CN207674400U - From cooling and heat dissipation Non-polarized lamp - Google Patents
From cooling and heat dissipation Non-polarized lamp Download PDFInfo
- Publication number
- CN207674400U CN207674400U CN201820058077.8U CN201820058077U CN207674400U CN 207674400 U CN207674400 U CN 207674400U CN 201820058077 U CN201820058077 U CN 201820058077U CN 207674400 U CN207674400 U CN 207674400U
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- China
- Prior art keywords
- refrigerant
- heat
- cooling
- heat dissipation
- evaporator
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Abstract
The utility model discloses a kind of from cooling and heat dissipation Non-polarized lamp, including lamp body, lampshade and from cooling and heat dissipation component, and lampshade includes upper lamp shade and lower lamp shade, and upper lamp shade includes shell and the reflective inner casing of heat conduction;Include evaporator, refrigerant reservoir, throttle pipe, heat-dissipating pipe, reflux condenser, gas-guide tube and serpentine condenser from cooling and heat dissipation component, the refrigerant outflow end of refrigerant reservoir and the refrigerant of throttle pipe flow into the connection of end fluid communication, the refrigerant outflow end of throttle pipe and the refrigerant of heat-dissipating pipe flow into the connection of end fluid communication, the refrigerant outflow end of heat-dissipating pipe and the refrigerant of evaporator flow into the connection of end fluid communication, and the refrigerant vapor outlet side of evaporator and the inlet end fluid communication of reflux condenser connect.The utility model can be realized by self structure cooling and heat dissipation and does not increase energy consumption, dissipates the heat derives that Non-polarized lamp generates using self-circulation cold concretio, is conducive to the service life of raising Non-polarized lamp, is service life in a high temperauture environment.
Description
Technical field
The utility model is related to Non-polarized lamp technical field, more particularly to one kind from cooling and heat dissipation Non-polarized lamp.
Background technology
Non-polarized lamp is a kind of magnetic lamp, is integrated application optics, power electronics, plasma, magnetic material etc.
The new high-tech product that the newest scientific and technological achievement in field is developed out is a kind of to represent lighting engineering specular removal, long-life, height
The new type light source of colour rendering future thrust.Non-polarized lamp 60,000 hours service life of theory, and in fact, current great-power electronic town
Stream device technology there is no basic breakthrough, meanwhile, component, including " electrolytic capacitor " service life, under Non-polarized lamp hot environment,
Only 16000 hours.At present under technical conditions, Non-polarized lamp actual life was less than 8000 hours.
Utility model content
In view of this, the utility model aim is that cooling and heat dissipation can be realized by self structure and do not increased by providing one kind
Add energy consumption from cooling and heat dissipation Non-polarized lamp, the heat derives that Non-polarized lamp generates are dissipated using self-circulation cold concretio, are conducive to
The service life for improving Non-polarized lamp is service life in a high temperauture environment.
In order to achieve the above objectives, the utility model uses following technical proposals:From cooling and heat dissipation Non-polarized lamp, including lamp body,
Lampshade and from cooling and heat dissipation component, the lampshade includes upper lamp shade and lower lamp shade, and the upper lamp shade includes that shell and heat conduction are reflective
Inner casing;It is described from cooling and heat dissipation component include evaporator, refrigerant reservoir, throttle pipe, heat-dissipating pipe, reflux condenser, gas-guide tube
And serpentine condenser, the refrigerant outflow end of the refrigerant reservoir flow into end fluid communication with the refrigerant of the throttle pipe and connect,
The refrigerant outflow end of the throttle pipe flows into end fluid communication with the refrigerant of the heat-dissipating pipe and connect, the refrigerant stream of the heat-dissipating pipe
Outlet flows into end fluid communication with the refrigerant of the evaporator and connect, refrigerant vapor outlet side and the reflux of the evaporator
The inlet end fluid communication of condenser connects, the inlet end fluid communication of the outlet side of the reflux condenser and the gas-guide tube
Connection, the inlet end of the outlet side of the gas-guide tube and the serpentine condenser, the refrigerant outflow end of the serpentine condenser and
The refrigerant of the refrigerant reservoir flows into the connection of end fluid communication;The lamp body and the evaporator are separately positioned on the lampshade
The interior and described lamp body is located at the lower section of the evaporator, and the evaporator is located at the lower section of the reflux condenser, the reflux
The outlet side of condenser is located at the top of the gas-guide tube, and the gas-guide tube is located at the top of the serpentine condenser, the snake
Shape condenser pipe is located at the top of the refrigerant reservoir, and the refrigerant reservoir is located at the top of the throttle pipe, the throttling
Pipe refrigerant flows into end and is located at outside the upper lamp shade, and it is reflective interior with the heat conduction that the throttle pipe refrigerant outflow end is located at the shell
Between shell, the heat-dissipating pipe is arranged between the shell and the thermal conductive shell and below the evaporator;On described
The lower end of lampshade is fixedly connected with the upper end of the lower lamp shade.
