CN110274297A - It is a kind of for heat structure and heater - Google Patents

Abstract

The present invention relates to heating device technology area, disclose it is a kind of for heat structure and heater, wherein including heater for heat structure；Heater includes carbon nanocapsule thin film heating material layer；Carbon nanocapsule thin film heating material layer is arranged on tempered glass surface.It is provided by the invention a kind of for heat structure and heater, using carbon nanocapsule thin film heating material layer as heater, with the fast thermal property that is powered, 300-400 degrees Celsius can be warming up to, compared to traditional Resistant heating and carbon fiber heating, heating rate both can be improved, realize quickly heating, heat-resisting ability can also be enhanced, reduce security risk；In addition, the setting of carbon nanocapsule thin film heating material layer is had the characteristic of high emissivity and high heat storage capacity using tempered glass on tempered glass surface, heat supply is carried out using the heater, can reach quick heat supply, and the effect that heat is higher and heating time is more long.

Description

It is a kind of for heat structure and heater

Technical field

The present invention relates to heating device technology area, more particularly to a kind of for heat structure and heater.

Background technique

Heater refers to the equipment for heating.There are many heaters, the most common space heater be with electricity be the energy into The heating system of row heating.It is mobile to can be widely used for house, office, hotel, market, hospital, school, railway carriage etc. All kinds of civilian and public buildings such as heating, simple prefabricated house.

The type of space heater includes electric blanket, quartz ampoule electric heater, warm-air drier, air-conditioning, electric oil heater.Heat transfer type are as follows: Electric blanket directly contacts conduction；Quartz ampoule electric heater heat radiation；Warm-air drier warm wind convection current；Air conditioning warm air convection current；Electric oil heater is slow Cross-ventilation.The power consumption of the present electric heater using electric heating is bigger than normal, and heating rate is slower, affect experience.

In the modern life, electric heating device is widely used in the fields such as family, industry.But most of existing heater with Resistance wire, carbon fiber are as heater element.Using resistance wire as heater element, there are many drawbacks: resistance wire is adding alternating current outside Induction reactance is generated when field, falls a part of electric energy as reactive power loss；Heating and cooling are slow, have rubescent, red-hot phenomenon to generate, exist Some potential safety problems；Resistance wire is easy to appear the phenomenon of oxidation, short circuit, causes heater service life short.

Summary of the invention

(1) technical problems to be solved

The object of the present invention is to provide a kind of for heat structure and heater, for solving or part solves existing electric heating The device slow problem of existing heating using resistance wire as heater mostly.

(2) technical solution

In order to solve the above-mentioned technical problem, according to a first aspect of the present invention, provide a kind of for heat structure, including heater； The heater includes carbon nanocapsule thin film heating material layer；The carbon nanocapsule thin film heating material layer is arranged in tempered glass table Face.

On the basis of above scheme, the double-deck tempered glass is set；The carbon nanocapsule thin film heating material layer is arranged double In gap between layer tempered glass, circumferentially arranged with a circle frame, the frame covering is double-deck for the side of the double-deck tempered glass Gap between tempered glass.

On the basis of above scheme, further includes: support；The support be hollow structure, the rest base be equipped with into Air port, the holder top are equipped with air outlet, are equipped with fan inside the support, the tempered glass is fixed on the support Top, the air outlet side.

On the basis of above scheme, further includes: conducting element；The conducting element is fixed on the top of the support, is used for Guidance is flowed out from the air that the air outlet flows out from the tempered glass surrounding.

On the basis of above scheme, the conducting element includes the deflector being oppositely arranged with the tempered glass；It is described The edge of deflector is arc-shaped and arc shaped inside is towards the tempered glass, and the deflector is towards the tempered glass The diversion trench being arranged from center to edge is evenly distributed on side, the air outlet is located at the deflector and the tempering glass Between glass.

On the basis of above scheme, the conducting element includes the diversion shell being oppositely arranged with the tempered glass；Institute Stating diversion shell is hollow structure, and the diversion shell includes the arc-shaped front housing in edge and rear shell, and the front housing leans on The nearly tempered glass and the arc shaped inside of edge towards the tempered glass, on the front housing, with the tempered glass Position except corresponding position is uniformly provided with deflector hole；The bottom of the diversion shell is equipped with and opens with what the air outlet was connected to Mouthful.

