CN109375748A - The cooling system of display device - Google Patents
The cooling system of display device Download PDFInfo
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- CN109375748A CN109375748A CN201811358374.5A CN201811358374A CN109375748A CN 109375748 A CN109375748 A CN 109375748A CN 201811358374 A CN201811358374 A CN 201811358374A CN 109375748 A CN109375748 A CN 109375748A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/20—Cooling means
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1601—Constructional details related to the housing of computer displays, e.g. of CRT monitors, of flat displays
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F2200/00—Indexing scheme relating to G06F1/04 - G06F1/32
- G06F2200/20—Indexing scheme relating to G06F1/20
- G06F2200/202—Air convective hinge
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- General Engineering & Computer Science (AREA)
- Human Computer Interaction (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Computer Hardware Design (AREA)
- Devices For Indicating Variable Information By Combining Individual Elements (AREA)
Abstract
The present invention provides a kind of cooling system of display device, and cooling system includes: that cooling system includes: display device, and display device includes pyrotoxin, heat dissipation base and airflow channel;Wherein, display device includes the first blower module and the first inlet and outlet, first blower module can produce first path air-flow and/or the second path air-flow, display device can be discharged by the first inlet and outlet in heat caused by pyrotoxin by first path air-flow, and the second path air-flow can guide heat to airflow channel;Heat dissipation base includes the second blower module and the second inlet and outlet, second blower module can produce third path air-flow and/or the 4th path air-flow, third path air-flow can guide heat to first path, and heat dissipation base can be discharged by the second inlet and outlet heat from airflow channel guidance heat in heat by the 4th path air-flow.Not only heat dissipation performance is strong for cooling system provided by the invention, can also heat for user.
Description
Technical field
The present invention relates to heat dissipation base field more particularly to a kind of cooling systems of display device.
Background technique
In low-temperature working environment, user reduces work effect because sitting feels cold before computer screen often
Rate.Meanwhile present display device by enhancing backlight illumination, the various ways such as IC performance to promote display performance, it is above-mentioned
For promoting the method for display performance along with the promotion of display device internal temperature, for provide the luminous lamp tube of backlight with
And internal circuit will lead to and generate more heats inside display device.Heat caused by display dress inside usually passes through internal
Radiator structure is discharged from the back side of display device.
However, being radiated through the above way to display device, heat can not be utilized, therefore how to display
Heat inside device, which is recycled, has become one of most important problem.
Summary of the invention
The purpose of the present invention is to provide a kind of cooling systems of display device, can either be by the heat inside display device
Amount discharge in time, additionally it is possible to guide to user to sentence by its heat by heat dissipation base and warm oneself.
In order to achieve the above objectives, the present invention provides a kind of cooling system of display device, which includes: display
Device, the display device include pyrotoxin;Heat dissipation base is connected to the display device bottom;And airflow channel, it is connected to this
Heat dissipation base and the display device;Wherein, which includes: the first blower module and the first inlet and outlet, first wind
Module is fanned to generate first path air-flow and/or the second path air-flow, the first path air-flow is to be produced the pyrotoxin
The display device is discharged by first inlet and outlet in raw heat, and the second path air-flow is guiding the heat to the gas
Circulation road;The heat dissipation base includes: the second blower module and the second inlet and outlet, and second blower module is to generate third road
Diameter air-flow and/or the 4th path air-flow, the third path air-flow is guiding the heat to the first path, the 4th path
To guide the heat by second inlet and outlet from the airflow channel heat, the heat dissipation base is discharged in the heat to air-flow.
Preferably, the display device further includes display screen, which is arranged departing from the display screen, should
Second inlet and outlet is set in side ipsilateral with the display screen in the heat dissipation base.
Preferably, first blower module includes the first bidirectional fan, which includes the second bidirectional fan.
Preferably, the heat dissipation base further include: control module, the control module be coupled to first blower module and this
Two blower modules, the control module include: switch unit, the switch unit to switch first blower module generate this first
Path air-flow or the second path air-flow, and switch second blower module and generate the third path air-flow or the 4th path gas
Stream.
Preferably, the heat dissipation base further include: heating module is arranged close to second inlet and outlet, and is coupled to this
Control module, the heating module is to heat the air at second inlet and outlet;Temperature sensing module is set to the heat dissipation bottom
In seat, it is coupled to the control module, to sense the current temperature value at second inlet and outlet.
