CN207219066U - Electric radiant Heating Film and there is its aerostatics equipment - Google Patents
Electric radiant Heating Film and there is its aerostatics equipment Download PDFInfo
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- CN207219066U CN207219066U CN201721230841.7U CN201721230841U CN207219066U CN 207219066 U CN207219066 U CN 207219066U CN 201721230841 U CN201721230841 U CN 201721230841U CN 207219066 U CN207219066 U CN 207219066U
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- electric radiant
- far infrared
- radiant heating
- heating film
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Abstract
The utility model provides a kind of Electric radiant Heating Film and has its aerostatics equipment.The Electric radiant Heating Film includes the heating layer and far infrared coating being stacked, and far infrared coating contacts setting with least one surface of heating layer.Due to propagating the property without medium using far infrared, it can realize and heating and thermal insulation is carried out to equipment every sky in the environment of this rarefaction of air of near space, heat transfer efficiency is not influenceed and limitation by communication media, so that above-mentioned Electric radiant Heating Film with equipment without contacting tightly, it can be realized as effective insulation to equipment, barbola work is simple, and cost is low;Refraction and focusing performance using far infrared, space waste heat or equipment cooling, firing equipment local function position, so as to improve overall energy utilization rate can be absorbed;Also, using the penetration capacity of far infrared, the interior molecules on equipment top layer and certain depth can be realized while absorb far-infrared radiation energy, so that equipment is produced from heating effect, be heated evenly and efficiency high.
Description
Technical field
Technical field of aerospace is the utility model is related to, is set in particular to a kind of Electric radiant Heating Film and with its aerostatics
It is standby.
Background technology
Near space is a low-temp low-pressure environment (less than -65 DEG C), in order to ensure near space aerostatics equipment just
Often operation or the survivability requirement for carrying biology, need to provide a suitable temperature environment, generally by being carried out to aerostatics equipment
The thermal control insulation to equipment is realized in heating, and at present, conventional mode of heating has heat transfer, convection current, three kinds of radiation.
Convection heat transfer' heat-transfer by convection need to do ature of coal propagation by medium (gas or liquid), and speed is slow, loss is big, and near space
Rarefaction of air (air pressure 3kPa), if conducted heat using cross-ventilation, the independence, air-tightness requirement to installation space are tight
It is severe;Handled if conducted heat using liquid convection, the problems such as water proofing property, liquid and equipment compatibility more complicated;In addition, convection current needs
Driving force, such as the equipment such as blower fan, pump, energy burden is big, increase noise source, system composition complexity.In general, closing on sky
Between difficulty, system complex, cost height are realized using convection heat transfer' heat-transfer by convection in aerostatics, be suitable for using under particular/special requirement occasion, do not have
There is universal usability.
Near space aerostatics generally uses the mode of heating of heat transfer at present, relies on heater and heating object
The contact in body surface face is conducted heat.Typical technical scheme is that surface mount PI Electric radiant Heating Films, the silicon of heating and thermal insulation are needed in equipment
Glue electric heating piece etc., due to above-mentioned Electric radiant Heating Film rely primarily on equipment surface thermal contact conductance, when Electric radiant Heating Film and equipment paste it is not tight or
When person's equipment surface is irregular, existing gap will influence heat transfer efficiency between Electric radiant Heating Film and equipment surface, increase energy loss;
In addition, equipment surface and inside are not to heat simultaneously, so as to be easily caused, heating is uneven, heat transfer efficiency is low;Also, with use
Time lengthening, glue are degenerated, and gap enlargement, are also not suitable for long-term use by this way.
Utility model content
Main purpose of the present utility model is to provide a kind of Electric radiant Heating Film and has its aerostatics equipment, existing to solve
The problem of existing gap is so as to influence heat transfer efficiency between Electric radiant Heating Film and equipment surface in technology.
To achieve these goals, according to one side of the present utility model, there is provided a kind of Electric radiant Heating Film, including stacking are set
The heating layer and far infrared coating put, far infrared coating contact setting with least one surface of heating layer.