On the basis of above scheme, further includes: purification device；The purification device be arranged in the bottom of the support and Be rotatablely connected with the support, the side wall of the purification device is equipped with air intlet, the top of the purification device be equipped with The air outlet slit of the air inlet connection, the support are connected to the motor, and the motor is for driving the support to rotate.

On the basis of above scheme, the top of the support is equipped with the first opening up conduit, first conduit Slot bottom be equipped with the first positioning column, the bottom of the tempered glass is equipped with the first locating slot, and the bottom of the tempered glass is inserted Enter in first conduit and first positioning column is inserted into first locating slot；The side of the bottom of the tempered glass Or two sides are vertically equipped with fixture block, the one or both sides cell wall inner surface of first conduit is correspondingly provided with card slot, and the fixture block is inserted Enter in the card slot.

On the basis of above scheme, the top of the support is equipped with the second opening up conduit, second conduit Slot bottom be equipped with the second positioning column, the bottom of the conducting element is equipped with the second locating slot, and institute is inserted into the bottom of the conducting element It states in the second conduit and second positioning column is inserted into second locating slot；The side cell wall inner surface of second conduit Equipped with hook, the bottom of the conducting element is equipped with aperture, and the hook is inserted into the aperture and is connected together with the conducting element.

According to the second aspect of the invention, a kind of heater is provided, including described in any of the above-described scheme for heat structure.

(3) beneficial effect

It is provided by the invention a kind of for heat structure and heater, using carbon nanocapsule thin film heating material layer as heater, With the fast thermal property that is powered, it can be warming up to 300-400 degrees Celsius, compared to traditional Resistant heating and carbon fiber heating, both Heating rate can be improved, realize quickly heating, can also enhance heat-resisting ability, reduce security risk；In addition, by carbon nanocapsule thin film Heating material layer setting has the characteristic of high emissivity and high heat storage capacity using tempered glass, with steel on tempered glass surface Change glass can integrally be formed can quick heat temperature raising, with high heat storage capacity and high emissivity heater, utilize the fever Body carries out heat supply, can reach quick heat supply, and the effect that heat is higher and heating time is more long.

Detailed description of the invention

Fig. 1 is a kind of the first overall schematic for heat structure of the embodiment of the present invention；

Fig. 2 is a kind of the second overall schematic for heat structure of the embodiment of the present invention；

Fig. 3 is the schematic diagram of deflector and diversion trench in the embodiment of the present invention；

Fig. 4 is the schematic diagram of diversion shell and deflector hole in the embodiment of the present invention；

Fig. 5 is a kind of schematic cross-section for heat structure of the embodiment of the present invention；

Fig. 6 is the specific connection schematic diagram of the position B tempered glass and support in Fig. 5 of the embodiment of the present invention；

Fig. 7 is the specific connection schematic diagram of the position A deflector and support in Fig. 5 of the embodiment of the present invention；

Fig. 8 is a kind of heat supply structure hollow flow of air schematic diagram of the embodiment of the present invention.

Description of symbols:

1-tempered glass；2-frames；3-supports；

4-deflectors；5-diversion trenches；6-purification devices；

7-diversion shells；8-deflector holes；9-heaters；

10-the first conduit；11-the first positioning column；12-the first locating slot；

13-fixture blocks；14-card slots；15-the second conduit；

16-the second positioning column；17-the second locating slot；18-apertures；

19-hooks；20-synchronous motors；21-air outlets；

22-fans；23-direct current generators.

Specific embodiment

With reference to the accompanying drawings and examples, specific embodiments of the present invention will be described in further detail.Following instance For illustrating the present invention, but it is not intended to limit the scope of the invention.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in invention.

The embodiment of the present invention provides a kind of for heat structure, this includes heater 9 for heat structure；Heater 9 includes carbon nanometer Film heating material layer.Carbon nanocapsule thin film heating material layer is arranged on 1 surface of tempered glass.

