CN201672589U - Carbon crystal fiber bottom warming system - Google Patents
Carbon crystal fiber bottom warming system Download PDFInfo
- Publication number
- CN201672589U CN201672589U CN2010201963422U CN201020196342U CN201672589U CN 201672589 U CN201672589 U CN 201672589U CN 2010201963422 U CN2010201963422 U CN 2010201963422U CN 201020196342 U CN201020196342 U CN 201020196342U CN 201672589 U CN201672589 U CN 201672589U
- Authority
- CN
- China
- Prior art keywords
- crystal fiber
- carbon crystal
- heating
- layer
- heating system
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Images
Landscapes
- Resistance Heating (AREA)
- Central Heating Systems (AREA)
- Surface Heating Bodies (AREA)
Abstract
The utility model provides a carbon crystal fiber bottom warming system, which comprises an upper surface layer, an insulation film protection layer, a carbon crystal fiber heating layer, a reflection layer, a heat insulation layer and a lower bottom face layer which are sequentially arranged in an overlapped manner. The carbon crystal fiber bottom warming system has the advantages of low cost, space economization, benefits for human health and the like.
Description
Technical field
The utility model relates to a kind of heating installation, relates in particular to heating system at the bottom of a kind of carbon crystal fiber.
Background technology
In the place of numerous colds, such as the north of China, its, outside air temperature was lower usually in winter, so generally need be at the indoor warming installation that is provided with.
The warming installation in the north mainly contains room heater sheet, built-in type plumbing fixture and air-conditioning etc. at present, and existing these several heating forms all have its drawback.For example, the room heater sheet influences indoor attractive in appearance; The built-in type plumbing fixture need be before laying floor, and just with the underground water circulation system that all lays in whole room, not only cost is higher, and follow-up inconvenient maintenance; Air-conditioning then has the installation site to be fixed, and full warm braw causes the room air drying easily to single, makes weak points such as human body does not feel well.
Therefore, be necessary to provide a kind of heating installation that can overcome these problems.
The utility model content
At the various problems that the multiple heating form of prior art exists, the utility model provide a kind of cost low, save the space and to heating system at the bottom of the useful carbon crystal fiber of health.
Heating system comprises upper surface layer, insulation film protective layer, carbon crystal fiber heating layer, reflecting layer, thermal insulation layer and the surface layer of going to the bottom that is cascading at the bottom of a kind of carbon crystal fiber.
Preferably, this carbon crystal fiber heating layer and external power source electrically connect, and comprise a plurality of carbon crystal fiber heating modules.
Preferably, these a plurality of carbon crystal fiber heating layers are parallel with one another.
Preferably, spacing is 1-2cm between these a plurality of carbon crystal fiber heating modules.
Preferably, this insulation film protective layer covers this carbon crystal fiber heating layer.
Preferably, this reflecting layer is arranged on this carbon crystal fiber heating layer below, and its material is a silver foil.
Preferably, heating system further comprises temperature detection device at the bottom of this carbon crystal fiber, and this temperature detection device is close to this carbon crystal fiber heating layer.
Preferably, heating system further comprises temperature control equipment at the bottom of this carbon crystal fiber, and this carbon crystal fiber heating layer electrically connects by this temperature control equipment and external power source.
Preferably, the integral thickness of heating system is less than or equal to 2cm at the bottom of this carbon crystal fiber.
Preferably, at the bottom of this carbon crystal fiber the area of heating system less than 16m
2
The heating system volume is less at the bottom of this carbon crystal fiber of the present utility model, possesses mobility preferably, and does not need facilities such as boiler, heat exchange station, pipeline and radiator, and cost is lower.In its heating range set, in conjunction with cross-ventilation heating and FAR INFRARED HEATING heating, health good for health.In addition, heating system heats fast at the bottom of this carbon crystal fiber, electrical security is better, does not produce pollutions such as light, sound, dust.
In sum, at the bottom of this carbon crystal fiber of the present utility model heating system have cost low, save the space and to advantages such as health are useful.
Description of drawings
Fig. 1 is that the functional module of heating system one better embodiment concerns schematic diagram at the bottom of the utility model carbon crystal fiber.
Fig. 2 is the side structure schematic diagram of the heating installation of heating system at the bottom of the carbon crystal fiber shown in Figure 1.