Preferably, the control module further include: control unit, the control unit is to be arranged at second inlet and outlet
Temperature preset value;Wherein, the control module is also to control second wind according to the current temperature value and the temperature preset value
The revolving speed of module is fanned, and/or opening or closing for the heating module is controlled according to the current temperature value and the temperature preset value.
Preferably, the display device is also to show the current temperature value and/or the temperature preset value is arranged.
Preferably, the display device further include: heat-conductive assembly, the heat-conductive assembly are arranged close to the pyrotoxin, this is thermally conductive
Component is located on the first path, second path, the third path and the 4th path.
Preferably, the display device is connect by connector with the heat dissipation base, which includes hollow pipeline structure
Using as the airflow channel.
Preferably, the cooling system further include: fan swicth module is set to the heat dissipation base, to control this first
Blower module and/or the second blower module open or close.
Compared with prior art, the cooling system of display device provided by the invention both can by the first blower module and
Concatenated first path air-flow and third path air-flow caused by second blower module by display device heat discharge in
First inlet and outlet, while can also pass through concatenated second path air-flow caused by the first blower module and the second blower module
And the 4th path air-flow by display device heat be discharged in the second inlet and outlet.Wherein, it is incited somebody to action when by the second inlet and outlet
When heat is discharged, heat be can be directly to up at the user for facing display device, and under the working environment of low temperature, user is by dissipating
The heat that hot pedestal is discharged is warmed oneself, then without being warmed oneself by other heating installations.In addition, by the first blower module and
Heat source effectively can be led display equipment by the mutual cooperation between path air-flow caused by the second blower module, heat-conductive assembly
The heat dissipation base of lower section.Heat in display device can be sufficiently discharged, while secondary use can be carried out to heat again, reached
Energy-saving and environment-friendly purpose is arrived.
Detailed description of the invention
Fig. 1 is the module diagram for the cooling system that the application first embodiment provides;
Fig. 2 is the structural schematic diagram for the cooling system that the application first embodiment provides;
Fig. 3 is the structural schematic diagram for the cooling system that another embodiment of the application provides;
The guiding schematic diagram of each path air-flow in the cooling system that Fig. 4 provides for the application first embodiment;
Fig. 5 is the module diagram for the cooling system that another embodiment of the application provides.
Specific embodiment
To make to have further understanding to the purpose of the present invention, construction, feature and its function, hereby cooperate embodiment detailed
It is described as follows.
Some vocabulary is used in specification and claims to censure specific component.Have in fields
Usual skill is, it is to be appreciated that manufacturer may call the same component with different nouns.This specification and right are wanted
Ask book not in such a way that the difference of title is as component is distinguished, but with the difference of component functionally as differentiation
Criterion.Mentioned " comprising " is open term throughout the specification and claims, therefore should be construed to " including but
It is not limited to ".
Referring to Figure 1, Fig. 2, Fig. 3 and Fig. 4, Fig. 1 are the mould of the cooling system of display device provided by the embodiments of the present application
Block schematic diagram;Fig. 2 is the structural schematic diagram of the cooling system 10 of display device 100 provided by the embodiments of the present application;Fig. 3 is this Shen
It please the structural schematic diagram of the cooling system 10 of display device 100 that provides of another embodiment;Fig. 4 is provided by the embodiments of the present application
The guiding schematic diagram of each path air-flow in cooling system 10.The application provides a kind of cooling system 10 of display device 100,
Include: the display device 100 for including pyrotoxin 110, is connected to the heat dissipation base 300 of 100 bottom of display device, heat dissipation base
300 are formed with airflow channel with the junction of display device 100.Wherein, display device 100 include the first blower module 120 and
First inlet and outlet 130, heat dissipation base 300 include the second blower module 310 and the second inlet and outlet 320.First blower module
120 to generate first path air-flow and/or the second path air-flow, and the second blower module 310 is to generate third path air-flow
And/or the 4th path air-flow.As shown in figure 4, first path and the second path are substantially oppositely arranged, third path and the 4th tunnel
Diameter is substantially oppositely arranged, and first path air-flow and third paths in series cooperate, and third path air-flow is from bottom end by heat
