CN105682414B - A kind of radiator, heat dissipating method and electronic equipment - Google Patents

Abstract

The invention discloses a kind of radiator, heat dissipating method and electronic equipments, the object that the radiator is used to treat heat dissipation carries out radiating treatment, the radiator includes basal layer and heat dissipating layer, the radiator is mutually sticked with the object, and the heat of the object is transferred to the heat dissipating layer by the basal layer；Wherein, the heat dissipating layer includes the radiating area to radiate to the object, and the radiating area is made of color with the material that own temperature changes and changes.Radiator in the present embodiment is while radiating to object to improve electronic product service life and improve the user experience, the current temperature status of object can be showed into user with the formal intuition that color is shown, bring the completely new visual experience of user.

Description

A kind of radiator, heat dissipating method and electronic equipment

Technical field

The present invention relates to equipment cooling technical field, in particular to a kind of radiator, heat dissipating method and electronic equipment.

Background technique

In the operational process of electronic product, the operation of the components such as mainboard can generate corresponding power consumption, so that electronic product The case where generating heat in use.

And continuous high temperature of the electronic product in its use process, it can not only reduce service life and the user of electronic product Using the usage experience of electronic product, and user can only go to experience locating for the Current Temperatures of electronic equipment by limbs such as fingers Range can not intuitively obtain the temperature conditions of electronic product in use.

Summary of the invention

The object of the present invention is to provide a kind of radiator, heat dissipating method and electronic equipments, to solve the prior art Continuous high temperature of the middle electronic product in its use process can reduce the service life of electronic product and influence user using electronics The technical issues of usage experience of product, and solution user can only go to experience the current temperature of electronic equipment by limbs such as fingers The technical issues of spending locating range, can not intuitively obtaining the temperature conditions of electronic product in use.

The present invention provides a kind of radiators, and the object for treating heat dissipation carries out radiating treatment, the heat dissipation dress It sets including basal layer and heat dissipating layer, the radiator is mutually sticked with the object, and the heat of the object passes through described Basal layer is transferred to the heat dissipating layer；

Wherein, the heat dissipating layer includes the radiating area to radiate to the object, and the radiating area is color with certainly Body temperature change and the material changed is made.

Above-mentioned radiator, it is preferred that the radiating area includes multiple heat dissipation subregions, each heat dissipation subregion point It is not pasted on a fever subregion in the object, the heat of each fever subregion passes through the basal layer It is transferred to its corresponding heat dissipation subregion, each heat dissipation subregion can be respectively to its corresponding fever sub-district Domain is radiated, and each heat dissipation subregion is the thermo-sensitive material system that color can change with the temperature change of its own At.

Above-mentioned radiator, it is preferred that the heat-sensitive coefficients of each heat dissipation subregion are identical, so that each heat dissipation The color of subregion is corresponding with its corresponding fever Current Temperatures of subregion.

Above-mentioned radiator, it is preferred that the temperature varying coefficient of each fever subregion has linear ratio relation；

Wherein, the temperature change system of the heat-sensitive coefficients of each heat dissipation subregion and its corresponding fever subregion Number has corresponding relationship, so that the color of all heat dissipation subregions is corresponding with the highest fever subregion of current temperature value Heat dissipation subregion color keep it is consistent.

Above-mentioned radiator, it is preferred that the radiating area includes a heat dissipation subregion and is different from the heat dissipation subregion Display subregion, the heat dissipation subregion is pasted on a fever subregion of the object, the fever subregion Heat the heat dissipation subregion is transferred to by the basal layer, the heat dissipation subregion can be to its corresponding fever sub-district Domain is radiated, and the thermo-sensitive material that the heat dissipation subregion can be changed by color with the temperature change of its own is made, institute It states display subregion and is used to show the color consistent with heat dissipation the presented color of subregion.

The present invention also provides a kind of heat dissipating methods, comprising:

Heat dissipating layer is sticked on basal layer；

The basal layer for sticking the heat dissipating layer is sticked on object, the heat of the object passes through the basis Layer is transferred to the heat dissipating layer；

Wherein, the heat dissipating layer includes the radiating area to radiate to the object, and the radiating area is color with certainly Body temperature change and the material changed is made.

The above method, it is preferred that described to stick on heat dissipating layer on basal layer, comprising:

Radiating area in the heat dissipating layer is divided into multiple heat dissipation subregions, each heat dissipation subregion respectively corresponds A fever subregion in the object；

The heat-sensitive coefficients of each heat dissipation subregion are set；

The heat dissipating layer is sticked on the basal layer, enable each heat dissipation subregion respectively to its respectively Corresponding fever subregion radiates, and each heat dissipation subregion is that color can change with the temperature change of its own Thermo-sensitive material be made.

