CN209341189U - A kind of double-colored high temperature resistant driving power of LED - Google Patents
A kind of double-colored high temperature resistant driving power of LED Download PDFInfo
- Publication number
- CN209341189U CN209341189U CN201821994388.1U CN201821994388U CN209341189U CN 209341189 U CN209341189 U CN 209341189U CN 201821994388 U CN201821994388 U CN 201821994388U CN 209341189 U CN209341189 U CN 209341189U
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- China
- Prior art keywords
- cooling
- water
- power supply
- driving power
- led
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Abstract
The utility model is suitable for driving power technical field, provide a kind of double-colored high temperature resistant driving power of LED, including actuator assembly and cooling component, the actuator assembly includes drive enclosure and power supply line, the drive enclosure is fixedly connected on the power supply line, the power supply line is located at the side of the drive enclosure, and the power supply line and external power supply are electrically connected;The semiconductor chilling plate carries out cooling down to water; then the water flow after cooling down flows into the cooling tube by the outlet pipe; the water in the cooling tube flows to an other cooling tube by the connecting tube at this time; the cooling water is flowed out from the cooling tube of the rightmost side; and it is back flowed back into the water tank by the return pipe; form water circulation; compared to more existing heat dissipating method; the double-colored high temperature resistant driving power of novel LED; it can effectively radiate to driving power; it avoids driving power internal heat from assembling, effective protection is formed to power supply.
Description
Technical field
The utility model belongs to driving power technical field more particularly to a kind of double-colored high temperature resistant driving power of LED.
Background technique
Currently, LED light just gradually substitutes incandescent lamp with the advantages that energy-saving and environmental protection, since LED light can not directly be electrically connected with city
It connects, needs a driving power for converting the alternating current of input.LED drive power be power supply supply be converted to it is specific
Power adapter of the voltage and current to drive LED luminous.
Driving power currently on the market in use, can generate huge heat, radiator in the prior art
Cooling fin is set in the shell of driving power mostly, to radiate, setting blower also is blowed to cooling fin, but
It is that radiator heat dissipation effect currently on the market is poor, so that internal heat is gathered, so that greatly reduce power supply uses the longevity
Life.
Utility model content
The utility model provides a kind of double-colored high temperature resistant driving power of LED, it is intended to solve radiator currently on the market
Heat dissipation effect is poor, so that internal heat is gathered, thus the problem of greatly reducing the service life of power supply.
The utility model is realized in this way a kind of double-colored high temperature resistant driving power of LED, including actuator assembly and cooling
Component, the actuator assembly include drive enclosure and power supply line, and the drive enclosure is fixedly connected on the power supply line,
The power supply line is located at the side of the drive enclosure, and the power supply line and external power supply are electrically connected, the cooling component
It is described including connecting tube, heat sink, water tank, cooler casing, outlet pipe, semiconductor film-making, return pipe, cooling tube and water pump
Heat sink is fixedly connected on the drive enclosure, and the heat sink is located at the top of the drive enclosure, the cooler
Shell is fixedly connected on the drive enclosure, and the cooler casing is located at the top of the drive enclosure, the cooling
Pipe is through the heat sink, and the both ends of the cooling tube are respectively communicated in the outlet pipe and connecting tube, and the water pump is partly led
System piece and water tank are fixedly connected in the cooler casing, and the water pump is located at the inside of the cooler casing, described
Outlet pipe is fixedly connected on the output end of the water pump, and the semiconductor film-making is connected to the water tank, and the water tank passes through institute
It states return pipe and is connected to the cooling tube, the semiconductor film-making and the water pump are electrically connected with external power supply.
Preferably, the quantity of the heat sink is eight, is equally spaced between eight heat sinks.
It preferably, is to be distributed between two cooling tubes up and down in each heat sink there are two the cooling tube.
Preferably, the connecting tube is set as U-shaped, and is connected between multiple cooling tubes by the connecting tube.
Preferably, the outlet pipe is fixedly connected on the upper end of one of cooling tube, and the return pipe is fixedly connected on
The upper end of another cooling tube.
Preferably, the semiconductor film-making is set as tubulose, and the water inlet end of the semiconductor film-making is connected to the water tank,
The water outlet of the semiconductor film-making is connected to the input terminal of the water pump.
Preferably, water inlet is offered above the water tank, and be provided with sealing cover above the water inlet.