Carbon nanocapsule thin film heating material has the fast thermal property that is powered, and can be warming up to 300-400 degrees Celsius.Compared to traditional Heating rate both can be improved using carbon nanocapsule thin film heating material layer as heater 9 in Resistant heating and carbon fiber heating, Realize quickly heating；Heat-resisting ability can also be enhanced, reduce security risk.

Carbon nanocapsule thin film heating material, which can apply, is located at 1 surface of tempered glass formation carbon nanocapsule thin film heating material layer.Carbon is received The heating means of rice film heating material layer and the heating method of resistance wire and carbon fiber are similar, that is, are powered.

Tempered glass 1 has the characteristic of high emissivity and high heat storage capacity, and the setting of carbon nanocapsule thin film heating material layer is existed 1 surface of tempered glass, with the one of tempered glass 1 can be formed can quick heat temperature raising, there is high heat storage capacity and high emissivity Heater 9.Heat supply is carried out using the heater 9, can reach quick heat supply, and the effect that heat is higher and heating time is more long Fruit.

In addition, carbon nanocapsule thin film has transparent characteristic, it is arranged on 1 surface of tempered glass, can also enhances aesthetics.Further Ground, carbon nanocapsule thin film heating material can be the nanometer films technologic materials such as carbon nanotube, graphene.Carbon nanocapsule thin film heating material with Coating way is attached on glass.

On the basis of the above embodiments, further, with reference to Fig. 6, the double-deck tempered glass 1 is set；Carbon nanocapsule thin film adds Hot material layer is arranged in the gap between the double-deck tempered glass 1.With reference to Fig. 1 and Fig. 2, the side of the double-deck tempered glass 1 is along week Frame 2 is enclosed to being equipped with one.Frame 2 covers the gap between the double-deck tempered glass 1.

The temperature that carbon nanocapsule thin film heating material layer can be born is higher, therefore, can be disposed at two layers of tempered glass 1 it Between, the heat of carbon nanocapsule thin film heating material layer generation is absorbed by the tempered glass 1 of two sides and carries out accumulation of heat.The double-deck tempering Glass 1 can play protective action to carbon nanocapsule thin film heating material layer, prevent from directly contacting with carbon nanocapsule thin film heating material layer And lead to thermal damage；Also convenient heat source can be formed in carbon nanocapsule thin film heating material layer two sides, improve heating effect.

Carbon nanocapsule thin film heating material layer needs electrified regulation, it is therefore desirable to the devices such as connecting wire.In the double-deck tempering glass Frame 2 is arranged in 1 side of glass, can be enclosed in the devices such as carbon nanocapsule thin film heating material layer and conducting wire between the double-deck tempered glass 1 It in gap, further prevents carbon nanocapsule thin film heating material layer temperature excessively high and the external world is caused to damage, guarantee safety.

Further, frame 2 can be metal edge frame 2, can also be high-temperature resistance plastice frame 2, specifically without limitation, to be resistant to High temperature plays for the purpose of protective action.

On the basis of the above embodiments, further, a kind of for heat structure with reference to Fig. 1 and Fig. 2 further include: support 3； Support 3 is hollow structure.3 bottom of support is equipped with air inlet, is equipped with air outlet 21 at the top of support 3.Fan is equipped with inside support 3 22.Tempered glass 1 is fixed on the top of support 3,21 side of air outlet.

Support 3 is used to support fixed heater 9, and as air duct so that outside air contacted with heater 9 into And hot wind is generated, better heat supply is carried out by hot wind.Air inlet on support 3 is connected with air outlet 21, and outside air can Enter inside support 3 from air inlet, is then flowed out from air outlet 21.Air can contact at air outlet 21 with tempered glass 1, lead to It crosses heat convection and forms hot wind, hot wind can be flowed, and so as to increase heating range, improved for thermal uniformity and improved confession The thermal efficiency.

The power that fan 22 inside support 3 is flowed as air, for sucking outside air from air inlet, from outlet air Mouth 21 is discharged.Fan 22 may be provided at air outlet 21.

