CN211600271U - Positive-pressure radiating LED lamp - Google Patents
Positive-pressure radiating LED lamp Download PDFInfo
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- CN211600271U CN211600271U CN201922353122.XU CN201922353122U CN211600271U CN 211600271 U CN211600271 U CN 211600271U CN 201922353122 U CN201922353122 U CN 201922353122U CN 211600271 U CN211600271 U CN 211600271U
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Abstract
The utility model relates to a radiating LED lamp of malleation forms the air current through the fan that sets up in the main lamp body, and the convection current through the air reaches the effect that reduces the heat source temperature, the active thermal discharge that promotes the heat source during operation production. Simultaneously, the flow difference of air inlet and gas outlet for the fan during operation forms the malleation in the main lamp body, and the inside atmospheric pressure of main lamp body is greater than the outside atmospheric pressure of main lamp body promptly, carries thermal air and is discharged and keep away from around the main lamp body through the gas outlet, avoids discharged hot-air to be inhaled inside the main lamp body from the inlet port and influences the radiating effect. The upper diversion convex rib and the lower diversion convex rib on the outer wall of the main lamp body further enhance the heat dissipation effect. The utility model improves the overall heat dissipation performance of the LED lamp through the active heat dissipation and the passive heat dissipation which are carried out simultaneously, and can meet the design requirements of small-size and high-power-consumption LED products; meanwhile, the assembly relation of the product is simple, the automatic production can be met, and the production efficiency is improved.
Description
Technical Field
The utility model relates to a LED lamp technical field, more specifically say, relate to a radiating LED lamp of malleation.
Background
In the LED lamp body in the prior art, the heat generated by the LED light source (including driving) during operation is usually dissipated by a passive heat dissipation structure, i.e. by a heat sink, but the heat of the LED is conducted to the heat sink and is dissipated mainly by radiation, which has a disadvantage of poor objective heat dissipation effect. Furthermore, under the condition of standard size and in order to guarantee the service life, the power cannot be broken through, so that the conventional high-power substitute product cannot meet the market demand.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to overcome prior art not enough, provide a radiating LED lamp of malleation, through improving the radiating effect, realize improving the power of small-size LED product.
The technical scheme of the utility model as follows:
the utility model provides a radiating LED lamp of malleation, includes main lamp body, lamp holder, electrically conductive drawing pin, light source board, drive plate, fan, and the main lamp body is established sleeve, lamp stand of connecting including the cover, and the fan sets up in the cavity that sleeve and lamp stand enclose, and air inlet and gas outlet have been seted up respectively in the both sides position that lies in the fan to the lamp stand and sleeve, and the admission rate of air inlet is greater than the rate of giving vent to anger of gas outlet, and the fan during operation forms the malleation in the cavity.
Preferably, the total size of the air inlets is greater than the total size of the air outlets; alternatively, the individual inlets may all be larger in size than the outlets.
Preferably, the fan passes through the support and sets up in telescopic link, and the sleeve establishes with the lamp stand cover and is connected the back, and light source board forms certain distance with the fan.
Preferably, the bracket is provided on an end surface of the connection end of the sleeve, and the fan is fixed to the bracket.
Preferably, the sleeve and the outer wall of the lamp holder are respectively provided with a lower diversion convex rib and an upper diversion convex rib along the length direction.
Preferably, the lower flow guiding convex rib and the upper flow guiding convex rib are correspondingly abutted to limit the depth of the sleeve and the lamp holder in sleeving connection.
Preferably, the driving board is arranged in the sleeve, and the air outlet is formed in one end, close to the lamp holder, of the sleeve; the light source board sets up in the installation end of lamp stand, and the air inlet is seted up in the one end that is close to the light source board.
Preferably, the air outlet is a plurality of thin seams formed along the circumferential direction of the sleeve, and the width of each thin seam is not less than 1 mm; the air inlet is formed by hollowing out one end of the lamp holder facing the sleeve between the upper diversion convex ribs.
Preferably, the mounting end of lamp stand is provided with the mounting panel, and the setting of light source board laminating mounting panel.
Preferably, the mounting plate and the lamp holder are integrally formed.