The above method, it is preferred that the temperature varying coefficient of each fever subregion has linear ratio relation；

Wherein, the heat-sensitive coefficients of each heat dissipation subregion of the setting, comprising:

The heat-sensitive coefficients that each heat dissipation subregion is arranged are identical, so that each heat dissipation subregion sticks on it respectively Color when self-corresponding fever subregion is corresponding with its corresponding fever Current Temperatures of subregion；

Or

The heat-sensitive coefficients of each heat dissipation subregion and the temperature change system of its corresponding fever subregion are set Number has corresponding relationship, so that color of all heat dissipation subregions when sticking on its corresponding fever subregion The color keep of heat dissipation subregion corresponding with the highest fever subregion of current temperature value is consistent.

The above method, it is preferred that described to stick on heat dissipating layer on basal layer, comprising:

The space environment that temperature value is greater than or equal to preset temperature threshold is set；

In the space environment, by the heat dissipating layer and the basal layer by embossing operation, so that the heat dissipating layer It is mutually sticked with the basal layer.

The present invention also provides a kind of electronic equipment, sticks on the electronic equipment and dissipated just like described in above-mentioned any one Thermal.

By above scheme it is found that a kind of radiator, heat dissipating method and electronic equipment provided by the invention, lead in the present invention It crosses and heat dissipating layer and basal layer, when so that the radiator being sticked on object, the heat of object is set in radiator It can be transferred to heat dissipating layer by basal layer, and can be color to the radiating area that object radiates in heat dissipating layer with certainly Made of the variation of body temperature and the material that changes, the radiator in the present invention radiates to object to mention as a result, High electronic product service life and while improve the user experience, can be with the formal intuition that color is shown by object Current temperature status show user, bring the completely new visual experience of user.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The embodiment of invention for those of ordinary skill in the art without creative efforts, can also basis The attached drawing of offer obtains other attached drawings.

Fig. 1 is a kind of structural schematic diagram of radiator embodiment one provided by the invention；

Fig. 2 to Fig. 4 is respectively the exemplary diagram of the embodiment of the present invention；

Fig. 5 is a kind of partial structure diagram of radiator embodiment two provided by the invention；

Fig. 6 to Fig. 8 is respectively other exemplary diagrams of the embodiment of the present invention；

Fig. 9 is a kind of partial structure diagram of radiator embodiment three provided by the invention；

Figure 10 is a kind of flow chart of heat dissipating method example IV provided by the invention；

Figure 11 is a kind of partial process view of heat dissipating method embodiment five provided by the invention；

Figure 12 is a kind of partial process view of heat dissipating method embodiment six provided by the invention；

Figure 13 is the structural schematic diagram of a kind of electronic equipment embodiment seven provided by the invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

It is a kind of structural schematic diagram of radiator embodiment one provided by the invention, wherein the present embodiment with reference to Fig. 1 In radiator can treat heat dissipation object carry out radiating treatment, goal object can be electronic equipment such as hand Machine, pad, notebook or desktop computer etc..

As shown in fig. 1, the radiator in the present embodiment may include having double-layer structure:

Basal layer 1 and heat dissipating layer 2, the radiator in the present embodiment in use, can be straight by the basal layer 1 It connects and sticks on the object 3 to be radiated, the radiator in the present embodiment is affixed with the object 3 It applies, the heat on the object 3 can be transferred to the heat dissipating layer 2 by the basal layer 1 as a result, as shown in Figure 2.

It should be noted that between the basal layer 1 and the heat dissipating layer 2 stick can by under high temperature environment into Row embossing processing, two layers is tightly sticked together.

It wherein, include the radiating area 4 that can be radiated to the object 3 in the heat dissipating layer 2, such as institute in Fig. 3 Show, that is to say, that be not that all areas are required to correspond to it in 3 region of object that basal layer 2 is sticked in the heat dissipating layer 2 It radiates, therefore, in the present embodiment, local region can be set in the heat dissipating layer 2, such as the radiating area 4, it is right It radiates in the region for needing to radiate in the object 3.

It should be noted that made of the material that the radiating area 4 can change for color with its own temperature change, That is, when the heat on the object 3 is transferred to the heat dissipating layer 2 by the basal layer 1, the heat dissipating layer 2 In the heat that can receive by it of radiating area 4 variation in temperature occurs, and then the color of the radiating area 4 can be because of its own temperature The variation of degree generates corresponding color change.

For example, the radiating area 4 is colourless when the Current Temperatures of its own are 0 degree；The radiating area 4 is at its own Current Temperatures be 20 degree when, for green；The radiating area 4 is orange when the Current Temperatures of its own are 40 degree；It is described to dissipate Hot-zone 4 is red, etc. when the Current Temperatures of its own are 80 degree.

When sticking on the object 3, user can intuitively observe the radiator in the present embodiment as a result, The current color of radiator brings the completely new visual experience of user to know the Current Temperatures on the object 3.It is same with this When, the radiator in the present embodiment radiates to the object 3 by the radiating area 4 in heat dissipating layer 2, suitably to reduce institute The heat on object 3 is stated, ensures the service life of the object 3 to a certain extent, in addition, reducing the object 3 On heat after be substantially reduced the Contact Temperature for directly contacting the operating body of user of the object 3, hence it is evident that improve making for user With experience.