On the basis of the above embodiments, further, a kind of for heat structure further include: conducting element；Conducting element is fixed on The top of support 3 is flowed out for guiding from the air that air outlet 21 flows out from 1 surrounding of tempered glass.Conducting element is for more preferably making The air flowed out from air outlet 21 contacts abundant heat exchange with tempered glass 1；And water conservancy diversion planning is carried out to the flow direction of air, so that Hot wind uniformly scatters around.

On the basis of the above embodiments, further, with reference to Fig. 1 and Fig. 3, conducting element includes opposite with tempered glass 1 The deflector 4 of setting.The edge of deflector 4 is arc-shaped and arc shaped inside is towards tempered glass 1.Deflector 4 is towards tempering The diversion trench 5 being arranged from center to edge is evenly distributed on the side of glass 1.Air outlet 21 is located at deflector 4 and tempering glass Between glass 1.

Conducting element is plate structure in the present embodiment, sets arc for the edge of deflector 4, arc has recess Side, recess side are inside.The edge of arc can play encapsulation in the surrounding of tempered glass 1, and formation is more closed Space so that sufficiently contacting and changing with tempered glass 1 between deflector 4 and tempered glass 1 from the air that air outlet 21 flows out The hot wind formed after heat and heat exchange is flowed out from the gap of deflector 4 and 1 surrounding of tempered glass.

Further, deflector 4 is equipped with diversion trench 5 towards a side surface of tempered glass 1.Diversion trench 5 is in deflector 4 On be uniformly distributed and be arranged along from the extrorse direction in 4 centre of deflector.I.e. in 4 rounded structure of deflector, lead Chute 5 is arranged radially along deflector 4.It is uniformly arranged diversion trench 5 on deflector 4, can make hot wind uniformly from deflector 4 The surrounding of surrounding, that is, tempered glass 1 distributes outflow, it is possible to provide the uniformity of heat supply.

Further, when deflector 4 is circular configuration, deflector 4 is whole in the form of annular discs；Correspondingly, tempered glass 1 can also For circle；Deflector 4 and tempered glass 1 can also be other any rules or irregular shape, can specifically be set according to application environment It sets, without limitation.

On the basis of the above embodiments, further, with reference to Fig. 2 and Fig. 4, conducting element includes opposite with tempered glass 1 The diversion shell 7 of setting.Diversion shell 7 is hollow structure, and diversion shell 7 includes the arc-shaped front housing in edge with after Shell.Front housing close to tempered glass 1 and edge arc shaped inside towards tempered glass 1.On front housing, it is corresponding with tempered glass 1 Position except position is uniformly provided with deflector hole 8.The bottom of diversion shell 7 is equipped with the opening being connected to air outlet 21.

Conducting element is in shell structure in the present embodiment.Diversion shell 7, which is connected by front housing with rear shell, forms hollow structure.Water conservancy diversion There is accommodating cavity inside shell 7.The curved edge position of front housing is enclosed in the surrounding of tempered glass 1.It is flowed out from air outlet 21 Air enter inside diversion shell 7, indirectly with tempered glass 1 heat exchange form hot wind.Deflector hole 8 on front housing is corresponding positioned at steel Change the surrounding of glass 1.Hot wind is uniformly flowed out from the deflector hole 8 of 1 surrounding of tempered glass.

Further, the deflector hole 8 on front housing is gradually reduced along the direction from front housing center to edge.So that from front housing Between position flow out air it is more, be conducive to come into full contact with heat exchange with tempered glass 1.

On the basis of the above embodiments, further, a kind of for heat structure with reference to Fig. 5 further include: purification device 6；Only Makeup is set the bottom that 6 are arranged in support 3 and is rotatablely connected with support 3.The side wall of purification device 6 is equipped with air intlet, purification The top of device 6 is equipped with the air outlet slit being connected to air inlet.Support 3 is connected to the motor, and motor is for driving support 3 to rotate.