The utility model has the advantages as follows:
radiating LED lamp of malleation, form the air current through the fan that sets up in the main lamp body, reach the effect that reduces heat source (including light source board and drive plate) temperature through the convection current of air, the thermal discharge that the active heat source during operation that promotes produced. Simultaneously, the flow difference of air inlet and gas outlet for the fan during operation forms the malleation in the main lamp body, and the inside atmospheric pressure of main lamp body is greater than the outside atmospheric pressure of main lamp body promptly, carries thermal air and is discharged and keep away from around the main lamp body through the gas outlet, avoids discharged hot-air to be inhaled inside the main lamp body from the inlet port and influences the radiating effect. On the other hand, the upper diversion convex rib and the lower diversion convex rib on the outer wall of the main lamp body can increase the heat dissipation area of the main lamp body, and meanwhile, a diversion trench can be formed, so that the air flow around the main lamp body is increased through convection on the basis of heat dissipation airflow, and the heat dissipation effect is further enhanced.
According to the invention, the overall heat dissipation performance of the LED lamp is improved through active heat dissipation and passive heat dissipation which are carried out simultaneously, and the design requirements of small-size and high-power-consumption LED products can be met; meanwhile, the assembly relation of the product is simple, the automatic production can be met, and the production efficiency is improved.
Drawings
Fig. 1 is a schematic structural diagram of the present invention;
FIG. 2 is a structural sectional view of the present invention;
FIG. 3 is an exploded view of the structure of the present invention;
in the figure: 10 is main lamp body, 11 is the sleeve, 111 is the gas outlet, 112 is lower water conservancy diversion protruding rib, 113 is the screw post, 12 is the lamp stand, 121 is the air inlet, 122 is last water conservancy diversion protruding rib, 123 is the mounting panel, 20 cell-shells, 30 is the lamp holder, 40 is the conductive drawing pin, 50 is the light source board, 60 is the drive plate, 70 is the fan, 71 is the support.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and examples.
The utility model discloses a solve the limited problem of product power that heat dispersion that prior art exists is not enough and cause, provide a radiating LED lamp of malleation, mainly include main lamp body 10, light source board 50, drive plate 60, fan 70, main lamp body 10 establishes the sleeve 11 of connecting including the cover, lamp stand 12, fan 70 sets up in the cavity that sleeve 11 and lamp stand 12 enclose, air inlet 121 and gas outlet 111 have been seted up respectively in the both sides position that is located fan 70 to lamp stand 12 and sleeve 11, the admission rate of air inlet 121 is greater than the rate of giving vent to anger of gas outlet 111, fan 70 during operation, the intracavity forms the malleation, and then, when the air exhausts from gas outlet 111, have bigger initial velocity, exhaust distance is farther. The utility model discloses a fan 70 that sets up in main lamp body 10 forms the air current, reaches the effect that reduces light source board 50 and drive plate 60 temperature through the convection current of air, the active thermal discharge that promotes light source board 50 and drive plate 60 during operation production. Meanwhile, the flow difference between the air inlet 121 and the air outlet 111 makes the fan 70 form positive pressure in the main lamp body 10 when working, that is, the air pressure inside the main lamp body 10 is greater than the air pressure outside the main lamp body 10, and the air carrying heat is discharged through the air outlet 111 and kept away from the periphery of the main lamp body 10, thereby preventing the discharged hot air from being sucked back into the main lamp body 10 from the air inlet hole to affect the heat dissipation effect.
The utility model discloses can implement different product forms such as bulb, down lamp, shot-light, the bulb is used as the example to this embodiment, as shown in fig. 1, fig. 2, fig. 3, this embodiment includes cell-shell 20, main lamp body 10, lamp holder 30, electrically conductive drawing pin 40, light source board 50, drive plate 60, fan 70, and cell-shell 20, main lamp body 10, lamp holder 30, electrically conductive drawing pin 40 assemble as an organic whole, and light source board 50, drive plate 60, fan 70 set up in main lamp body 10. The main lamp body 10 may be a heat dissipating lamp body made of a material with high thermal conductivity, for example, the sleeve 11 and the lamp holder 12 are made of a metal material, so as to improve passive heat dissipating performance as much as possible, so that heat generated by the light source board 50 and the driving board 60 during operation can be conducted to the lamp holder 12 and the sleeve 11, and dissipated outwards.