By taking the object 3 is laptop as an example, basal layer 1 and the heat dissipating layer 2 in the radiator are pasted While the radiating area 4 applied in the face A and the face C of the laptop, the heat dissipating layer 2 radiates to the face A and the face C, with The variation for changing to show the temperature in the face A and the face C of color brings the intuitive completely new visual experience of user, as shown in Figure 4.

By above scheme it is found that a kind of radiator embodiment one provided by the invention, by radiating in the present embodiment Dress centers heat dissipating layer and basal layer, and when so that the radiator being sticked on object, the heat of object can pass through Basal layer is transferred to heat dissipating layer, and can be color with own temperature to the radiating area that object radiates in heat dissipating layer Variation and change material made of, the radiator in the present embodiment radiates to object to improve electronics as a result, Product service life and while improve the user experience, can be with the formal intuition that color is shown by the current of object State of temperature shows user, brings the completely new visual experience of user.

In the concrete realization, the object may be building etc., same or human body certain positions, such as The forehead etc. of child intuitively shows Current Temperatures while appropriate heat dissipation, the reference information as disease processing.

It is the structural schematic diagram of radiating area 4 described in a kind of radiator embodiment two provided by the invention with reference to Fig. 5, In, it may include having multiple heat dissipation subregions 5 in the radiating area 4.

Wherein, each heat dissipation subregion 5 corresponds respectively to a fever subregion 6 in the object, so that Each heat dissipation subregion 5 is pasted on it respectively on corresponding fever subregion 6, as shown in Figure 6, so that each respectively The heat of the fever subregion 6 is transferred on its corresponding heat dissipation subregion 5 by the basal layer 1, and then by every A heat dissipation subregion 5 can respectively radiate to its corresponding fever subregion 6, meanwhile, each heat dissipation Subregion 5 is made of the thermo-sensitive material that color can change with its own temperature change.

It should be noted that the division to the heat dissipation subregion 5 each in the radiating area 4, it can be according to radiating area 4 The temperature variations of the hot zone of corresponding object 3 carry out subregion, for example, range of temperature in hot zone is maximum Region division is a fever subregion 6, and the fever subregion 6 corresponding region division in the radiating area 4 is the fever The corresponding heat dissipation subregion 5 of subregion 6；It is a fever subregion by the smallest region division of range of temperature in hot zone 6, the fever subregion 6 corresponding region division in the radiating area 4 is the corresponding heat dissipation subregion 5 of fever subregion 6.

Wherein, each heat dissipation subregion 5 is made of thermo-sensitive material, as a result, in the corresponding hair of the heat dissipation subregion 5 When the temperature in heater region 6 increases, corresponding heat dissipation subregion 5 can darken, such as become orange or red from colourless, in turn It improves the heat emissivity coefficient of the heat dissipation subregion 5, enhances heat sinking function, realize the heat dissipation purpose to the object 3, while with Color characterizes the Current Temperatures of the object corresponding region.

In the specific implementation, the heat-sensitive coefficients of each heat dissipation subregion 5 are identical, so that each heat dissipation subregion 5 Color it is corresponding with its corresponding fever Current Temperatures of subregion, that is to say, that each heat dissipation subregion 5 is right Temperature change causes the response of color change to be consistent, such as: each heat dissipation subregion 5 respective itself is worked as at its Preceding temperature be 20 degree when be green, it is each it is described heat dissipation subregion 5 its it is respective itself Current Temperatures be 40 degree when it is equal To be orange, each heat dissipation subregion 5 is red, etc., Jin Eryou when its itself respective Current Temperatures is 80 degree In the color of fever subregion 6 described each of on the object 3, in synchronization, there may be differences, so that entire described The color of the heat dissipation subregion 5 may be different each of in heat dissipating layer area 4, for example, the Current Temperatures of heat dissipation subregion x1 are 20 degree, the Current Temperatures for the subregion x2 that radiates may be 40 degree, and the Current Temperatures for the subregion x3 that radiates may be 80 degree, as a result, Corresponding color is respectively as follows: green G, orange O and red R, as shown in Figure 7, hereby it is achieved that in the object 3 it is each not The temperature of same fever subregion 6 is shown to user in the form of intuitive.