It is above-mentioned from cooling and heat dissipation Non-polarized lamp, the heat-dissipating pipe is circumferentially disposed around the reflective inner casing of the heat conduction.
It is above-mentioned from cooling and heat dissipation Non-polarized lamp, the evaporator bottom plate is metal corrugated plate.
It is above-mentioned from cooling and heat dissipation Non-polarized lamp, the metal corrugated plate lower face is equipped with heat-conduction electric insulation coating.
It is above-mentioned from cooling and heat dissipation Non-polarized lamp, the metal corrugated plate is copper corrugated plating.
It is above-mentioned from cooling and heat dissipation Non-polarized lamp, the serpentine condenser is sleeved on the reflux condenser.
It is above-mentioned between cooling and heat dissipation Non-polarized lamp, the serpentine condenser and the reflux condenser be equipped with gap.
The beneficial effects of the utility model are as follows:
It is realized in Non-polarized lamp using the cyclicity conversion of liquid-gaseous state-liquid of the refrigerant in self-circulation cold concretio
The continuity of portion's heat is discharged, and to realize the temperature control of Non-polarized lamp internal temperature, avoids Non-polarized lamp internal temperature excessively high to electronics
The damage of component improves the service life of Non-polarized lamp.
Description of the drawings
Fig. 1 is structural schematic diagram of the utility model from cooling and heat dissipation Non-polarized lamp;
Fig. 2 is structural schematic diagram of the utility model from the evaporator of cooling and heat dissipation Non-polarized lamp.
In figure, 1- upper lamp shades;2- lower lamp shades;3- shells;The reflective inner casing of 4- heat conduction;5- lamp bodies;6- heat-dissipating pipes;7- throttles
Pipe;8- evaporators;9- refrigerant reservoirs;10- serpentine condensers;11- reflux condensing tubes;12- gas-guide tubes;13- metal corrugated plates;
14- heat-conduction electric insulation coatings.
Specific implementation mode
In order to illustrate more clearly of the utility model, the utility model is done into one with reference to preferred embodiments and drawings
The explanation of step.Similar component is indicated with identical reference numeral in attached drawing.It will be appreciated by those skilled in the art that below
Specifically described content is illustrative and be not restrictive, and should not limit the scope of protection of the utility model with this.