Setting purification device 6 can purify air before air flows into support 3, can improve air quality, improve The comfort level of ambient enviroment.It can be rotatablely connected by bearing between 3 bottom of support and purification device 6.Support 3 can be in the band of motor It is rotated under dynamic.The rotation of support 3 can promote the air flowed out from air outlet 21 smoothly to distribute around, make its area coverage More uniform extensive, the speed that heat distributes is faster.The motor can be synchronous motor 20.

Further, fan 22 may include wind wheel structure and direct current generator 23.Direct current generator 23 drives wind wheel structure rotation, And then play the role of driving air flowing.

On the basis of the above embodiments, further, with reference to Fig. 6, the top of support 3 is equipped with the first opening up slot Road 10.The slot bottom of first conduit 10 is equipped with the first positioning column 11, and the bottom of tempered glass 1 is equipped with the first locating slot 12, tempering The bottom of glass 1 is inserted into the first conduit 10 and the first positioning column 11 is inserted into the first locating slot 12.The bottom of tempered glass 1 One or both sides are vertically equipped with fixture block 13, and the one or both sides cell wall inner surface of the first conduit 10 is correspondingly provided with card slot 14, fixture block In 13 insertion card slots 14.

First conduit 10 is the groove structure of both ends open, as a channel being recessed at 3 top of support.Tempering glass The bottom of glass 1 is inserted into first conduit 10, and the both ends of tempered glass 1 can be pierced by from the both ends of the first conduit 10, the first conduit 10 two sides cell wall can carry out blocking positioning to tempered glass 1 in the two sides of tempered glass 1.

The bottom of first positioning column 11 insertion tempered glass 1 can further position tempered glass 1 in the horizontal direction. First positioning column 11 can be arranged along the length direction of the first conduit 10, to increase and the contact orientation range of tempered glass 1.Fixture block 13 be the structure for protruding from 1 surface of tempered glass.It is inserted into the card slot 14 on 10 cell wall of the first conduit by fixture block 13, it can be to steel Change glass 1 to be positioned in vertical direction.Fixture block 13 and card slot 14 can be set in the side of tempered glass 1, it can also be in tempering glass The two sides of glass 1 are respectively provided with fixture block 13 and card slot 14, specifically without limitation.

Further, fixture block 13 can be elastic construction, convenient for fixture block 13 to be inserted into card slot 14.Fixture block 13 can also be hardness Structure, at this point, card slot 14 can run through cell wall along the length direction of the first conduit 10, tempered glass 1 can be from the one of the first conduit 10 End is corresponding with 14 position of card slot by fixture block 13, then slides to the cooperation that 10 other end of the first conduit realizes fixture block 13 and card slot 14.

On the basis of the above embodiments, further, with reference to Fig. 7 by taking the connection of deflector 4 and support 3 as an example to water conservancy diversion The connection of part and support 3 is illustrated.The top of support 3 is equipped with the second opening up conduit 15.The slot bottom of second conduit 15 It is equipped with the second positioning column 16, the bottom of conducting element is equipped with the second locating slot 17, and the bottom of conducting element is inserted into the second conduit 15 And second positioning column 16 be inserted into the second locating slot 17 in.The side cell wall inner surface of second conduit 15 is equipped with hook 19, conducting element Bottom be equipped with aperture 18, hook 19 be inserted into aperture 18 in be connected together with conducting element.

Second conduit 15 is similarly the groove structure of both ends open, as a channel being recessed at 3 top of support.It leads The bottom of stream part is inserted into second conduit 15, and the both ends of conducting element can be pierced by from the both ends of the second conduit 15, the second conduit 15 Two sides cell wall blocking positioning can be carried out to conducting element in the two sides of conducting element.

The bottom of second positioning column 16 insertion conducting element can position in the horizontal direction conducting element.Second positioning column 16 It can be arranged along the length direction of the second conduit 15, to increase the contact orientation range with conducting element.Hook 19 can be rod-shaped or plate Shape structure, one end are connected with the cell wall of the second conduit 15, and the other end is provided with hook body.Engaging by hook 19 with conducting element connects It connects, conducting element can be positioned in vertical direction.