Fig. 3 is the schematic top plan view of heating installation shown in Figure 2.
The specific embodiment
Below in conjunction with accompanying drawing to carbon crystal fiber of the present utility model at the bottom of heating system describe.
See also Fig. 1 to Fig. 3, wherein, Fig. 1 is that the functional module of heating system one better embodiment concerns schematic diagram at the bottom of the utility model carbon crystal fiber, and Fig. 2 is the side structure schematic diagram of the heating installation of heating system at the bottom of the carbon crystal fiber shown in Figure 1, and Fig. 3 is the schematic top plan view of heating installation shown in Figure 2.
Heating system 1 comprises heating installation 10, temperature detection device 12 and temperature control equipment 14 at the bottom of this carbon crystal fiber.
In accordance with the order from top to bottom, this heating installation 10 comprises upper surface layer 100, insulation film protective layer 101, carbon crystal fiber heating layer 102, reflecting layer 103, thermal insulation layer 104 and the surface layer 105 of going to the bottom of stacked setting successively.
This upper surface layer 100 is the outermost layer of this heating installation 10, and it can form required pattern on its surface, to reach requirement attractive in appearance as external direct contact layer.
This insulation film protective layer 101 is arranged on this upper surface layer 100 belows; and cover this carbon crystal fiber heating layer 102; it mainly acts on dust that interception part infiltrates from this upper surface layer 100 and steam etc.; keep the cleaning of this carbon crystal fiber heating layer 102, and prevent this carbon crystal fiber heating layer 102 unexpected electric leakages.
The main effect of this carbon crystal fiber heating layer 102 is to produce heat and far infrared.This carbon crystal fiber heating layer 102 comprises a plurality of carbon crystal fiber heating modules 104, and these a plurality of carbon crystal fiber heating modules 104 are parallel with one another, and is 1-2cm apart from D between the adjacent two carbon crystal fiber heating modules 104.Under electric field action, the brilliant molecule of the carbon of carbon crystal fiber heating module 104 does Brownian movement and friction generates heat mutually, the temperature of carbon crystal fiber is raise, and the heat that it produced is delivered to this heating installation 10 surfaces.The heat that is delivered to these heating installation 10 surfaces is the convective motion by air further, with the air heat of these heating installation 10 tops.Wherein, this carbon crystal fiber heating layer 102 is under lasting energising situation, its heating temp is no more than 50 degrees centigrade, and because its electrical current is less, so even staff touches this carbon crystal fiber heating layer 102, for example, under extreme case, this carbon crystal fiber heating layer 102 is the fracture of position accident from the center, also can not endanger the electric shock problem of personal safety.Therefore, its electrical security is better.
Simultaneously, this carbon crystal fiber heating layer 102 can also produce the far infrared of a large amount of wavelength at the 8-15 mu m range in the heating process, and its infrared ray conversion ratio can reach more than 70%.The far infrared of this wavelength period is highly profitable to the health of human body, because human body itself is a far-infrared radiation source, it can absorb and launch far red light, so when the far-infrared radiation human body, its frequency is consistent with the cellular elements and the interatomic hydrone motion frequency of human body, cause resonance effects, effectively stimulate circulation and metabolism, make water molecule activation, synthesizing of the biology enzyme that the acceleration human body needs, biomolecule such as while activation of protein, thus the regeneration ability of enhancing immunity of organisms and biological cell promotes healthy.Also have, the far infrared that is produced can also purify air, and makes airborne anion concentration reach 208/cm
3
In addition, experiment showed, at human body and feel under the same comfortable environment that the far infrared heating environment temperature more required than the cross-ventilation heating hanged down about 2 ℃.Therefore, heating system 1 can make human body feel warm and moist under lower cost at the bottom of this carbon crystal fiber of the present utility model.
This reflecting layer 103 is arranged on this carbon crystal fiber heating layer 102 belows, it has reflectivity preferably, main effect is that heat and far infrared reflection that this carbon crystal fiber heating layer 102 is produced are propagated towards these upper surface layer 100 directions, effectively carries out Btu utilization, improves the heat energy utilization rate.This reflecting layer 103 can be made with silver foil.
This thermal insulation layer 104 is arranged on this reflecting layer 103 and this is gone to the bottom between the surface layer 105, it mainly acts on is to reduce heat to be passed to stayed surface (as ground, floor or carpet etc.) to this surface layer 105 of going to the bottom, further improve utilization efficiency of heat energy, thus saves energy consumption and heat cost.