Further, above-mentioned heating layer includes ink layer and conductive part, and conductive part contacts setting with ink layer, for oil
Layer of ink is powered.
Further, above-mentioned ink layer have with the contact surface of far infrared coating and the side being connected with contact surface,
The contacts side surfaces of conductive part and ink layer are set.
Further, above-mentioned side includes mutually isolated first side and second side, and conductive part includes and the first side
The first conductive part and the second conductive part set is contacted with second side that face contact is set, and the first conductive part and the second conduction
Portion's isolation is set.
Further, above-mentioned far infrared coating is the inorganic material layer for including aluminum oxide, silicon and binding agent.
Further, the thickness of above-mentioned far infrared coating is 0.25~0.4mm.
Further, above-mentioned far infrared coating is arranged at the side surface of heating layer one, and Electric radiant Heating Film also includes heat insulation coating, protects
Warm coating is arranged at the side of the remote far infrared coating of heating layer.
Further, above-mentioned Electric radiant Heating Film also includes insulating protective layer, has receiving space in insulating protective layer, heating layer with
Far infrared coating is arranged in receiving space.
Further, above-mentioned Electric radiant Heating Film also includes insulating protective layer, has receiving space in insulating protective layer, heating layer,
Far infrared coating and heat insulation coating are arranged in receiving space.
Further, above-mentioned insulating protective layer is Kapton.
According to another aspect of the present utility model, there is provided a kind of aerostatics equipment, including apparatus body and be arranged at
The Electric radiant Heating Film of an apparatus body at least side surface, Electric radiant Heating Film are above-mentioned Electric radiant Heating Film.
Using the technical solution of the utility model, there is provided a kind of Electric radiant Heating Film, the Electric radiant Heating Film include the heating being stacked
Layer and far infrared coating, far infrared coating contacts setting with least one surface of heating layer, because far infrared has
All fundamental propertys of light, the property without medium is propagated using far infrared, can be realized dilute in this air of near space
Heating and thermal insulation is carried out to equipment every sky in the environment of thin (air pressure about 3kPa), heat transfer efficiency is not influenceed and limit by communication media
System, so that above-mentioned Electric radiant Heating Film with equipment without contacting tightly, it becomes possible to realize effective insulation to equipment, barbola work letter
It is single, and cost is low;Refraction and focusing performance using far infrared, space waste heat or equipment cooling can be absorbed, heated
Equipment local function position, so as to improve overall energy utilization rate;Also, utilize the penetration capacity of far infrared, Neng Goushi
The interior molecules of existing equipment top layer and certain depth absorb far-infrared radiation energy simultaneously, so that equipment produces spontaneous heating effect
Should, it is heated evenly and efficiency high.
In addition to objects, features and advantages described above, the utility model also has other purposes, feature and excellent
Point.Below with reference to figure, the utility model is described in further detail.
Brief description of the drawings
A part of Figure of description of the present utility model is formed to be used for providing further understanding to of the present utility model, this
The schematic description and description of utility model is used to explain the utility model, does not form to improper limit of the present utility model
It is fixed.In the accompanying drawings:
Fig. 1 shows a kind of overlooking the structure diagram for Electric radiant Heating Film that the utility model embodiment is provided;
Fig. 2 shows cross-sectional view of the Electric radiant Heating Film shown in Fig. 1 in A-A ' directions;
Fig. 3 shows a kind of cross-sectional view of the Electric radiant Heating Film including heat insulation coating;
Fig. 4 shows that a kind of far infrared coating is arranged at the cross-sectional view of the Electric radiant Heating Film of heating layer both sides;
Fig. 5 shows that a kind of Electric radiant Heating Film that the utility model embodiment 1 is provided is applied to the structure after aerostatics equipment
Schematic diagram;And
Fig. 6 shows that a kind of Electric radiant Heating Film that the utility model embodiment 2 is provided is applied to the structure after aerostatics equipment
Schematic diagram.
Wherein, above-mentioned accompanying drawing marks including the following drawings:
10th, heating layer;110th, ink layer;120th, conductive part;20th, far infrared coating;30th, insulating protective layer;40th, it is incubated
Coating;50th, power line;100th, Electric radiant Heating Film;200th, apparatus body;300th, it is heated equipment.