Compared with prior art, the utility model has the beneficial effects that a kind of double-colored high temperature resistant of LED of the utility model is driven
Dynamic power supply realized by the way that the connecting tube and cooling tube is arranged and to be rapidly cooled to driving power, when in use, driving
The heat of power source internal is transmitted in the heat sink by the drive enclosure, and then the water pump starts running, by institute
The water extraction in water tank is stated, then the semiconductor chilling plate carries out cooling down to water, and the water flow after then cooling down passes through institute
It states outlet pipe and flows into the cooling tube, the water in the cooling tube flows to an other cooling by the connecting tube at this time
Pipe, the cooling water is flowed out from the cooling tube of the rightmost side, and is back flowed back into the water tank by the return pipe, shape
It is recycled at water, compares more existing heat dissipating method, the double-colored high temperature resistant driving power of novel LED can be effectively to driving electricity
Source is radiated, and driving power internal heat is avoided to assemble, and forms effective protection to power supply.
Detailed description of the invention
Fig. 1 is the overall structure diagram of the utility model;
Fig. 2 is cooling element structure schematic diagram in the utility model;
Fig. 3 is the structural schematic diagram of heat sink in the utility model;
In figure: 1- actuator assembly, 11- drive enclosure, 12- power supply line, 2- cooling component, 21- connecting tube, 22- dissipate
Hot plate, 23- water tank, 24- cooler casing, 25- outlet pipe, 26- semiconductor chilling plate, 27- return pipe, 28- cooling tube, 29-
Water pump.
Specific embodiment
In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation
Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only used to explain
The utility model is not used to limit the utility model.
Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of double-colored high temperature resistant driving power of LED, including
Actuator assembly 1 and cooling component 2, actuator assembly 1 include drive enclosure 11 and power supply line 12, and drive enclosure 11 is fixed
It is connected to power supply line 12, power supply line 12 is located at the side of drive enclosure 11, and power supply line 12 and external power supply are electrically connected, cooling
Component 2 includes connecting tube 21, heat sink 22, water tank 23, cooler casing 24, outlet pipe 25, semiconductor film-making 26, return pipe
27, cooling tube 28 and water pump 29, heat sink 22 are fixedly connected on drive enclosure 11, and heat sink 22 is located at drive enclosure 11
Top, cooler casing 24 are fixedly connected on drive enclosure 11, and cooler casing 24 is located at the top of drive enclosure 11, cold
But through heat sink 22, the both ends of cooling tube 28 are respectively communicated in outlet pipe 25 and connecting tube 21, water pump 29, semiconductor pipe 28
Film-making 26 and water tank 23 are fixedly connected in cooler casing 24, and water pump 29 is located at the inside of cooler casing 24, outlet pipe 25
It is fixedly connected on the output end of water pump 29, semiconductor film-making 26 is connected to water tank 23, and water tank 23 is connected to cold by return pipe 27
But pipe 28, semiconductor film-making 26 and water pump 29 are electrically connected with external power supply.
In the present embodiment, water circulation is carried out by setting connecting tube 21, after cooling water reaches in cooling tube 28,
Cooling water takes away the heat in heat sink 22, the cooling water in cooling tube 28 from upper end adjacent cooling is flowed by connecting tube 21
The lower end of pipe 28, cooling water pass through the upper of another adjacent cooling tube 28 of connecting tube 21 from the lower end of another cooling tube 28
End, to form circulating for cooling water, takes away the heat in each heat sink 22.
In the present embodiment, driving power is rapidly cooled to realize by setting connecting tube 21 and cooling tube 28
, in driving power in use, the heat generated is conducted by drive enclosure 11 into heat sink 22, start water pump 29 at this time
With semiconductor film-making 26, the cold water in water tank 23 is flowed into semiconductor chilling plate 26 from the water inlet end of semiconductor film-making 26, is partly led
Temperature reduces after body cooling piece 26 is powered, and cooling water is cooled down, and then cooling water is flowed from the water outlet of semiconductor film-making 26
Enter in water pump 29, cooling water from the cooling tube 28 that outlet pipe 25 flows into the leftmost side, is reached cooling tube in cooling water by water pump 29
After in 28, cooling water takes away the heat in heat sink 22, the cooling water in cooling tube 28 from upper end flowed by connecting tube 21
The lower end of adjacent cooling tube 28, cooling water pass through another adjacent cooling of connecting tube 21 from the lower end of another cooling tube 28
The heat in each heat sink 22 is taken away to form circulating for cooling water in the upper end of pipe 28, by circulation after, it is cold
But water flows into return pipe 27 from the cooling tube 28 of the rightmost side, and comes back in water tank 23, water circulation is formed, compared to more existing
Heat dissipating method, the double-colored high temperature resistant driving power of novel LED can effectively radiate to driving power, avoid driving
The aggregation of power source internal heat forms effective protection to power supply.