This insulation media that surface layer 105 contacts with stayed surface for this heating installation 10 of going to the bottom, according to different demands, it can be hard material, it also can be the pliability material, suitable material such as plastic cement, cloth for example is so that crispatura heating system 1 at the bottom of this carbon crystal fiber to take in when not using.
These temperature detection device 12 parallel this carbon crystal fiber heating layers 102 of being close to for example can stick on this carbon crystal fiber heating layer 102 surfaces with adhesive tape, and it mainly acts on is the temperature of this carbon crystal fiber heating layer 102 of real-time detection.
This temperature control equipment 14 is as the electric connection intermediary of external power source and this carbon crystal fiber heating layer 102, and it accepts the temperature detection data of this temperature detection device 12, and controls the caloric value of this carbon crystal fiber heating layer 102 according to the temperature detection data.For example, when the user need heighten heating temperature, it can regulate this temperature control equipment 14, to increase the operating current of this carbon crystal fiber heating layer 102; Otherwise, when the user need reduce heating temperature, can regulate this temperature control equipment 14, to reduce the operating current of this carbon crystal fiber heating layer 102.According to different needs, this temperature control equipment 14 can be designed as knob, push button, can also be designed to digital remote control formula etc.
With respect to heating modes such as traditional room heater sheet, built-in type plumbing fixture and air-conditionings, heating system 1 has the advantage of not limitting area, not limitting occupation mode at the bottom of this carbon crystal fiber of the present utility model, do not influence indoor attractive in appearance, do not need to be embedded under the floor in advance yet, can be used for dissimilar buildings, when not using, can take in, possess splendid mobility with conserve space.In addition, it also comprises following advantage:
At first, cost is lower.Heating system 1 does not need facilities such as boiler, heat exchange station, pipeline and radiator at the bottom of this carbon crystal fiber, and its integral thickness is no more than 2cm, and area can be accomplished whole room area, also can be at 16m
2Below, occupied space own is also less, can reduce a large amount of straight spaces and indirect space.According to different demands, can locally lay, generally it is laid area and accounts for the heating requirement that 60% of room area is enough to satisfy whole room.
Secondly, health good for health.The heat of heating system 1 distributes in the superjacent air space that mainly concentrates in its length and width scope at the bottom of this carbon crystal fiber, and the heat that distributes towards periphery is less, so its heating efficient is higher, in use, for example fill up on the ground below the desk, it at first to the human foot heating, meets the healthy way to keep in good health.The heating mode of heating system 1 is cross-ventilation heating and FAR INFRARED HEATING combination at the bottom of this carbon crystal fiber, avoids causing from single direction (for example air-conditioning) heating the problem of changes in temperature inequality, does not also exist and causes air dried deficiency.
Also have, fast heating, safe in utilization.The electric heating conversion efficiency of heating system 1 is up to more than 98%, so its heating is very fast at the bottom of this carbon crystal fiber.And, select the suitable insulation material, its dielectric strength 2750V that is up to state standards, high-breakdown-voltage is 10KV, can reach 100,000 hours service life.Pollutions such as whole heating process is noiseless, unglazed, dustless can not produce harmful electromagnetic radiation, not by the worry of heating system scald.
In sum, at the bottom of this carbon crystal fiber of the present utility model heating system 1 have cost low, save the space and to advantages such as health are useful.
Only be preferred case study on implementation of the present utility model below, be not limited to the utility model, for a person skilled in the art, the utility model can have various more being somebody's turn to do and variation.All within spirit of the present utility model and principle, done anyly repair this, be equal to replacement, this advances etc., all should be included within the protection domain of the present utility model.
Claims (10)
1. heating system at the bottom of the carbon crystal fiber, it is characterized in that: heating system comprises upper surface layer, insulation film protective layer, carbon crystal fiber heating layer, reflecting layer, thermal insulation layer and the surface layer of going to the bottom that is cascading at the bottom of this carbon crystal fiber.
2. heating system at the bottom of the carbon crystal fiber according to claim 1 is characterized in that: this carbon crystal fiber heating layer and external power source electrically connect, and comprise a plurality of carbon crystal fiber heating modules.