Embodiment
It should be noted that in the case where not conflicting, the feature in embodiment and embodiment in the utility model can
To be mutually combined.Describe the utility model in detail below with reference to the accompanying drawings and in conjunction with the embodiments.
In order that those skilled in the art more fully understand the utility model, it is real below in conjunction with the utility model
The accompanying drawing in example is applied, the technical scheme in the embodiment of the utility model is clearly and completely described, it is clear that be described
Embodiment is only the embodiment of the utility model part, rather than whole embodiments.Based on the reality in the utility model
Example is applied, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made, all should
When the scope for belonging to the utility model protection.
It should be noted that term " first " in specification and claims of the present utility model and above-mentioned accompanying drawing,
" second " etc. is for distinguishing similar object, without for describing specific order or precedence.It should be appreciated that so
The data used can exchange in the appropriate case, so as to embodiment of the present utility model described herein.In addition, term " bag
Include " and " having " and their any deformation, it is intended that cover it is non-exclusive include, for example, containing series of steps
Or process, method, system, product or the equipment of unit are not necessarily limited to those steps or the unit clearly listed, but can wrap
Include not listing clearly or for the intrinsic other steps of these processes, method, product or equipment or unit.
As described in background technology, Electric radiant Heating Film of the prior art rely primarily on equipment surface thermal contact conductance,
When Electric radiant Heating Film and equipment paste not tight or equipment surface it is irregular when, existing gap is by shadow between Electric radiant Heating Film and equipment surface
Pilot's thermal efficiency, increase energy loss.The utility model is studied regarding to the issue above, it is proposed that a kind of Electric radiant Heating Film, such as Fig. 1
Shown in 2, including the heating layer 10 and far infrared coating 20 being stacked, far infrared coating 20 and heating layer 10 are at least
One surface contact is set.
Because heat is conducted to equipment by the electric heating element heating power of Electric radiant Heating Film in the prior art, although there is also certain
Heat radiation, it is but very faint, and radiation wave band is not consistent with the lattice vibration absorbing wavelength of general material, so overall
It is upper considerably less by the heat of radiant heat transfer, and the application possesses the advantages of following using far infrared radiation heat transfer:A. it is efficiently fast
Speed, save the energy;B. heating object absorbs far-infrared radiation energy simultaneously in the inside of certain depth and surface molecules, produces
Self-heating effect, homogeneous heating;C. far-infrared ray generating apparatus is simple;D. far infrared does not have Mingguang City, and human body is safe from harm, peace
It is entirely reliable, the advantages of heat transfer so as to the above-mentioned Electric radiant Heating Film combination far-infrared radiation of the application, it is fused to using maturation
In electrothermal film technology, the defects of effectively improving Electric radiant Heating Film equipment heating and thermal insulation be present near space aerostatics.
Specifically, in above-mentioned Electric radiant Heating Film due to far infrared coating, and far infrared has all basic natures of light
Matter, the property without medium is propagated using far infrared, can be realized at this rarefaction of air of near space (air pressure about 3kPa)
In the environment of every sky heating and thermal insulation is carried out to equipment, heat transfer efficiency is not influenceed and limitation by communication media, so that above-mentioned electricity
Hotting mask with equipment without contacting tightly, it becomes possible to realizes effective insulation to equipment, barbola work is simple, and cost is low;Utilize
The refraction of far infrared and focusing performance, can absorb space waste heat or equipment cooling, firing equipment local function position,
So as to improve overall energy utilization rate;Also, using the penetration capacity of far infrared, equipment top layer and a depthkeeping can be realized
The interior molecules of degree absorb far-infrared radiation energy simultaneously, so that equipment is produced from heating effect, are heated evenly and efficiency high.