In addition, each of on the object 3 it is described fever subregion 6 temperature varying coefficient between be with linear ratio Example relationship, for example, the temperature of fever subregion y2 is 40 degree when the temperature of fever subregion y1 is 80 degree, corresponding fever The temperature of region y3 is 20 degree；And the temperature for the subregion y1 that generates heat be 40 degree when, fever subregion y2 temperature be 20 degree, accordingly The temperature of fever subregion y3 is 10 degree；Correspondingly, and the temperature for the subregion y1 that generates heat be 20 degree or less when, fever subregion y2 Temperature be 10 degree hereinafter, accordingly fever subregion y3 temperature be 0 degree, etc..In the present embodiment, each heat dissipation The heat-sensitive coefficients in region 5 may be different, but have corresponding close with the temperature varying coefficient of its corresponding fever subregion 6 System, so that at temperature changed each moment of the object, the color of all heat dissipation subregions 5 is and currently The color keep of the corresponding heat dissipation subregion of the highest fever subregion 6 of temperature is consistent, so that the integral color of the radiating area 4 For same color, and characterize in the object 3 that temperature change is maximum or the highest fever subregion 6 of current temperature value it is current Temperature value.

For example, each of on the object 3 temperature of the fever subregion 6 in synchronization there may be difference, When the temperature of subregion y1 of such as generating heat is 80 degree, the temperature of fever subregion y2 is 40 degree, the temperature of corresponding fever subregion y3 It is 20 degree, temperature varying coefficient has proportionate relationship, when the temperature for the subregion y1 that such as generates heat is 80 degree, fever subregion y2's Temperature is 40 degree, and the temperature of the corresponding subregion y3 that generates heat is 20 degree；And the temperature for the subregion y1 that generates heat be 40 degree when, generate heat sub-district The temperature of domain y2 is 20 degree, and the temperature of the corresponding subregion y3 that generates heat is 10 degree；Correspondingly, and the temperature for the subregion y1 that generates heat is 20 When below degree, the temperature of fever subregion y2 is 10 degree hereinafter, accordingly the temperature of fever subregion y3 is 0 degree, etc..This implementation The heat-sensitive coefficients of each corresponding heat dissipation subregion 5 of fever subregion 6 are correspondingly arranged in example, so that same Engrave for the moment, temperature change caused by heat that each heat dissipation subregion 5 transmits its corresponding fever subregion 6 into Color keep after row response is consistent, for example, the temperature-sensitive system of the corresponding heat dissipation subregion z1 of the setting fever subregion y1 Number: for Current Temperatures for 20 degree the following are green is presented when colourless and 20 degree, orange, Current Temperatures are presented when being 40 degree in Current Temperatures Present red when being 80 degree, it is that temperature change is maximum or at a time temperature value that fever subregion y1, which is in the radiating area 4, Highest region, therefore, in the present embodiment with the heat-sensitive coefficients for the subregion y1 that generates heat be arranged other fever subregions it is corresponding dissipate The heat-sensitive coefficients in heater region, such as: the heat-sensitive coefficients of the corresponding heat dissipation subregion z2 of the setting fever subregion y2: current Temperature is 10 the following are colourless and green is presented at 10 degree, Current Temperatures presented when being 20 degree it is orange, when Current Temperatures are 40 degree Red is presented, and so on, heat-sensitive coefficients of the corresponding heat dissipation subregions such as other fever subregions are configured, as a result, The color that all heat dissipation subregions 5 on synchronization, the radiating area 4 are presented is same color, as shown in Figure 8, When the fever subregion y1 is 40 degree, color that corresponding heat dissipation subregion z1 is presented be it is orange, at this point, the hair Heater region y2 is 20 degree, and the color that corresponding heat dissipation subregion z2 is presented is similarly orange, others fever subregion The presented color of corresponding heat dissipation subregion be equally it is orange, finally make all heat dissipation subregions on the radiating area 4 Color keep it is consistent, to characterize, temperature change in the object 3 is maximum or the temperature in certain highest region of a moment temperature becomes Change situation, such as the position the CPU corresponding region in electronic equipment.

In addition, based on the above embodiment, the figure for meeting user demand can be fabricated in the present embodiment to the radiating area 4 Case design, to realize when temperature change occurs in the object 3, the radiating area 4 of the radiator can show same The pattern of color increases user experience.

In addition, in order to equally reach presented solid colour in the radiating area 4, and it is maximum or a certain to characterize temperature change A heat dissipation subregion 5 and difference can be arranged in the purpose for carving the temperature variations in the highest region of temperature in radiating area 4 In the display subregion 7 of the heat dissipation subregion 5, with reference to Fig. 9, for institute in a kind of radiator embodiment three provided by the invention State the structural schematic diagram of radiating area 4, wherein the heat dissipation subregion 5 is pasted on a fever subregion 6 of the object 3 On, the heat of the fever subregion 6 is transferred to the heat dissipation subregion 5, the heat dissipation subregion 5 by the basal layer 1 It can radiate to its corresponding fever subregion 6, the heat dissipation subregion 5 is that color can be with its own temperature change And the thermo-sensitive material changed is made, the display subregion 7 is consistent with heat dissipation the presented color of subregion for showing Color, realize the present embodiment purpose.