Specifically, the hook body end of hook 19 passes through the other side that aperture 18 is inserted into conducting element from conducting element side.Water conservancy diversion Another side surface of part can be equipped with and hook the groove that matches of body end portion, by will hook body end portion be inserted into groove realize hook 19 and The engaging of conducting element.Further, hook 19 can be elastic construction.

The double positioning structure of positioning column and hook 19 is set, the positioning of firm stable can be realized to conducting element, guarantees knot The stability of structure.Aperture 18 is set on conducting element, can both be easy to implement being connected together for hook 19 and conducting element, and make simultaneously Conducting element has the surplus centainly moved up and down, can be convenient for the connection and disassembly of conducting element and support 3.

During installation, hook 19 can be passed through aperture 18, by the following baffle of aperture 18 the second locating slot 17 with Second positioning column 16 matches, and then engages the baffle of 18 top of aperture with hook 19.In disassembly, will can first open The baffle of 18 top of hole is dismantled with hook 19, then above mentions baffle for the following baffle of aperture 18 and the second positioning column 16 It is detached from, then moves baffle and be pierced by hook 19 from aperture 18.

Further, when baffle is 7 structure of diversion shell, the front cover and rear cover of diversion shell 7 can be respectively set fixed Position column and 19 structure of hook, i.e., be attached fixation to front cover and rear cover；It can also be only attached in front cover or rear cover side It is fixed；Specifically it is not construed as limiting.

On the basis of the above embodiments, further, a kind of heater, including heat supply described in any of the above-described embodiment Structure.It can be used in heater in the various embodiments described above for heat structure, be equally applicable to other electricity for needing heat or hot wind In device, such as drying unit etc., specifically without limitation.

On the basis of the above embodiments, further, a kind of to be heated for heat structure and heater using carbon nanocapsule thin film Material is as heater 9.Carbon nanocapsule thin film heating material is gradually being applied in product as a kind of Novel heating material, carbon Nano thin-film has the fast thermal property that is powered, and can be warming up to 300-400 degrees Celsius.And carbon nanocapsule thin film has transparent characteristic, applies In 1 surface of transparent toughened glass, in addition glass has high emissivity and heat storage capacity, it can be used as a kind of type of heat source and be applied to In heater products.

This, which exists for heat structure and heater for existing Resistant heating, carbon fiber heating, heats the problems such as slow, proposes A kind of Novel heating heater 9 can solve the slow this problem of heating, secondly, can be used, it can be achieved that the function that speed heat is warmed oneself On overturn existing product appearance and heating method completely.

The present embodiment is coated with 1 plate of the double-deck tempered glass of carbon nanometer heating transparent film as heating material using inner surface Material makes product appearance have transparent attribute while realizing the function of speed heat heating.Wherein carbon nanocapsule thin film heating material is also It can be graphene, rare earth nano film etc..

This uses completely new diversion mode for heat structure and heater, using conducting element, adds spinning, covers heat Capping product is wider, distributes speed faster.

The present embodiment proposes that the design of two kinds of conducting elements, accelerated heat distribute.The first deflector 4, using groove-like Design is diversion trench 5, and the air outlet 21 at 3 top of support is arranged between heating plate and deflector 4.With reference to Fig. 8, room air from Bottom sucking, blows to deflector 4 and heating plate and heater 9 by air-purifying module and then by the fan 22 in support 3 Between.Under the diversion trench 5 of arc-shaped, heat air is distributed in inverse parabolic path, can be along with the mode of spinning Heat effective " getting rid of " is gone out, and keeps its area coverage more uniform, more extensively, the speed that heat distributes is faster.Wherein deflector 4 It is the distance between tempered glass 1 preferably 10-15cm with heater 9.This can preferably play water conservancy diversion apart from chin spoiler 4 and make With.

Second of diversion shell 7, at a distance from first basis shortening heating plate is between diversion shell 7, groove Dress is changed to be arranged in the circular hole on front housing, 7 lower part standard-sized sheet of diversion shell is connected with air outlet 21.The air purified By fan 22 from 7 internal diversion of diversion shell, blow to heating plate via circular hole, so it is radial around scatter, then plus Itself upper rotation, 360 ° of heat dissipations, area coverage are wider.Wherein the front housing and heater 9 of diversion shell 7 is between tempered glass 1 Distance be preferably 5-8cm.