In above-mentioned Electric radiant Heating Film of the present utility model, far infrared coating 20 contacts with an at least side surface for heating layer 10
Set, the circumscripted power line 50 of heating layer 10, far infrared coating 20 by absorbing heat caused by the heating power of heating layer 10, then
It is radiation infrared to carry out heating and thermal insulation to being heated equipment.In order to improve the heat absorption efficiency of above-mentioned infrared coating 20
Improve the radiation infrared efficiency of infrared coating 20, in a preferred embodiment, above-mentioned infrared coating simultaneously
20 coating using aluminum oxide as main component, then add a small amount of silicon and with binding agent composition mixture, by by above-mentioned coating
It is coated on an at least side surface for heating layer 10 and obtains infrared coating 20, manufacture, coating processes is simple, and cost is low;And
And using combinations of the above thing the Low Temperature Far Infrared radiation wave band of infrared coating 20 can be made to be concentrated mainly on 4~14 μm of ripples
Section, is consistent with 5~15 μm of the lattice vibration absorbing wavelength of general material, is heated equipment to far infrared absorption efficiency height, adds
It is hot rapid.
In above-mentioned preferred embodiment, kind that those skilled in the art can be according to prior art to above-mentioned binding agent
Class carries out Rational choice, in order to realize the firm bonding between above-mentioned infrared coating 20 and heating layer 10, it is preferable that above-mentioned viscous
Tie agent and be selected from any of waterglass, Ludox, organosilicate and phosphate.Also, those skilled in the art can root
Reasonable set is carried out to the thickness of above-mentioned infrared coating 20 according to prior art, in order to ensure above-mentioned far infrared coating 20 simultaneously
Heat absorption efficiency and far infrared radiation efficiency, it is preferable that the thickness of far infrared coating 20 is 0.25~0.4mm.
In above-mentioned Electric radiant Heating Film of the present utility model, in order to realize the heating functioin of above-mentioned heating layer 10 upon power-up,
In a preferred embodiment, above-mentioned heating layer 10 includes ink layer 110 and conductive part 120, conductive part 120 and ink layer
110 contacts are set, for being powered to ink layer 110.Those skilled in the art can be according to prior art to above-mentioned ink layer 110
Material carry out Rational choice, specifically, above-mentioned ink layer 110 can be nano-sized magnesium hydroxide or the resistance to height of nano boric acid zinc modification
The fire-retardant oil film printing of temperature forms.Also, those skilled in the art can also be carried out according to prior art to the material of conductive part 120
Rational choice, above-mentioned conductive part 120 can be copper strips, specifically, can be by printing the conductive pastes such as silver paste on heating layer 10
Material, copper strips is arranged on carrying out in the case where electrocondution slurry is not completely dried compound.
In above-mentioned preferred embodiment, in order to avoid above-mentioned conductive part 120 set location to heating layer 10 with it is remote
The influence of heat transfer between infrared coating 20, it is preferable that ink layer 110 have with the contact surface of far infrared coating 20 and
The side being connected with contact surface, the contacts side surfaces of conductive part 120 and ink layer 110 are set.Mode is preferable to provide using above-mentioned
Conductive part 120 and far infrared coating 20 can be made to be arranged on the different surface of ink layer 110, led so as to efficiently avoid
Electric portion 120 is arranged between ink layer 110 and far infrared coating 20 influence to caused by heat transfer.
It is further preferable that the side of above-mentioned ink layer 110 includes mutually isolated first side and second side, conductive part
120 include contacting the first conductive part set with above-mentioned first side and the second conduction set are contacted with above-mentioned second side
Portion, and above-mentioned first conductive part and the isolation of the second conductive part are set.Conductive part 120 can be made using the above-mentioned mode that is preferable to provide
The both sides of ink layer 110 are arranged at, and by the way that the conductive part 120 of both sides is connected into power line 50 respectively, improve heating layer 10
Electric conversion efficiency.