It is a kind of flow chart of heat dissipating method example IV provided by the invention, wherein the heat dissipating method with reference to Figure 10 It may comprise steps of:

Step 1001: heat dissipating layer is sticked on basal layer.

Step 1002: the basal layer for sticking the heat dissipating layer being sticked on object, the heat of the object is logical It crosses the basal layer and is transferred to the heat dissipating layer.

Wherein, the heat dissipating layer includes the radiating area to radiate to the object, and the radiating area is color with certainly Body temperature change and the material changed is made.

It should be noted that the object can be electronic equipment such as mobile phone, pad, notebook or desktop computer etc..

By the heat dissipating method in the present embodiment, so that structure as shown in Figure 1 has been sticked on the object, by This, the heat on the object 3 can be transferred to the heat dissipating layer 2 by the basal layer 1, as shown in Figure 2.

It as shown in fig. 1, include the radiating area 4 that can be radiated to the object 3 in the heat dissipating layer 2, such as Shown in Fig. 3, that is to say, that be not that all areas are required to correspond to it target that basal layer 2 is sticked in the heat dissipating layer 2 3 region of object is radiated, and therefore, in the present embodiment, local region can be arranged in the heat dissipating layer 2, such as described to dissipate Hot-zone 4 radiates to the region for needing to radiate in the object 3.

It should be noted that made of the material that the radiating area 4 can change for color with its own temperature change, That is, when the heat on the object 3 is transferred to the heat dissipating layer 2 by the basal layer 1, the heat dissipating layer 2 In the heat that can receive by it of radiating area 4 variation in temperature occurs, and then the color of the radiating area 4 can be because of its own temperature The variation of degree generates corresponding color change.

For example, the radiating area 4 is colourless when the Current Temperatures of its own are 0 degree；The radiating area 4 is at its own Current Temperatures be 20 degree when, for green；The radiating area 4 is orange when the Current Temperatures of its own are 40 degree；It is described to dissipate Hot-zone 4 is red, etc. when the Current Temperatures of its own are 80 degree.

With the heat dissipating layer 2 when sticking on the object 3, user can intuitively see the basal layer 1 as a result, The current color of radiating area 4 on heat dissipating layer 2 is observed, to know the Current Temperatures on the object 3, brings the completely new vision of user Experience.At the same time, it is radiated by sticking the radiating area 4 in the heat dissipating layer 2 to the object 3 in the present embodiment, with The heat on the object 3 is suitably reduced, ensures the service life of the object 3 to a certain extent, in addition, reducing institute The Contact Temperature for directly contacting the operating body of user of the object 3 is substantially reduced after stating the heat on object 3, hence it is evident that is improved The usage experience of user.

By taking the object 3 is laptop as an example, the basal layer 1 sticks on the notebook with the heat dissipating layer 2 The face A and the face C of computer while the radiating area 4 in the heat dissipating layer 2 radiates to the face A and the face C, are come with the variation of color The variation for showing the temperature in the face A and the face C brings the intuitive completely new visual experience of user, as shown in Figure 4.

By above scheme it is found that a kind of heat dissipating method example IV provided by the invention, scattered by sticking on object Thermosphere and basal layer enable the heat of object to be transferred to heat dissipating layer by basal layer, and can be to target in heat dissipating layer The radiating area that object radiates is made of the material that color changes with the variation of own temperature, as a result, the present embodiment Technical solution, can while being radiated to object to improve electronic product service life and improve the user experience The current temperature status of object is showed user by the formal intuition shown with color, brings the completely new vision body of user It tests.

It is the flow chart of step 1001 described in a kind of heat dissipating method embodiment five provided by the invention with reference to Figure 11, In, the step 1001 may comprise steps of realization:

Step 1011: the radiating area in the heat dissipating layer is divided into multiple heat dissipation subregions, each heat dissipation sub-district Domain corresponds respectively to a fever subregion in the object.

Wherein, as shown in Figure 5, can according to the temperature variations of the hot zone of the corresponding object 3 of radiating area 4 into Row subregion, for example, being a fever subregion 6, the fever sub-district by the maximum region division of range of temperature in hot zone The corresponding region division in the radiating area 4 of domain 6 is the corresponding heat dissipation subregion 5 of fever subregion 6；By hot zone medium temperature The degree the smallest region division of amplitude of variation is a fever subregion 6, and the fever subregion 6 is corresponding in the radiating area 4 Region division is the corresponding heat dissipation subregion 5 of fever subregion 6.

Step 1012: the heat-sensitive coefficients of each heat dissipation subregion of setting.

Wherein, heat-sensitive coefficients here refer to: each heat dissipation subregion leads to the sound of color change to temperature change State parameter is answered, for example, the heat dissipation subregion is colourless when the Current Temperatures of its own are 0 degree；The heat dissipation subregion When the Current Temperatures of its own are 20 degree, for green；The heat dissipation subregion is when the Current Temperatures of its own are 40 degree It is orange；The radiating area 4 is red when the Current Temperatures of its own are 80 degree.