In order to realize that when the fan 70 operates, a positive pressure is formed inside the main lamp body 10, and the air inlet rate of the air inlet 121 is required to be greater than the air outlet rate of the air outlet 111, in this embodiment, the total size of the air inlet 121 is greater than the total size of the air outlet 111, and the total air inlet rate determined by all the air inlets 121 is greater than the total air outlet rate determined by all the air outlets 111; alternatively, the individual inlets 121 are all sized larger than the outlets 111 and ensure that the total inlet rate is greater than the total outlet rate. Specifically, the air outlet 111 is a plurality of thin slits arranged along the circumferential direction of the sleeve 11, and the width of the thin slits is not less than 1 mm; the air inlet 121 is formed by hollowing out one end of the lamp holder 12 facing the sleeve 11 between the upper flow guiding ribs 122. Wherein, gas outlet 111 equipartition sets up to the radiating effect in the balanced sleeve 11, and slender gas outlet 111 can obtain the faster initial velocity of giving vent to anger. The air inlet 121 may also be implemented as a number of regularly or irregularly distributed through holes, the number of which is less than the number of slits, and the size of a single through hole is several times that of a single slit.
In order to enable the fan 70 to suck enough air at the air inlet side, in the embodiment, the fan 70 is disposed at the connecting end of the sleeve 11 through the bracket 71, and after the sleeve 11 is sleeved and connected with the lamp holder 12, the light source board 50 is spaced from the fan 70. Specifically, a bracket 71 is provided at an end surface of the attachment end of the sleeve 11, and the fan 70 is fixed to the bracket 71. In a specific implementation, the driving plate 60 is disposed in the sleeve 11, the bracket 71 is mounted on a screw post 113 (the screw post 113 may be disposed in the sleeve 11 or may be integrally formed on the inner wall of the sleeve 11) in the sleeve 11 by a screw, and the fan 70 is fixed on the bracket 71 by a screw. Then, the lamp cap 30 is riveted (pre-assembled with the conductive drawing pin 40), the sleeve 11 is sleeved and connected with the lamp holder 12, the light source board 50 is arranged at the mounting end of the lamp holder 12, and the bulb 20 is mounted. In order to guarantee the installation intensity and the quick heat conduction of light source board 50, the installation end of lamp stand 12 is provided with mounting panel 123, and mounting panel 123 and lamp stand 12 be integrated into one piece's structure, and light source board 50 laminating mounting panel 123 sets up.
In order to ensure the heat dissipation of the light source board 50 and the driving board 60 at the same time, the air outlet 111 is opened at one end of the sleeve 11 close to the lamp cap 30; the air inlet 121 is opened at one end near the light source board 50. Furthermore, when the fan 70 is operated, the air flow formed inside the main lamp body 10 is introduced from a position close to the light source board 50, passes through the driving board 60, and is discharged from the air outlet 111, and can carry heat generated when the light source board 50 and the driving board 60 are operated, and be discharged to the outside.
In order to further enhance the heat dissipation performance, the sleeve 11 and the outer wall of the lamp holder 12 are respectively provided with a lower diversion rib 112 and an upper diversion rib 122 along the length direction. The adjacent lower diversion ribs 112 and the adjacent upper diversion ribs 122 may form diversion grooves, respectively, when the air flow is discharged, the air flow is formed outside the main lamp body 10, and the diversion grooves are favorable for enhancing the air flow, and the air flow on the surface of the main lamp body 10 flows orderly, thereby promoting the heat dissipation. On the other hand, the lower flow guiding ribs 112 and the upper flow guiding ribs 122 can increase the surface area of the sleeve 11 and the lamp holder 12, i.e. the heat dissipation area is increased, which is further beneficial to heat dissipation.
