 50 , The translucent cover body 50 has a spherical shell 51 , which accounts for two-thirds of it. Thus, the whole construction has a wide light angle. Compared with the conventional cooling arrangement, the heat convection is additionally present in the present invention. The of the light unit 40 generated heat is not transmitted through the carrier 36 on the cooling fins 34 transmitted, but also through the heat dissipation channel 360 and the recess 320 dissipated under the influence of heat convection.

The foregoing description illustrates the embodiments of the invention and is not intended to limit the claims. All equivalent changes and modifications that may be made by those skilled in the art in accordance with the description and drawings of the invention are within the scope of the present invention.

LIST OF REFERENCE NUMBERS

10

screw socket

20

drive module

22

outer casing

221

top

222

lower part

223

stop collar

224

bottom wall

24

drive unit

30

cooler

32

cylinder part

320

recess

34

cooling fin

340

gap

36

carrier

360

Heat dissipation channel

361

center bore

362

Heat conduction slot

363

Erweiterungsnut

38

connecting portion

382

cone shell

384

locking

P

wing

40

light unit

42

substratum

44

converging lens

50

translucent cover body

51

spherical shell

510

Checkpoint

52

opening

53

turning shell

54

flange

S1

screw

S2

screw

Claims (9)

Light bulb, comprising: a screw socket ( 10 ); a drive module ( 20 ), which electrically connects to the screw socket ( 10 ) connected drive unit ( 24 ) having; a cooling device ( 30 ), which is a cylinder part ( 32 ), several starting from the circumference of the cylinder part ( 32 ) outwardly extending cooling fins ( 34 ), one at the bottom of the cylinder part ( 32 ) trained carriers ( 36 ) and one in the carrier ( 36 ), with the cooling fins ( 34 ) connection section ( 38 ), wherein the carrier ( 36 ) an airfoil (P) and a heat removal duct ( 360 ), which with the interior of the cylinder part ( 32 ) and the wing (P) communicates, and wherein the drive unit ( 24 ) inside the cylinder part ( 32 ) and wherein a recess ( 320 ) starting from the inner wall of the cylinder part ( 32 ) extends to the outside and with the between the cooling fins ( 34 ) trained columns so that the column ( 340 ) between the cooling fins ( 34 ) with the heat removal channel ( 360 ) communicate; a light unit ( 40 ) on the wing (P) of the beam ( 36 ) is attached; and a translucent cover body ( 50 ) which is substantially spherical in shape and has an opening ( 52 ) around which a flange ( 54 ) arranged at the connecting section ( 38 ) is supported, wherein the carrier ( 36 ) through the opening ( 52 ) passes through and inside the translucent cover body ( 50 ) is located. Light bulb according to claim 1, characterized in that the heat removal channel ( 360 ) a central bore ( 361 ) and a plurality of extension grooves communicating therewith ( 363 ), wherein the central bore ( 361 ) in the middle of the carrier ( 36 ) and extends inwardly from the support surface (P), while the extension grooves ( 363 ) starting from the inner bottom surface of the carrier ( 36 ) in a deepened way. Light bulb according to claim 1, characterized in that the carrier ( 36 ) further comprising a heat conduction slot ( 362 ), which is recessed in the support surface (P) is provided, wherein the heat conduction slot ( 362 ) with the heat removal channel ( 360 ) communicates. Light bulb according to claim 1, characterized in that the cooling fins ( 34 ) starting from the carrier ( 36 ) in the direction of the opening point of the cylinder part ( 32 ), wherein the connecting portion ( 38 ) a cone shell ( 382 ) and one on the circumference of the cylinder part ( 32 ) trained locking part ( 384 ), and wherein the locking part ( 384 ) with both the cone shell ( 382 ) and the cooling fins ( 34 ) connected is. Light bulb according to claim 4, characterized in that the cone shell ( 382 ) of the connection section ( 38 ) with the extending horizontal of the wing (P) forms an angle (θ1) greater than 52.5 degrees. Light bulb according to claim 1, characterized in that - the light unit ( 40 ) with a support (P) resting on the substrate ( 42 ) and a lying on this lens ( 44 ) is provided; - That the translucent cover body ( 50 ) a spherical shell ( 51 ) and a turntable connected thereto ( 53 ), wherein between the spherical shell ( 51 ) and the turning bowl ( 53 ) a crossing point ( 510 ) is available; and - that the bottom surface of the condenser lens ( 44 ) is approximately at the same level as at the crossing point ( 510 ) of the translucent cover body ( 50 ). Cooling device, which is attached to a translucent cover body of a light bulb and comprises: a cylinder part ( 32 ), several cooling fins ( 34 ), which starting from the circumference of the cylinder part ( 32 ) extend outwards; a carrier ( 36 ) located at the bottom of the cylinder part ( 32 ) is trained; and a connecting section ( 38 ) placed in the carrier ( 36 ) and with the cooling fins ( 34 ), the carrier ( 36 ) an airfoil (P) and a heat removal duct ( 360 ), which with the interior of the cylinder part ( 32 ) and the support surface (P), and wherein the connection section ( 38 ) with a flange ( 54 ) of the translucent cover body ( 50 ) connected is. Cooling device according to claim 7, characterized in that the heat removal channel ( 360 ) a central bore ( 361 ) and a plurality of extension grooves communicating therewith ( 363 ), wherein the central bore ( 361 ) in the middle of the carrier ( 36 ) and extends inwardly from the support surface (P), while the extension grooves ( 363 ) starting from the inner Floor surface of the support ( 36 ) in a deepened way. Cooling device according to claim 8, characterized in that the carrier ( 36 ) further comprising a heat conduction slot ( 362 ), which is recessed in the support surface (P) is provided, wherein the heat conduction slot ( 362 ) with the heat removal channel ( 360 ) communicates.

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