It guides to first path, then heat is discharged from the first inlet and outlet 130 in display device 100 by first path air-flow;And the
The mutual cooperation that can connect same as the 4th path air-flow produced by the second blower module 310 of two path air-flows, passes through the second tunnel
Diameter air-flow guides heat to airflow channel, then is ultimately discharged by the 4th path air-flow guidance heat to the second inlet and outlet 320
Outside heat dissipation base 300.In practical application, heat dissipation base 300 is formed by airflow channel in junction with display device 100 can
To be the interface channel being independently arranged, it is also possible to be formed by the internal structure of display device 100 or heat dissipation base 300
's.Due to being equipped with the first blower module 120 in display device 100, and heat dissipation base 300 is set to 100 bottom of display device,
It, can by the cooperation between the first blower module 120 and the second blower module 310 when being radiated using heat dissipation base 300
Heat inside display device 100 is sufficiently discharged in outside heat dissipation base 300;Similarly, passing through the first of 100 end of display device
When inlet and outlet 130 is radiated, the cooperation that can equally pass through between the first blower module 120 and the second blower module 310 will
Heat in display device 100 is sufficiently discharged in display device 100.Preferably, display device 100 passes through with heat dissipation base 300
Connector 200 connects, and connector 200 is hollow pipeline structure, such as hollow steel pipe or other duct types with hollow section
Structure, so as to form the airflow channel between heat dissipation base 300 and display device 100, by the company that hollow pipeline structure is arranged
Fitting 200 can ensure that heat is concentrated by the second blower module 310 and extract to be utilized again.
The cooling system 10 of display device 100 provided herein can both pass through the first blower module 120 and second
Heat in display device 100 is discharged in first first path air-flow and third path air-flow caused by blower module 310
Inlet and outlet 130, while can also pass through the second path air-flow caused by the first blower module 120 and the second blower module 310
And the 4th path air-flow by display device 100 heat be discharged in the second inlet and outlet 320.Wherein, due to heat dissipation base 300
It is set to the bottom of display device 100, when heat is discharged by the second inlet and outlet 320, heat can be directly to reach and face
At the user of display device 100, under the working environment of low temperature, user is carried out by the heat that heat dissipation base 300 is discharged
Heating, then without being warmed oneself by other heating installations.In addition, being produced by the first blower module 120 and the second blower module 310
The heat in display device 100 sufficiently can be discharged for mutual cooperation between raw path air-flow, while again can be to heat
Secondary use is carried out, energy-saving and environment-friendly purpose has been reached.
In one embodiment, the pyrotoxin 110 in display device 100 is mainly backlight (e.g. light emitting diode
Fluorescent tube (LED light bar)) and backlight drive integrated circuit, backlight and backlight drive integrated circuit are in working condition
Under can generate more heat transfer.The first blower module 120 and the first inlet and outlet 130 in display device 100 are departing from aobvious
The setting of display screen curtain.Preferably, the top of the first blower module 120 and the first inlet and outlet 130 close to display device 100 is set
It sets, the heat in display device 100 adequately can be guided to airflow channel, or can will be in display device 100
Heat adequately detach in display device 100;Optionally, the first blower module 120 includes two fans, is respectively arranged at aobvious
The back side or side of two upsides of showing device.Second inlet and outlet 320 is then in ipsilateral side with display screen.It can be with
Understand, user is before the stroke devices such as keyboard, mouse are placed in display screen by office often, by the second inlet and outlet
320 are arranged in the same direction with display screen, and under the working environment of low temperature, user can be then discharged by the second inlet and outlet 320
Heat achieve the effect that warm hand.It optionally, can be to user by adjusting the different outlet air directions of the second inlet and outlet 320
The different parts of body heat.
In one embodiment, the first blower module 120 includes the first bidirectional fan, and the second blower module 310 includes the
Two bidirectional fans pass through the second bidirectional fan by the first bidirectional fan to switch first path air-flow or the second path air-flow
To switch third path air-flow or the 4th path air-flow.Optionally, the first blower module 120 can also can produce difference by two groups
The fan of path air-flow forms, wherein one group of fan is to generate first path air-flow, and another group of fan is to generate the second tunnel
Diameter air-flow switches opening or closing for its two groups of fans by switching circuit.Similarly, the second blower module 310 equally can be by
Two groups of fans that can produce different path air-flows form, and details are not described herein.