Further, the quantity of heat sink 22 is eight, is equally spaced between eight heat sinks 22.
In the present embodiment, by be arranged heat sink 22 carry out it is thermally conductive, in driving power in use, generate heat
Through the conduction of drive enclosure 11 into heat sink 22, the quantity of heat sink 22 is eight, is equidistantly divided between eight heat sinks 22
Cloth increases the contact area of heat sink 22 and outside air, to form natural heat dissipation when there is air circulation.
It further, is to be distributed between two cooling tubes 28 up and down in each heat sink 22 there are two cooling tube 28.
In the present embodiment, cooling is carried out by the way that cooling tube 28 is arranged, there are two cooling tubes in each heat sink 22
28, it is to be distributed between two cooling tubes 28 up and down, after cooling water reaches in cooling tube 28, cooling water is taken away in heat sink 22
Heat,
Further, connecting tube 21 is set as U-shaped, and is connected between multiple cooling tubes 28 by connecting tube (21).
In the present embodiment, water circulation is carried out by setting connecting tube 21, after cooling water reaches in cooling tube 28,
Cooling water takes away the heat in heat sink 22, the cooling water in cooling tube 28 from upper end adjacent cooling is flowed by connecting tube 21
The lower end of pipe 28, cooling water pass through the upper of another adjacent cooling tube 28 of connecting tube 21 from the lower end of another cooling tube 28
End, to form circulating for cooling water, takes away the heat in each heat sink 22.
Further, outlet pipe 25 is fixedly connected on the upper end of one of cooling tube 28, and return pipe 27 is fixedly connected on
The upper end of another cooling tube 28.
In the present embodiment, water circulation is carried out by setting outlet pipe 25 and return pipe 27, water pump 29 is by cooling water
From the cooling tube 28 that outlet pipe 25 flows into the leftmost side, after circulation, cooling water flows into back from the cooling tube 28 of the rightmost side
It in water pipe 27, and comes back in water tank 23, forms water circulation.
Further, semiconductor film-making 26 is set as tubulose, and the water inlet end of semiconductor film-making 26 is connected to water tank 23, partly leads
The water outlet of system piece 26 is connected to the input terminal of water pump 29.
In the present embodiment, cooled down by the way that semiconductor film-making 26 is arranged to cooling water, when in use, water tank 23
In cold water from the water inlet end of semiconductor film-making 26 flow into semiconductor chilling plate 26 in, semiconductor chilling plate 26 be powered after temperature drop
It is low, cooling water is cooled down, then cooling water flows into water pump 29 from the water outlet of semiconductor film-making 26.
Further, the top of water tank 23 offers water inlet, and sealing cover is provided with above water inlet.
In the present embodiment, realize that replacement cooling water, cooling water are using a period of time by setting water inlet
After need to replace it, in replacement, the sealing cover of water inlet is opened, then pours out original cooling water, from into
New cooling water is added at the mouth of a river, and covering sealing cover can be completed replacement.
The working principle and process for using of the utility model: after the utility model installs, equipment is accessed into external electrical
Source starts water pump 29 in driving power in use, the heat generated is conducted by drive enclosure 11 into heat sink 22 at this time
With semiconductor film-making 26, the cold water in water tank 23 is flowed into semiconductor chilling plate 26 from the water inlet end of semiconductor film-making 26, is partly led
Temperature reduces after body cooling piece 26 is powered, and cooling water is cooled down, and then cooling water is flowed from the water outlet of semiconductor film-making 26
Enter in water pump 29, cooling water from the cooling tube 28 that outlet pipe 25 flows into the leftmost side, is reached cooling tube in cooling water by water pump 29
After in 28, cooling water takes away the heat in heat sink 22, the cooling water in cooling tube 28 from upper end flowed by connecting tube 21
The lower end of adjacent cooling tube 28, cooling water pass through another adjacent cooling of connecting tube 21 from the lower end of another cooling tube 28
The heat in each heat sink 22 is taken away to form circulating for cooling water in the upper end of pipe 28, by circulation after, it is cold
But water flows into return pipe 27 from the cooling tube 28 of the rightmost side, and comes back in water tank 23, water circulation is formed, compared to more existing
Heat dissipating method, the double-colored high temperature resistant driving power of novel LED can effectively radiate to driving power, avoid driving
The aggregation of power source internal heat forms effective protection to power supply.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model
Protection scope within.