3. heating system at the bottom of the carbon crystal fiber according to claim 2 is characterized in that: these a plurality of carbon crystal fiber heating layers are parallel with one another.
4. heating system at the bottom of the carbon crystal fiber according to claim 2 is characterized in that: spacing is 1-2cm between these a plurality of carbon crystal fiber heating modules.
5. heating system at the bottom of the carbon crystal fiber according to claim 1 is characterized in that: this insulation film protective layer covers this carbon crystal fiber heating layer.
6. heating system at the bottom of the carbon crystal fiber according to claim 1 is characterized in that: this reflecting layer is arranged on this carbon crystal fiber heating layer below, and its material is a silver foil.
7. heating system at the bottom of the carbon crystal fiber according to claim 1 is characterized in that: heating system further comprises temperature detection device at the bottom of this carbon crystal fiber, and this temperature detection device is close to this carbon crystal fiber heating layer.
8. heating system at the bottom of the carbon crystal fiber according to claim 7 is characterized in that: heating system further comprises temperature control equipment at the bottom of this carbon crystal fiber, and this carbon crystal fiber heating layer electrically connects by this temperature control equipment and external power source.
9. heating system at the bottom of the carbon crystal fiber according to claim 1 is characterized in that: the integral thickness of heating system is less than or equal to 2cm at the bottom of this carbon crystal fiber.
10. heating system at the bottom of the carbon crystal fiber according to claim 1 is characterized in that: the area of heating system is less than 16m at the bottom of this carbon crystal fiber
2
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010201963422U CN201672589U (en) | 2010-05-17 | 2010-05-17 | Carbon crystal fiber bottom warming system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010201963422U CN201672589U (en) | 2010-05-17 | 2010-05-17 | Carbon crystal fiber bottom warming system |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN201672589U true CN201672589U (en) | 2010-12-15 |
Family
ID=43330001
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2010201963422U Expired - Fee Related CN201672589U (en) | 2010-05-17 | 2010-05-17 | Carbon crystal fiber bottom warming system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN201672589U (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108443946A (en) * | 2018-03-12 | 2018-08-24 | 四川大仁新创科技有限公司 | A kind of mobile i.e. thermally dim device |
-
2010
- 2010-05-17 CN CN2010201963422U patent/CN201672589U/en not_active Expired - Fee Related
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN108443946A (en) * | 2018-03-12 | 2018-08-24 | 四川大仁新创科技有限公司 | A kind of mobile i.e. thermally dim device |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| JP5317485B2 (en) | Infrared electric heating floor heating floor plate | |
| CN201688489U (en) | Electrothermal floorboard | |
| CN103470002A (en) | Far infrared floor heating stone tile | |
| CN106476089B (en) | The manufacturing process and its timber floor of built-in carbon fiber electrothermal layer wood bamboo composite floor | |
| CN101078295A (en) | Electric heat floor | |
| CN202109574U (en) | Carbon fiber far-infrared ground heating mat | |
| CN206944307U (en) | A kind of marble intelligent heating floor | |
| CN201007069Y (en) | Infrared electrothermic overhead heating floor block and combined floor thereof | |
| CN204531284U (en) | Intelligence far-infrared heating floor | |
| CN201672589U (en) | Carbon crystal fiber bottom warming system | |
| CN201439963U (en) | Novel heat radiator | |
| CN101968237B (en) | Ground heating floor with gas channel structure | |
| CN204438309U (en) | A kind of low-temperature radiation electric heating mulching film heating system installation structure | |
| CN109556168A (en) | A kind of graphene electric heating thin-film equipment | |
| CN201396834Y (en) | Stone ondol board | |
| CN203121725U (en) | Dual-purpose far infrared carbon fiber electric heated floor mattress | |
| CN203010741U (en) | Novel electric floor heater | |
| CN202734031U (en) | Self-temperature-controlling floor heating device | |
| CN203514714U (en) | Far infrared floor heating stone tile | |
| CN206128498U (en) | Accuse temperature heating ceramic tile | |
| CN201772541U (en) | Safety energy-saving box type temperature-control warmer | |
| CN202035951U (en) | Environmental-friendly floor heating blanket | |
| CN202546902U (en) | Wall warming plate | |
| CN201043800Y (en) | Heater | |
| CN207975724U (en) | Electric heating floor heating installation without facing magnet attraction |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20101215 Termination date: 20130517 |