Fig. 5 is referred to, Fig. 5 is the module diagram for the cooling system 10 that another embodiment of the application provides.In a reality
It applies in example, heat dissipation base 300 further includes heating module 350 and temperature sensing module 360.Heating module 350 close to second
Inlet and outlet 320 is arranged, and to generate thermal energy so that the second blower module 310 extracts, sets close to the second inlet and outlet 320
Avoidable hot-air when heated is set to rise in display device 100.Under the working environment of low temperature, if user still needs to warm oneself,
And temperature provided by the heat after the heat in display device 100 has been fully utilized or in display device 100 is not enough to
When user warms oneself, heat dissipation base 300 by heating module 350 persistently generates heat and by the second blower module 310 and the
The guidance of two inlet and outlets 320 is sentenced to user warms oneself for user.Temperature sensing module 360 is set in heat dissipation base 300, to
Sense at the second inlet and outlet 320 temperature.Preferably, temperature sensing module 360 can be coupled to heating module 350, work as sensing
When the temperature arrived sets minimum threshold lower than user, control module 330 controls the unlatching of heating module 350 and is heated;Conversely, working as
When the temperature sensed is higher than max-thresholds set by user, 330 heating module 350 of control module is closed to stop heating.Such as
This can guarantee user when being warmed oneself by heat dissipation base 300, heating temperature provided by heat dissipation base 300 it is not too high or
It is too low.Specifically, above-mentioned heating module 350 can be electric heating bar, electrothermal resistance silk, heater wire or other can electric heating portion
Part, as long as being able to achieve quickly heating.Above-mentioned temperature sensing module 360 can be thermistor, be also possible to thermocouple, etc.
Deng invention is not limited thereto.Temperature sensing module 360 can be set at the second inlet and outlet 320 to sense the second disengaging
Current temperature value at air port 320.
As shown in figure 5, in one embodiment, heat dissipation base 300 further includes control module 330, control module 330 is coupled
In the first blower module 120 and the second blower module 310, wherein control module 330 includes switch unit 3303, switch unit
3303 generate first path air-flow or the second path air-flow to switch the first blower module 120, and to switch second
Blower module 310 generates third path air-flow or the 4th path air-flow.Switch unit 3303 passes through the first blower module of switching
120 and second air-flow caused by blower module 310, so that heat can be discharged by different inlet and outlets.Preferably, it cuts
First path air-flow can be generated by key or the first blower module of switch control 120 by changing unit 3303, meanwhile, the second fan
Module 310 generates third path air-flow, so that first path air-flow is connected with the completion of third path air-flow, so that heat is logical
Cross the discharge of the first inlet and outlet 130;Similarly, the second path air-flow is generated when switch unit 3303 controls the first blower module 120
When, the second blower module 310 generates the 4th path air-flow, and completes connecting for the second path air-flow and the 4th path air-flow, makes
It obtains heat and passes through the discharge of the second inlet and outlet 320.It is set in the form of key or switch etc. specifically, switch unit 3303 can be
It is placed on heat dissipation base 300, key or switch can have first state and the second state, when triggering its first state, first
Path air-flow is connected with third path air-flow;Conversely, when triggering its second state, the second path air-flow and the 4th path air-flow string
Connection.
In another embodiment, control module 330 is further coupled to above-mentioned temperature sensing module 360 and heating module 350,
Control module 330 can according at the second inlet and outlet 320 temperature preset value and the second inlet and outlet 320 current temperature value
The revolving speed of the second blower module 310 is controlled, and/or temperature preset value and current temperature value according at the second inlet and outlet 320
Control heating module 350 opens or closes.Specifically, control module 330 includes control unit 3301 and display unit 3302,
The temperature preset value at the second inlet and outlet 320 can be arranged in user by control unit 3301, and straight by display unit 3302
Connect the current temperature value at observation set temperature preset value and the second inlet and outlet 320.It is understood that control mould
Block 330 can also include control circuit, and control circuit is according to the setting relationship between temperature preset value and current temperature value into one
Step the second revolving speed of blower module 310 of control and/or opening or closing for heating module 350, at the second inlet and outlet 320
When current temperature value is higher than temperature preset value, control circuit control improves the revolving speed of the second blower module 310, on the contrary then reduce by the
The revolving speed of two blower modules 310;Similarly, when the current temperature value at the second inlet and outlet 320 is higher than temperature preset value, control
Circuit control closes heating module 350 and stops heating, on the contrary then control heating module 350 and keep it turned on continuous heating.Tool
Body, control unit 3301 is set to heat dissipation base 300 in the form of key, and user can adjust temperature preset value by key.