It is provided in this embodiment for heat structure and heater it is innovative carbon nano-film coating is applied to 1 surface of tempered glass Form Novel heating material, applied in heater products, making product more perspective, the novel hair of the Fashion of Future new material The utilization trend of hot body 9；Innovative water conservancy diversion mode, by bottom purge module draws-in air, by fan 22 to up-draught, By heating plate and conducting element, along with itself rotation comes out heat " getting rid of ", the flowing and propagation of accelerated heat.Integrated purifying Device function；Cleaning module is carried, manufactures a comfortable clean air environment for full room.It is rotatable, accelerate heat dissipation, it can be achieved that certainly Rotation, cooperates conducting element, and accelerated heat distributes.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in essence of the invention Within mind and principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of for heat structure, including heater；It is characterized in that, the heater includes carbon nanocapsule thin film heating material layer； The carbon nanocapsule thin film heating material layer is arranged on tempered glass surface.

2. according to claim 1 for heat structure, which is characterized in that the double-deck tempered glass is arranged；The carbon nanocapsule thin film Heating material layer is arranged in the gap between the double-deck tempered glass, and the side of the double-deck tempered glass is circumferentially arranged with a circle side Frame, the frame cover the gap between the double-deck tempered glass.

3. according to claim 1 or 2 for heat structure, which is characterized in that further include: support；The support is hollow knot Structure, the rest base are equipped with air inlet, and the holder top is equipped with air outlet, is equipped with fan, the steel inside the support Change glass and is fixed on the top of the support, the air outlet side.

4. according to claim 3 for heat structure, which is characterized in that further include: conducting element；The conducting element is fixed on institute State the top of support, for guiding the air flowed out from the air outlet to flow out from the tempered glass surrounding.

5. according to claim 4 for heat structure, which is characterized in that the conducting element includes opposite with the tempered glass The deflector of setting；The edge of the deflector is arc-shaped and arc shaped inside is towards the tempered glass, the deflector The diversion trench being arranged from center to edge is evenly distributed on towards the side of the tempered glass, the air outlet is located at described Between deflector and the tempered glass.

6. according to claim 4 for heat structure, which is characterized in that the conducting element includes opposite with the tempered glass The diversion shell of setting；The diversion shell is hollow structure, and the diversion shell includes the arc-shaped front housing in edge And rear shell, the front housing close to the tempered glass and edge arc shaped inside towards the tempered glass, the front housing Position except the upper and tempered glass corresponding position is uniformly provided with deflector hole；The bottom of the diversion shell is equipped with and institute State the opening of air outlet connection.

7. according to claim 3 for heat structure, which is characterized in that further include: purification device；The purification device setting The support bottom and be rotatablely connected with the support, the side wall of the purification device is equipped with air intlet, described net Disguise the top set and be equipped with the air outlet slit being connected to the air inlet, the support is connected to the motor, and the motor is for driving Move the support rotation.

8. according to claim 3 for heat structure, which is characterized in that the top of the support is equipped with opening up first Conduit, the slot bottom of first conduit are equipped with the first positioning column, and the bottom of the tempered glass is equipped with the first locating slot, described The bottom of tempered glass is inserted into first conduit and first positioning column is inserted into first locating slot；

The one or both sides of the bottom of the tempered glass are vertically equipped with fixture block, in the one or both sides cell wall of first conduit Surface is correspondingly provided with card slot, and the fixture block is inserted into the card slot.

9. according to claim 4 for heat structure, which is characterized in that the top of the support is equipped with opening up second Conduit, the slot bottom of second conduit are equipped with the second positioning column, and the bottom of the conducting element is equipped with the second locating slot, described to lead The bottom for flowing part is inserted into second conduit and second positioning column is inserted into second locating slot；

The side cell wall inner surface of second conduit is equipped with hook, and the bottom of the conducting element is equipped with aperture, and the hook is inserted Enter in the aperture and is connected together with the conducting element.

10. a kind of heater, which is characterized in that any described for heat structure including the claims 1-9.