In above-mentioned Electric radiant Heating Film of the present utility model, far infrared coating 20 can be only arranged at the both sides table of heating layer 10
Face, as shown in figure 4, above-mentioned far infrared coating 20 can also be only arranged at the side surface of heating layer 10 1, now, it is preferable that on
Stating Electric radiant Heating Film also includes heat insulation coating 40, and heat insulation coating 40 is arranged at the side of the remote far infrared coating 20 of heating layer 10,
As shown in Figure 3.Above-mentioned heat insulation coating 40 is used for heat-insulation and heat-preservation, the overwhelming majority for enabling heating layer 10 to be powered in caused heat
Absorbed and be used for radiation infrared by far infrared coating.Those skilled in the art can be above-mentioned to being formed according to prior art
The coating of heat insulation coating 40 carries out Rational choice, in order to improve the thermal insulation of above-mentioned heat insulation coating 40, it is preferable that resistance to using ZS-1
High temperature insulating thermal insulation coatings form above-mentioned heat insulation coating 40.
In above-mentioned Electric radiant Heating Film of the present utility model, Electric radiant Heating Film can also include insulating protective layer 30, insulating protective layer 30
Interior to have receiving space, heating layer 10 and far infrared coating 20 are arranged in receiving space, when Electric radiant Heating Film also includes being arranged at
During the heat insulation coating 40 of the side of remote far infrared coating 20 of heating layer 10, heating layer 10, far infrared coating 20 and insulation
Coating 40 is arranged in receiving space, i.e., insulating protective layer 30 forms the outer surface of Electric radiant Heating Film.When the surface of aerostatics equipment
For conducting metal when, protection that above-mentioned insulating protective layer 30 can not only be to the function such as heating layer 10 and far infrared coating 20 is made
With, additionally it is possible to play a part of making insulating between Electric radiant Heating Film and aerostatics equipment.In order to improve the mechanicalness of insulating protective layer 30
Energy and insulating properties, it is preferable that above-mentioned insulating protective layer 30 is Kapton.But above-mentioned preferable species is not limited to,
Those skilled in the art can carry out Rational choice according to prior art to the material of above-mentioned insulating protective layer 30.
According to another aspect of the present utility model, a kind of aerostatics equipment, including apparatus body and setting are additionally provided
Above-mentioned Electric radiant Heating Film in an apparatus body at least side surface.Because the Electric radiant Heating Film includes the heating layer being stacked and far infrared
Line coating, far infrared coating contact setting with least one surface of heating layer, and far infrared has all basic natures of light
Matter, the property without medium is propagated using far infrared, can be realized at this rarefaction of air of near space (air pressure about 3kPa)
In the environment of every sky heating and thermal insulation is carried out to equipment, heat transfer efficiency is not influenceed and limitation by communication media, so that above-mentioned electricity
Hotting mask with equipment without contacting tightly, it becomes possible to realizes effective insulation to equipment, barbola work is simple, and cost is low;Utilize
The refraction of far infrared and focusing performance, can absorb space waste heat or equipment cooling, firing equipment local function position,
So as to improve overall energy utilization rate;Also, using the penetration capacity of far infrared, equipment top layer and a depthkeeping can be realized
The interior molecules of degree absorb far-infrared radiation energy simultaneously, so that equipment is produced from heating effect, are heated evenly and efficiency high.
In the Electric radiant Heating Film of above-mentioned aerostatics equipment of the present utility model, at least one surface of heating layer 10 is coated with far
Infrared coating 20, according to different usage scenarios, it is coated far infrared coating 20 or adds to apply in the another side of heating layer 10
Heat insulation coating 40, Electric radiant Heating Film and aerostatics equipment provided by the utility model are further illustrated below in conjunction with embodiment.
Embodiment 1
The heat of the big equipment of near space aerostatics operation quantity of heat production is recycled using the Electric radiant Heating Film of structure as shown in Figure 2
Amount.The Electric radiant Heating Film includes heating layer 10, far infrared coating 20 and insulating protective layer 30, far infrared coating 20 and heating layer 10
The contact of at least one surface set, there is receiving space in insulating protective layer 30, heating layer 10 and far infrared coating 20 are set
It is placed in receiving space, the side surface mount of the close heating layer 10 of Electric radiant Heating Film 100 is arranged on the big equipment sheet of quantity of heat production
On the surface of body 200, as shown in figure 5, by heat transfer absorb heat and it is radiation infrared to be heated equipment 300 add
Heat insulation, when shortage of heat caused by equipment operation, produce heat to the energization of heating layer 10 and carry out auxiliary heating, if by
The optical elements such as anaclasis plate, concave mirror, lens, then far infrared refraction, transmission, the property focused on can be utilized, to being heated
The local function position of equipment 300 carries out concentration heating and thermal insulation, and because near space atmospheric density is low, far infrared is being propagated
During due to the heat of air absorption loss water it is few, so as to realize the recycling of heat, save the energy.