Specifically, adjustment can be stepped up by increase key progress temperature preset value, it is pre- by reducing key progress temperature
If value is stepped down by adjustment;Further, increase key and reduce the key that key can be identified with "+" and "-" for one group,
Alternatively, being one group of key being identified with to upward arrow or down arrow, invention is not limited thereto.Display unit 3302 is LCD
Or LED display or other kinds of display screen, as long as can be shown i.e. to temperature preset value or current temperature value
It can.
In one embodiment, heat dissipation base 300 further includes fan swicth module 340, and fan swicth module 340 is set to
Heat dissipation base 300, user can control the first blower module 120 and/or the second blower module 310 by fan swicth module 340
Open or close.Preferably, fan swicth module 340 can also be used to control opening or closing for heating module 350, in order to
User directly controls to the first blower module 120, the second blower module 310 and 350 switch state of heating module.Fan
Switch module 340 may include at least one of soft-touch control, key switch or multi-gear switch switch, fan swicth mould
Block 340 can be the switch control of the first blower module 120, the second blower module 310 and heating module 350 and individually control
System, it is also possible to that the first blower module 120, the second blower module 310 and heating module 350 are synchronized and opened or closed
Control.
In one embodiment, heat-conductive assembly 140 is additionally provided in display device 100, heat-conductive assembly 140 is set to two groups of wind
It fans on first path, the second path, third path and the 4th path of air-flow produced by module.Preferably, heat-conductive assembly 140
It is connected with pyrotoxin 110, heat caused by pyrotoxin 110 is fully absorbed by heat-conductive assembly with this.In addition, thermally conductive group
The part being located on each air-flow in part 140 may be configured as fin structure, be arranged so that the first blower module 120 and second
When blower module 310 is worked, first, second, third caused by the first blower module 120 and the second blower module 310
And the 4th path air-flow can sufficiently carry the heat that heat-conductive assembly 140 is absorbed, improve the thermal diffusivity of heat dissipation base 300
Energy.Specifically, heat-conductive assembly 140 can be made by the Heat Conduction Materials such as copper sheet, can also be by other heating conductions compared with
Strong Heat Conduction Material is made, and this is not restricted.
In one embodiment, display device 100 is coupled to heat dissipation base 300 and realizes display device 100 and heat dissipation bottom
Data communication between seat 300, so that display device 100 can read the current temperature value at the second inlet and outlet 320, and leads to
Display device 100 is crossed to be configured temperature preset value.Preferably, display device 100 can pass through screen menu type regulative mode
Current temperature value that (On-Screen Display, OSD) is checked at the second inlet and outlet 320 simultaneously sets temperature preset value
It sets.User can according to the display device 100 directly read at the second inlet and outlet 320 current temperature value, can also pass through display dress
The OSD in 100 is set to the temperature preset value at the second inlet and outlet 320 of setting.Optionally, heat dissipation base 300 and display device
Data communication can be carried out between 100 by way of wirelessly or non-wirelessly.When heat dissipation base 300 and display device 100 pass through wirelessly
Mode when carrying out data communication, be additionally provided with radio receiving transmitting module (not being painted in figure), wireless receiving and dispatching mould in heat dissipation base 300
Block can also provide wireless network signal in addition to for carrying out data communication with display device 100 for user.
Compared with prior art, cooling system 10 provided by the present application passes through the first blower module 120 and the second fan mould
The heat in display device 100 sufficiently can be discharged for the set-up mode of block 310, excellent in heat dissipation effect, effectively increase display dress
Set 100 service life and reliability.In the environment of low temperature, heat dissipation base 300, which guides heat to user, to be sentenced for user
Heating, has reached energy-saving and environment-friendly purpose, and heat dissipation base 300 can also pass through heating module 350, temperature sensing module 360 and control
Cooperation between molding block 330 persistently heats to user.In addition, user can also pass through heat dissipation base 300 or display device 100
Observe the temperature preset value at the second inlet and outlet at the second inlet and outlet 320 of 320 current temperature value and setting.