Step 1013: the heat dissipating layer being sticked on the basal layer, each heat dissipation subregion is divided Other to radiate to its corresponding fever subregion, each heat dissipation subregion is that color can be with its own temperature The thermo-sensitive material for changing and changing is made.

Wherein, each heat dissipation subregion is made of thermo-sensitive material, as a result, in the corresponding fever of the heat dissipation subregion When the temperature of subregion increases, corresponding heat dissipation subregion can darken, such as become orange or red from colourless, and then improve The heat emissivity coefficient of the heat dissipation subregion 5 enhances heat sinking function, realizes the heat dissipation purpose to the object 3, while with color To characterize the Current Temperatures of the object corresponding region.

It in practical applications, is to have between the temperature varying coefficient of the fever subregion each of on the object Linear ratio relation's, for example, the temperature of fever subregion y2 is 40 degree, accordingly when the temperature of fever subregion y1 is 80 degree The temperature of fever subregion y3 is 20 degree；And the temperature for the subregion y1 that generates heat be 40 degree when, fever subregion y2 temperature be 20 The temperature of degree, the corresponding subregion y3 that generates heat is 10 degree；Correspondingly, and the temperature for the subregion y1 that generates heat be 20 degree or less when, generate heat The temperature of subregion y2 is 10 degree hereinafter, accordingly the temperature of fever subregion y3 is 0 degree, etc..

It therefore, can be by with lower section in the heat-sensitive coefficients that each heat dissipation subregion is arranged in the step 1012 Formula is realized:

First method: the heat-sensitive coefficients of each heat dissipation subregion of setting are identical, so that each heat dissipation subregion Color when sticking on its corresponding fever subregion is corresponding with its corresponding fever Current Temperatures of subregion.

Wherein, in the first method, the heat-sensitive coefficients that each heat dissipation subregion is arranged are identical, so that each described The color of heat dissipation subregion is corresponding with its corresponding fever Current Temperatures of subregion, that is to say, that each described scattered Heater region causes the response of color change to be consistent temperature change, such as: each heat dissipation subregion 5 its respectively The Current Temperatures of itself be green when being 20 degree, each heat dissipation subregion 5 is in its itself respective Current Temperatures Be when being 40 degree it is orange, each heat dissipation subregion 5 be when its itself respective Current Temperatures is 80 degree it is red, etc. Deng, and then since there may be differences in synchronization for the color of fever subregion 6 described each of on the object 3, make Entirely the color of the heat dissipation subregion 5 may be different each of in the heat dissipating layer area 4, for example, heat dissipation subregion x1 Current Temperatures are 20 degree, and the Current Temperatures for the subregion x2 that radiates may be 40 degree, and the Current Temperatures of heat dissipation subregion x3 may be 80 degree, corresponding color is respectively as follows: green, orange and red as a result, as shown in Figure 7, hereby it is achieved that in the object 3 The temperature of each different fever subregion 6 is shown to user in the form of intuitive.

In addition, in the heat-sensitive coefficients that each heat dissipation subregion is arranged in the step 1012, it can also be by following Mode is realized:

Second method: the heat-sensitive coefficients of each heat dissipation subregion of setting and the temperature of its corresponding fever subregion Spending variation coefficient has corresponding relationship, so that all heat dissipation subregions are on sticking on its corresponding fever subregion When color with current temperature value it is highest fever subregion it is corresponding heat dissipation subregion color keep it is consistent.

In the present embodiment, the heat-sensitive coefficients of each heat dissipation subregion may be different, but corresponding with it The temperature varying coefficient of fever subregion has corresponding relationship, so that when the temperature of the object is changed each It carves, the color of the color of all heat dissipation subregions heat dissipation subregion corresponding with the highest fever subregion of Current Temperatures Be consistent so that the integral color of the radiating area is same color, and characterize in the object temperature change it is maximum or The current temperature value of the highest fever subregion of current temperature value.