Embodiment 2
Install space concentratedly near space aerostatics equipment using Electric radiant Heating Film as shown in Figure 3 and carry out thermal control insulation.Should
Electric radiant Heating Film includes heating layer 10, far infrared coating 20, heat insulation coating 40 and insulating protective layer 30, and far infrared coating 20 is with protecting
Warm coating 40 is respectively arranged at the both sides of heating layer 10, has receiving space, heating layer 10, far infrared in insulating protective layer 30
Coating 20 and heat insulation coating 40 are arranged in receiving space, and the side of close heat insulation coating 40 of Electric radiant Heating Film 100 is pasted and is arranged on
The surface of apparatus body 100, as the surrounding of apparatus body 100, bottom surface and top surface at least one surface on, as shown in fig. 6, and
Electric radiant Heating Film surface and aerostatics equipment surface paste installation temperature sensitive probe, for gathering Electric radiant Heating Film surface temperature and equipment list in real time
Face temperature, by Electric radiant Heating Film surface temperature control below 150 DEG C.When equipment surface temperature is relatively low, it is powered to heating layer 10, far
Heat caused by the absorption heating layer 10 of infrared coating 20 is simultaneously radiation infrared to equipment progress heating and thermal insulation.
Embodiment 3
Added using the Low Temperature Far Infrared line Electric radiant Heating Film of structure as shown in Figure 4 as the small-sized life support system of near space aerostatics
The thermal source of hot equipment.Including heating layer 10, far infrared coating 20 and insulating protective layer 30, far infrared coating 20 is set respectively
In the both sides of heating layer 10, there is receiving space in insulating protective layer 30, heating layer 10 and far infrared coating 20 are arranged at appearance
Receive in space, using the far infrared coating 20 of both sides absorb heating layer 10 be powered caused by heat and to external radiation far infrared
Line, realize and heating and thermal insulation is carried out to the empty gas and water in life support system, food, biology, equipment;FAR INFRARED HEATING efficiency high, speed
Degree is fast, not only favourable on the contrary without injuring to biology and human body, can stimulate circulation, increase skin surface cell activity;
Also, because the Electric radiant Heating Film is readily processible to different shape, so firing equipment is simple in construction, it is not necessary to as convection heat transfer' heat-transfer by convection
Complicated system composition, is produced into manufacture originally low, homogeneous heating, and energy utilization rate is high.
As can be seen from the above description, the utility model the above embodiments realize following technique effect:
1st, in above-mentioned Electric radiant Heating Film due to far infrared coating, and far infrared has all fundamental propertys of light, profit
The property without medium is propagated with far infrared, the environment in this rarefaction of air of near space (air pressure about 3kPa) can be realized
Under every sky heating and thermal insulation is carried out to equipment, heat transfer efficiency is not influenceed and limitation by communication media so that above-mentioned Electric radiant Heating Film without
It need to be contacted with equipment tightly, it becomes possible to realize effective insulation to equipment, barbola work is simple, and cost is low;
2nd, the refraction using far infrared and focusing performance, can absorb space waste heat or equipment cooling, and heating is set
Standby local function position, so as to improve overall energy utilization rate;
3rd, using the penetration capacity of far infrared, the interior molecules on equipment top layer and certain depth can be realized while absorbed
Far-infrared radiation energy, so that equipment is produced from heating effect, it is heated evenly and efficiency high.
Preferred embodiment of the present utility model is the foregoing is only, is not limited to the utility model, for this
For the technical staff in field, the utility model can have various modifications and variations.It is all in the spirit and principles of the utility model
Within, any modification, equivalent substitution and improvements made etc., it should be included within the scope of protection of the utility model.