As shown in Figure 1, the utility model is from cooling and heat dissipation Non-polarized lamp, including lamp body 5, lampshade and from cooling and heat dissipation component,
The lampshade includes upper lamp shade 1 and lower lamp shade 2, and the upper lamp shade 1 includes shell 3 and the reflective inner casing of heat conduction 4;It is described to be dissipated from cooling down
Hot component includes evaporator 8, refrigerant reservoir 9, throttle pipe 7, heat-dissipating pipe 6, reflux condenser 11, gas-guide tube 12 and snakelike condensation
Pipe 10, the refrigerant outflow end of the refrigerant reservoir 9 flow into end fluid communication with the refrigerant of the throttle pipe 7 and connect, the section
The refrigerant outflow end of flow tube 7 flows into end fluid communication with the refrigerant of the heat-dissipating pipe 6 and connect, the refrigerant outflow of the heat-dissipating pipe 6
It holds and is connect with the refrigerant of the evaporator 8 inflow end fluid communication, refrigerant vapor outlet side and the reflux of the evaporator 8
The inlet end fluid communication of condenser 11 connects, the inlet end stream of the outlet side of the reflux condenser 11 and the gas-guide tube 12
Body conducting connection, the inlet end of the outlet side of the gas-guide tube 12 and the serpentine condenser 10, the serpentine condenser 10
Refrigerant outflow end flows into end fluid communication with the refrigerant of the refrigerant reservoir 9 and connect;The lamp body 5 and the evaporator 8 divide
It is not arranged in the lampshade and the lamp body 5 is located at the lower section of the evaporator 8, the evaporator 8 is located at the returned cold
The lower section of condenser 11, the outlet side of the reflux condenser 11 are located at the top of the gas-guide tube 12, and the gas-guide tube 12 is located at
The top of the serpentine condenser 10, the serpentine condenser 10 are located at the top of the refrigerant reservoir 9, the refrigerant storage
Device 9 is located at the top of the throttle pipe 7, and 7 refrigerant of the throttle pipe flows into end and is located at outside the upper lamp shade 1, and the throttle pipe 7 is cold
Matchmaker's outflow end is located between the shell 3 and the reflective inner casing of the heat conduction 4, the setting of the heat-dissipating pipe 6 the shell 3 with it is described
Between thermal conductive shell 3 and positioned at 8 lower section of the evaporator;;The lower end of the upper lamp shade 1 and the upper end of the lower lamp shade 2 are fixed
Connection.In the present embodiment, refrigerant used is ultrapure degree type deionized water.
Wherein, the heat-dissipating pipe 6 is circumferentially disposed around the reflective inner casing 4 of the heat conduction, and 8 bottom plate of the evaporator is wavy metal
Plate 13,13 lower face of the metal corrugated plate are equipped with heat-conduction electric insulation coating 14, as shown in Figure 2.In the present embodiment, the metal
Corrugated plating 13 is copper corrugated plating.
In order to reduce the space that the utility model occupies so that it is more compact in the utility model structure, it is described snakelike cold
Solidifying pipe 10 is sleeved on the reflux condenser 11, while in order to ensure that the serpentine condenser 10 is equal with the reflux condenser 11
Condensation can be realized alone and without direct heat exchange, is equipped between the serpentine condenser 10 and the reflux condenser 11
Gap.
During utility model works, the deionized water in the refrigerant reservoir 9 flows back into described under pressure
In evaporator 8, then heat absorption becomes vapor, then rises in the reflux condenser 11, part vapor is condensed into liquid
Drip back, which is flow in evaporator 8, continues endothermic disintergration as vapor, and another part vapor then enters the serpentine condenser 10
It is inside condensed into drop to pass back into the refrigerant reservoir 9, in entire deionized water-vapor-deionized water conversion process
In, the heat that the lamp body 5 generates is carried out out of described lampshade and is discharged into environment by heat exchange by deionized water, to
The cooling to the lamp body 5 is formed, and in this course, other energy consumptions are not necessarily to, and cooling-down effect is apparent.
Obviously, above-described embodiment of the utility model is only intended to clearly illustrate the utility model example, and
It is not the restriction to the embodiment of the utility model, for those of ordinary skill in the art, in above description
On the basis of can also make other variations or changes in different ways, all embodiments can not be exhaustive here,
It is every to belong to obvious changes or variations that the technical solution of the utility model is extended out still in the utility model
The row of protection domain.