Claims (7)
1. a kind of double-colored high temperature resistant driving power of LED, it is characterised in that: including actuator assembly (1) and cooling component (2), institute
Stating actuator assembly (1) includes drive enclosure (11) and power supply line (12), and the drive enclosure (11) is fixedly connected on institute
It states power supply line (12), the power supply line (12) is located at the side of the drive enclosure (11), the power supply line (12) and outside
Power supply is electrically connected,
The cooling component (2) includes connecting tube (21), heat sink (22), water tank (23), cooler casing (24), outlet pipe
(25), semiconductor film-making (26), return pipe (27), cooling tube (28) and water pump (29), the heat sink (22) are fixedly connected on
The drive enclosure (11), the heat sink (22) are located at the top of the drive enclosure (11), the cooler casing
(24) it is fixedly connected on the drive enclosure (11), the cooler casing (24) is located at the upper of the drive enclosure (11)
Side, the cooling tube (28) are respectively communicated with through the heat sink (22), the both ends of the cooling tube (28) in the water outlet
Pipe (25) and connecting tube (21), the water pump (29), semiconductor film-making (26) and water tank (23) are fixedly connected in the cooling
Device shell (24), the water pump (29) are located at the inside of the cooler casing (24), and the outlet pipe (25) is fixedly connected on
The output end of the water pump (29), the semiconductor film-making (26) are connected to the water tank (23), and the water tank (23) passes through institute
It states return pipe (27) to be connected to the cooling tube (28), the semiconductor film-making (26) and the water pump (29) are and external power supply
It is electrically connected.
2. a kind of double-colored high temperature resistant driving power of LED as described in claim 1, it is characterised in that: the heat sink (22)
Quantity is eight, is equally spaced between eight heat sinks (22).
3. a kind of double-colored high temperature resistant driving power of LED as claimed in claim 2, it is characterised in that: each heat sink
It (22) is to be distributed between two cooling tubes (28) up and down there are two being all provided in the cooling tube (28).
4. a kind of double-colored high temperature resistant driving power of LED as described in claim 1, it is characterised in that: the connecting tube (21) sets
It is set to U-shaped, and is connected between multiple cooling tubes (28) by the connecting tube (21).
5. a kind of double-colored high temperature resistant driving power of LED as described in claim 1, it is characterised in that: the outlet pipe (25) is solid
Surely it is connected to the upper end of one of cooling tube (28), the return pipe (27) is fixedly connected on another described cooling tube
(28) upper end.
6. a kind of double-colored high temperature resistant driving power of LED as described in claim 1, it is characterised in that: the semiconductor film-making
(26) it is set as tubulose, the water inlet end of the semiconductor film-making (26) is connected to the water tank (23), the semiconductor film-making
(26) water outlet is connected to the input terminal of the water pump (29).
7. a kind of double-colored high temperature resistant driving power of LED as described in claim 1, it is characterised in that: the water tank (23) it is upper
Side offers water inlet, and is provided with sealing cover above the water inlet.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821994388.1U CN209341189U (en) | 2018-11-30 | 2018-11-30 | A kind of double-colored high temperature resistant driving power of LED |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821994388.1U CN209341189U (en) | 2018-11-30 | 2018-11-30 | A kind of double-colored high temperature resistant driving power of LED |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209341189U true CN209341189U (en) | 2019-09-03 |
Family
ID=67750060
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201821994388.1U Expired - Fee Related CN209341189U (en) | 2018-11-30 | 2018-11-30 | A kind of double-colored high temperature resistant driving power of LED |
Country Status (1)
Country | Link |
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CN (1) | CN209341189U (en) |
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2018
- 2018-11-30 CN CN201821994388.1U patent/CN209341189U/en not_active Expired - Fee Related
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Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190903 Termination date: 20211130 |