For example, each of on the object it is described fever subregion temperature in synchronization, there may be differences, such as When the temperature of fever subregion y1 is 80 degree, the temperature of fever subregion y2 is 40 degree, and the temperature of corresponding fever subregion y3 is 20 degree, temperature varying coefficient has proportionate relationship, when the temperature for the subregion y1 that such as generates heat is 80 degree, the temperature for the subregion y2 that generates heat Degree is 40 degree, and the temperature of the corresponding subregion y3 that generates heat is 20 degree；And the temperature for the subregion y1 that generates heat be 40 degree when, generate heat subregion The temperature of y2 is 20 degree, and the temperature of the corresponding subregion y3 that generates heat is 10 degree；Correspondingly, and the temperature for the subregion y1 that generates heat is 20 degree When following, the temperature of fever subregion y2 is 10 degree hereinafter, accordingly the temperature of fever subregion y3 is 0 degree, etc..The present embodiment In to it is each it is described fever subregion 6 it is corresponding heat dissipation subregion 5 heat-sensitive coefficients be correspondingly arranged so that same When engrave, temperature change caused by heat that each heat dissipation subregion 5 transmits its corresponding fever subregion 6 carries out Color keep after response is consistent, as shown in Figure 8, the heat of the corresponding heat dissipation subregion z1 of the fever subregion y1 is arranged Quick coefficient: Current Temperatures are 20 degree the following are colourless and green is presented at 20 degree, Current Temperatures presented when being 40 degree it is orange, currently Red is presented when temperature is 80 degree, it is that temperature change is maximum or at a time warm that fever subregion y1, which is in the radiating area 4, Therefore the highest region of angle value is arranged other fever subregions in the present embodiment with the heat-sensitive coefficients for the subregion y1 that generates heat and corresponds to Heat dissipation subregion heat-sensitive coefficients, such as: setting it is described fever subregion y2 it is corresponding heat dissipation subregion z2 heat-sensitive coefficients: For Current Temperatures for 10 the following are green is presented when colourless and 10 degree, orange, Current Temperatures 40 are presented when being 20 degree in Current Temperatures Red is presented when spending, and so on, heat-sensitive coefficients of the corresponding heat dissipation subregions such as other fever subregions are configured, by This, the color that all heat dissipation subregions 5 on synchronization, the radiating area 4 are presented is same color, for example, in institute When to state fever subregion y1 be 40 degree, color that corresponding heat dissipation subregion z1 is presented be it is orange, at this point, the fever is sub Region y2 is 20 degree, and the color that corresponding heat dissipation subregion z2 is presented is similarly orange, and others fever subregion is corresponding The presented color of heat dissipation subregion be equally it is orange, finally make the face of all heat dissipation subregions on the radiating area 4 Color is consistent, to characterize temperature change maximum or the temperature change feelings in certain highest region of a moment temperature in the object 3 Condition, such as the position the CPU corresponding region in electronic equipment.

In addition, based on the above embodiment, the figure for meeting user demand can be fabricated in the present embodiment to the radiating area Case design, to realize when temperature change occurs in the object, the radiating area can show the pattern of same color, increase Add user experience.

And in order to equally reach presented solid colour in the radiating area, and characterize temperature change maximum or certain a moment temperature The purpose of the temperature variations in highest region is spent, a heat dissipation subregion can be set in radiating area and is different from described The display subregion of heat dissipation subregion, as shown in Figure 9, the heat dissipation subregion 5 are pasted on a fever of the object 3 On subregion 6, the heat of the fever subregion 6 is transferred to the heat dissipation subregion 5, the heat dissipation by the basal layer 1 Subregion 5 can radiate to its corresponding fever subregion 6, and the heat dissipation subregion 5 is that color can be with its own Temperature change and the thermo-sensitive material changed is made, the display subregion 7 for show with the presented face of the heat dissipation subregion The consistent color of form and aspect realizes the present embodiment purpose.

It is the implementation process of step 1001 described in a kind of heat dissipating method embodiment six provided by the invention with reference to Figure 12 Figure, wherein the step 1001 can be realized by following steps:

Step 1014: setting temperature value is greater than or equal to the space environment of preset temperature threshold.

Step 1015: in the space environment, by the heat dissipating layer and the basal layer by embossing operation, so that institute Heat dissipating layer is stated mutually to stick with the basal layer.

It is, the present embodiment can be by under high temperature environment, being embossed the heat dissipating layer and the basal layer Operation, realizes the purpose that the heat dissipating layer and the basal layer mutually stick.

It is the structural schematic diagram of a kind of electronic equipment embodiment seven provided by the invention, wherein the electronics with reference to Figure 13 It is sticked in equipment 8 just like radiator 9 described in hereinbefore any embodiment, which is used to treat the electricity of heat dissipation Sub- equipment carries out radiating treatment, and the radiator 9 includes basal layer and heat dissipating layer, and the radiator 9 is set with the electronics Standby mutually to stick, the heat of the electronic equipment is transferred to the heat dissipating layer by the basal layer.

Wherein, the heat dissipating layer includes the radiating area to radiate to the object, and the radiating area is color with certainly Body temperature change and the material changed is made.

It should be noted that the specific implementation structure and explanation of the radiator 9 may refer to hereinbefore content, herein It is no longer described in detail, wherein the electronic equipment in the present embodiment is the specific implementation of object hereinbefore.

It should be noted that all the embodiments in this specification are described in a progressive manner, each embodiment weight Point explanation is the difference from other embodiments, and the same or similar parts between the embodiments can be referred to each other.

A kind of radiator, heat dissipating method and electronic equipment provided herein are described in detail above, this Specific case is applied in text, and the principle and implementation of this application are described, the explanation of above example is only intended to Help understands the present processes and its core concept；At the same time, for those skilled in the art, the think of according to the application Think, there will be changes in the specific implementation manner and application range, in conclusion the content of the present specification should not be construed as pair The limitation of the application.