Claims (7)
1. from cooling and heat dissipation Non-polarized lamp, which is characterized in that including lamp body (5), lampshade and from cooling and heat dissipation component, the lampshade packet
Upper lamp shade (1) and lower lamp shade (2) are included, the upper lamp shade (1) includes shell (3) and the reflective inner casing of heat conduction (4);It is described to be dissipated from cooling down
Hot component includes evaporator (8), refrigerant reservoir (9), throttle pipe (7), heat-dissipating pipe (6), reflux condenser (11), gas-guide tube
(12) and serpentine condenser (10), the refrigerant outflow end of the refrigerant reservoir (9) flow into end with the refrigerant of the throttle pipe (7)
Fluid communication connects, and the refrigerant outflow end of the throttle pipe (7) flows into end fluid communication with the refrigerant of the heat-dissipating pipe (6) and connects
It connects, the refrigerant outflow end of the heat-dissipating pipe (6) flows into end fluid communication with the refrigerant of the evaporator (8) and connect, the evaporation
The refrigerant vapor outlet side of device (8) is connect with the inlet end fluid communication of the reflux condenser (11), the reflux condenser
(11) outlet side is connect with the inlet end fluid communication of the gas-guide tube (12), the outlet side of the gas-guide tube (12) with it is described
The inlet end of serpentine condenser (10), the refrigerant outflow end of the serpentine condenser (10) are cold with the refrigerant reservoir (9)
Matchmaker flows into the connection of end fluid communication;The lamp body (5) and the evaporator (8) are separately positioned in the lampshade and the lamp body
(5) it is located at the lower section of the evaporator (8), the evaporator (8) is located at the lower section of the reflux condenser (11), the reflux
The outlet side of condenser (11) is located at the top of the gas-guide tube (12), and the gas-guide tube (12) is located at the serpentine condenser
(10) top, the serpentine condenser (10) are located at the top of the refrigerant reservoir (9), refrigerant reservoir (9) position
Top in the throttle pipe (7), throttle pipe (7) refrigerant flow into end and are located at the upper lamp shade (1) outside, the throttle pipe
(7) between the shell (3) and the reflective inner casing of the heat conduction (4), the heat-dissipating pipe (6) is arranged described refrigerant outflow end
Between shell (3) and the thermal conductive shell (3) and below the evaporator (8);The lower end of the upper lamp shade (1) with it is described
The upper end of lower lamp shade (2) is fixedly connected.
2. according to claim 1 from cooling and heat dissipation Non-polarized lamp, which is characterized in that the heat-dissipating pipe (6) is around the heat conduction
Reflective inner casing (4) is circumferentially disposed.
3. according to claim 1 from cooling and heat dissipation Non-polarized lamp, which is characterized in that evaporator (8) bottom plate is metal
Corrugated plating (13).
4. according to claim 3 from cooling and heat dissipation Non-polarized lamp, which is characterized in that metal corrugated plate (13) lower face
Equipped with heat-conduction electric insulation coating (14).
5. according to claim 3 from cooling and heat dissipation Non-polarized lamp, which is characterized in that the metal corrugated plate (13) is copper wave
Card.
6. any described from cooling and heat dissipation Non-polarized lamp according to claim 1-5, which is characterized in that the serpentine condenser (10)
It is sleeved on the reflux condenser (11).
7. according to claim 6 from cooling and heat dissipation Non-polarized lamp, which is characterized in that the serpentine condenser (10) with it is described
Gap is equipped between reflux condenser (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820058077.8U CN207674400U (en) | 2018-01-12 | 2018-01-12 | From cooling and heat dissipation Non-polarized lamp |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820058077.8U CN207674400U (en) | 2018-01-12 | 2018-01-12 | From cooling and heat dissipation Non-polarized lamp |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207674400U true CN207674400U (en) | 2018-07-31 |
Family
ID=62974037
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820058077.8U Expired - Fee Related CN207674400U (en) | 2018-01-12 | 2018-01-12 | From cooling and heat dissipation Non-polarized lamp |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207674400U (en) |
-
2018
- 2018-01-12 CN CN201820058077.8U patent/CN207674400U/en not_active Expired - Fee Related
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Legal Events
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: 20180731 Termination date: 20220112 |