The present invention is described by above-mentioned related embodiment, however above-described embodiment is only to implement example of the invention.
It must be noted that the embodiment disclosed is not limiting as the scope of the present invention.On the contrary, do not depart from spirit of the invention and
It is changed and retouched made by range, belongs to scope of patent protection of the invention.
Claims (10)
1. a kind of cooling system of display device, which is characterized in that the cooling system includes:
Display device, the display device include pyrotoxin;
Heat dissipation base is connected to the display device bottom;And
Airflow channel is connected to the heat dissipation base and the display device;
Wherein, which includes: the first blower module and the first inlet and outlet, and first blower module is to generate first
Path air-flow and/or the second path air-flow, the first path air-flow to by heat caused by the pyrotoxin by this first
The display device is discharged in inlet and outlet, and the second path air-flow is guiding the heat to the airflow channel;
The heat dissipation base includes: the second blower module and the second inlet and outlet, and second blower module is to generate third path
Air-flow and/or the 4th path air-flow, the third path air-flow is guiding the heat to the first path, the 4th path gas
To guide the heat by second inlet and outlet from the airflow channel heat, the heat dissipation base is discharged in the heat to stream.
2. the cooling system of display device as described in claim 1, which is characterized in that the display device further includes display screen
Curtain, first inlet and outlet are arranged departing from the display screen, which is set in the heat dissipation base aobvious with this
In the ipsilateral side of display screen curtain.
3. the cooling system of display device as described in claim 1, which is characterized in that first blower module includes first pair
To fan, which includes the second bidirectional fan.
4. the cooling system of display device as described in claim 1, which is characterized in that the heat dissipation base further include:
Control module, which is coupled to first blower module and second blower module, the control module include:
Switch unit, the switch unit generate the first path air-flow or the second path gas to switch first blower module
Stream, and switch second blower module and generate the third path air-flow or the 4th path air-flow.
5. the cooling system of display device as claimed in claim 4, which is characterized in that the heat dissipation base further include:
Heating module is arranged close to second inlet and outlet, and is coupled to the control module, and the heating module is to heat this
Air at second inlet and outlet;
Temperature sensing module is set in the heat dissipation base, is coupled to the control module, to sense at second inlet and outlet
Current temperature value.
6. the cooling system of display device as claimed in claim 5, which is characterized in that the control module further include:
Control unit, the control unit is to be arranged the temperature preset value at second inlet and outlet;
Wherein, the control module is also to control second blower module according to the current temperature value and the temperature preset value
Revolving speed, and/or opening or closing for the heating module is controlled according to the current temperature value and the temperature preset value.
7. the cooling system of display device as claimed in claim 6, which is characterized in that the display device is also deserved to show
Preceding temperature value and/or the temperature preset value is set.
8. the cooling system of display device as described in claim 1, which is characterized in that the display device further include:
Heat-conductive assembly, the heat-conductive assembly are arranged close to the pyrotoxin, which is located at the first path, second tunnel
On diameter, the third path and the 4th path.
9. the cooling system of display device as described in claim 1, which is characterized in that the display device is by connector and is somebody's turn to do
Heat dissipation base connection, the connector include hollow pipeline structure using as the airflow channel.
10. the cooling system of display device as described in claim 1, which is characterized in that the cooling system further include:
Fan swicth module is set to the heat dissipation base, to control opening for first blower module and/or the second blower module
It opens or closes.
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CN201811358374.5A CN109375748A (en) | 2018-11-15 | 2018-11-15 | The cooling system of display device |
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CN201811358374.5A CN109375748A (en) | 2018-11-15 | 2018-11-15 | The cooling system of display device |
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Cited By (1)
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CN112394773A (en) * | 2020-10-28 | 2021-02-23 | 安擎(天津)计算机有限公司 | Server cabinet system |
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CN206181682U (en) * | 2016-09-26 | 2017-05-17 | 珠海格力电器股份有限公司 | Mobile terminal |
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US20060133031A1 (en) * | 2003-01-22 | 2006-06-22 | Fujitsu Limited | Information processor |
CN205608646U (en) * | 2016-03-11 | 2016-09-28 | 飞捷科技股份有限公司 | Electronic device |
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Application publication date: 20190222 |