Claims (11)
1. a kind of Electric radiant Heating Film, it is characterised in that described remote including the heating layer (10) and far infrared coating (20) being stacked
Infrared coating (20) contacts setting with least one surface of the heating layer (10).
2. Electric radiant Heating Film according to claim 1, it is characterised in that the heating layer (10) includes ink layer (110) and led
Electric portion (120), the conductive part (120) contact setting with the ink layer (110), for being powered to the ink layer (110).
3. Electric radiant Heating Film according to claim 2, it is characterised in that the ink layer (110) has and the far infrared
The contact surface of coating (20) and the side being connected with the contact surface, the conductive part (120) and the ink layer (110)
Contacts side surfaces are set.
4. Electric radiant Heating Film according to claim 3, it is characterised in that the side includes mutually isolated first side and the
Two side faces, the conductive part (120) include contact with the first side setting the first conductive part and with the second side
The second conductive part set is contacted, and first conductive part and second conductive part isolation are set.
5. Electric radiant Heating Film according to claim 1, it is characterised in that the far infrared coating (20) be include aluminum oxide,
The inorganic material layer of silicon and binding agent.
6. Electric radiant Heating Film according to claim 5, it is characterised in that the thickness of the far infrared coating (20) be 0.25~
0.4mm。
7. Electric radiant Heating Film according to claim 1, it is characterised in that the far infrared coating (20) is arranged at the heating
(10) one side surface of layer, the Electric radiant Heating Film also include heat insulation coating (40), and the heat insulation coating (40) is arranged at the heating layer
(10) side of the remote far infrared coating (20).
8. Electric radiant Heating Film according to claim 1, it is characterised in that the Electric radiant Heating Film also includes insulating protective layer (30), institute
Stating insulating protective layer (30) has receiving space, and the heating layer (10) and the far infrared coating (20) are arranged at the appearance
Receive in space.
9. Electric radiant Heating Film according to claim 7, it is characterised in that the Electric radiant Heating Film also includes insulating protective layer (30), institute
Stating in insulating protective layer (30) has receiving space, the heating layer (10), the far infrared coating (20) and the insulation
Coating (40) is arranged in the receiving space.
10. Electric radiant Heating Film according to claim 8 or claim 9, it is characterised in that the insulating protective layer (30) is that polyimides is thin
Film.
11. a kind of aerostatics equipment, including apparatus body (200) and the electricity for being arranged at a apparatus body at least side surface
Hotting mask (100), it is characterised in that the Electric radiant Heating Film (100) is the Electric radiant Heating Film (100) any one of claim 1 to 10.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721230841.7U CN207219066U (en) | 2017-09-22 | 2017-09-22 | Electric radiant Heating Film and there is its aerostatics equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721230841.7U CN207219066U (en) | 2017-09-22 | 2017-09-22 | Electric radiant Heating Film and there is its aerostatics equipment |
Publications (1)
Publication Number | Publication Date |
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CN207219066U true CN207219066U (en) | 2018-04-10 |
Family
ID=61822780
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201721230841.7U Expired - Fee Related CN207219066U (en) | 2017-09-22 | 2017-09-22 | Electric radiant Heating Film and there is its aerostatics equipment |
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Country | Link |
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CN (1) | CN207219066U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111010751A (en) * | 2019-12-23 | 2020-04-14 | 中国科学院光电研究院 | Heating device of near space load service cabin |
CN114276929A (en) * | 2021-12-29 | 2022-04-05 | 中国科学院国家空间科学中心 | Biological exposure device for near space scientific experiment |
-
2017
- 2017-09-22 CN CN201721230841.7U patent/CN207219066U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111010751A (en) * | 2019-12-23 | 2020-04-14 | 中国科学院光电研究院 | Heating device of near space load service cabin |
CN114276929A (en) * | 2021-12-29 | 2022-04-05 | 中国科学院国家空间科学中心 | Biological exposure device for near space scientific experiment |
CN114276929B (en) * | 2021-12-29 | 2024-04-05 | 中国科学院国家空间科学中心 | Biological exposure device for near space science experiment |
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