Claims (8)

1. a kind of radiator, the object for treating heat dissipation carries out radiating treatment, the radiator include basal layer and Heat dissipating layer, the radiator are mutually sticked with the object, and the heat of the object is transferred to institute by the basal layer State heat dissipating layer；

Wherein, the heat dissipating layer includes the radiating area to radiate to the object, and the radiating area is color with itself temperature The material that degree changes and changes is made；

Wherein, the radiating area includes multiple heat dissipation subregions, and each heat dissipation subregion is pasted on the object respectively In a corresponding basal layer of fever subregion on, it is each it is described fever subregion heat be transferred to by the basal layer Its corresponding heat dissipation subregion, each heat dissipation subregion can respectively carry out its corresponding fever subregion Heat dissipation, the thermo-sensitive material that each heat dissipation subregion can be changed by color with the temperature change of its own are made, are used for The Current Temperatures of the corresponding fever subregion of the object are characterized with color；The heat dissipation subregion has preset temperature-sensitive system Number, the heat-sensitive coefficients refer to: each heat dissipation subregion leads to the responsive state parameter of color change to temperature change.

2. radiator according to claim 1, which is characterized in that the heat-sensitive coefficients phase of each heat dissipation subregion Together, so that the color of each heat dissipation subregion is corresponding with its corresponding fever Current Temperatures of subregion.

3. radiator according to claim 1, which is characterized in that the temperature varying coefficient of each fever subregion With linear ratio relation；

Wherein, the heat-sensitive coefficients of each heat dissipation subregion and the temperature varying coefficient of its corresponding fever subregion have There is corresponding relationship, is dissipated so that the color of all heat dissipation subregions is corresponding with the highest fever subregion of current temperature value The color keep in heater region is consistent.

4. radiator according to claim 1, which is characterized in that the radiating area includes a heat dissipation subregion and difference In the display subregion of the heat dissipation subregion, the heat dissipation subregion is pasted on a fever subregion pair of the object On the basal layer answered, the heat of the fever subregion is transferred to the heat dissipation subregion, the heat dissipation by the basal layer Subregion can radiate to its corresponding fever subregion, and the heat dissipation subregion is that color can be with its own temperature The thermo-sensitive material for changing and changing is made, and the display subregion is for display and the presented color phase one of heat dissipation subregion The color of cause.

5. a kind of heat dissipating method, comprising:

Heat dissipating layer is sticked on basal layer；

The basal layer for sticking the heat dissipating layer is sticked on object, the heat of the object is passed by the basal layer It is handed to the heat dissipating layer；

Wherein, the heat dissipating layer includes the radiating area to radiate to the object, and the radiating area is color with itself temperature The material that degree changes and changes is made；

It is wherein, described to stick on heat dissipating layer on basal layer, comprising:

Radiating area in the heat dissipating layer is divided into multiple heat dissipation subregions, each heat dissipation subregion corresponds respectively to institute State a fever subregion in object；

The heat-sensitive coefficients of each heat dissipation subregion are set；

The heat dissipating layer is sticked on the basal layer, enables each heat dissipation subregion respectively corresponding to it respectively Fever subregion radiate, each heat dissipation subregion is the heat that can change with the temperature change of its own of color Quick material is made, for characterizing the Current Temperatures of the corresponding fever subregion of the object with color；The heat dissipation subregion With preset heat-sensitive coefficients, the heat-sensitive coefficients refer to: each heat dissipation subregion leads to color change to temperature change Responsive state parameter.

6. according to the method described in claim 5, it is characterized in that, the temperature varying coefficient of each fever subregion has Linear ratio relation；

Wherein, the heat-sensitive coefficients of each heat dissipation subregion of the setting, comprising:

The heat-sensitive coefficients that each heat dissipation subregion is arranged are identical, so as to stick on it respectively right for each heat dissipation subregion Color when the fever corresponding basal layer of subregion answered is corresponding with its corresponding fever Current Temperatures of subregion；

Or

The temperature varying coefficient of heat-sensitive coefficients and its corresponding fever subregion that each heat dissipation subregion is arranged has There is corresponding relationship, so that all heat dissipation subregions are on sticking on the corresponding basal layer of its corresponding fever subregion When color with current temperature value it is highest fever subregion it is corresponding heat dissipation subregion color keep it is consistent.

7. method according to claim 5 or 6, which is characterized in that described to stick on heat dissipating layer on basal layer, comprising:

The space environment that temperature value is greater than or equal to preset temperature threshold is set；

In the space environment, by the heat dissipating layer and the basal layer by embossing operation, so that the heat dissipating layer and institute Basal layer is stated mutually to stick.

8. a kind of electronic equipment, sticks on the electronic equipment and filled just like heat dissipation described in any one of Claims 1-4 It sets.