Meanwhile, the lower guide ribs 112 and the upper guide ribs 122 also function to determine the fitting depth of the sleeve 11. The lower flow guiding rib 112 and the upper flow guiding rib 122 are correspondingly abutted to limit the depth of the sleeve 11 sleeved and connected with the lamp holder 12, so as to prevent the sleeve 11 from being excessively assembled in the lamp holder 12, which causes the air inlet side of the fan 70 to be too small in space, which is not favorable for the formation of air flow and positive pressure. In specific implementation, the lower diversion ribs 112 and the upper diversion ribs 122 may be in one-to-one correspondence, or may be partially disposed in correspondence, and partially staggered, and the number of the lower diversion ribs 112 and the number of the upper diversion ribs 122 may also be implemented in the same or different product structures. The direction of the lower diversion convex rib 112 is consistent with that of the upper diversion convex rib 122, the arrangement along the axial direction of the sleeve 11 and the lamp holder 12 and the arrangement of attaching the sleeve 11 and the outer wall of the lamp holder 12 can be implemented, and a spiral structure can also be formed along the outer walls of the sleeve 11 and the lamp holder 12.
The above embodiments are merely illustrative, and not restrictive, of the present invention. Changes, modifications, etc. to the above-described embodiments are intended to fall within the scope of the claims of the present invention, as long as they are in accordance with the technical spirit of the present invention.
Claims (10)
1. The utility model provides a radiating LED lamp of malleation, includes main lamp body, lamp holder, electrically conductive drawing pin, light source board, drive plate, fan, its characterized in that, main lamp body establishes sleeve, the lamp stand of connecting including the cover, and the fan sets up in the cavity that sleeve and lamp stand enclose, and air inlet and gas outlet have been seted up respectively in the both sides position that is located the fan to the lamp stand and sleeve, and the admission rate of air inlet is greater than the air outlet rate of gas outlet, and the fan during operation forms the malleation in the cavity.
2. The positive pressure heat dissipating LED lamp of claim 1 wherein the total size of the air inlet is greater than the total size of the air outlet; alternatively, the individual inlets may all be larger in size than the outlets.
3. The LED lamp with the positive pressure heat dissipation function according to claim 1, wherein the fan is arranged at the connecting end of the sleeve through the support, and after the sleeve is sleeved and connected with the lamp holder, the light source board and the fan form a certain distance.
4. The positive pressure heat dissipating LED lamp according to claim 3, wherein a bracket is provided at an end surface of the connection end of the sleeve, and the fan is fixed to the bracket.
5. The positive pressure heat dissipation LED lamp as claimed in claim 3, wherein the sleeve and the outer wall of the lamp holder are respectively provided with a lower flow guiding rib and an upper flow guiding rib along the length direction.
6. The positive pressure heat dissipating LED lamp of claim 5, wherein the lower flow guiding ribs are correspondingly abutted against the upper flow guiding ribs to limit the depth of the sleeve to be sleeved and connected with the lamp holder.
7. The LED lamp with the function of dissipating heat through the positive pressure as claimed in any one of claims 2 to 6, wherein the driving board is arranged in the sleeve, and the air outlet is formed at one end of the sleeve, which is close to the lamp holder; the light source board sets up in the installation end of lamp stand, and the air inlet is seted up in the one end that is close to the light source board.
8. The positive pressure heat dissipation LED lamp as recited in claim 7, wherein the air outlet is a plurality of slits formed along the circumference of the sleeve, the width of the slits being not less than 1 mm; the air inlet is formed by hollowing out one end of the lamp holder facing the sleeve between the upper diversion convex ribs.
9. The positive pressure heat dissipating LED lamp of claim 1, wherein the mounting end of the lamp holder is provided with a mounting plate, and the light source plate is disposed in abutment with the mounting plate.
10. The positive pressure heat dissipating LED lamp of claim 9 wherein the mounting plate and the base are of an integrally formed construction.
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CN201922353122.XU CN211600271U (en) | 2019-12-24 | 2019-12-24 | Positive-pressure radiating LED lamp |
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CN201922353122.XU CN211600271U (en) | 2019-12-24 | 2019-12-24 | Positive-pressure radiating LED lamp |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112985827A (en) * | 2021-01-20 | 2021-06-18 | 德国Bf工程公司 | A lamp house structure for complex environment |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112985827A (en) * | 2021-01-20 | 2021-06-18 | 德国Bf工程公司 | A lamp house structure for complex environment |
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