CN207117989U - The omnipotent infrared patch of high-efficiency flexible - Google Patents
The omnipotent infrared patch of high-efficiency flexible Download PDFInfo
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- CN207117989U CN207117989U CN201721050253.5U CN201721050253U CN207117989U CN 207117989 U CN207117989 U CN 207117989U CN 201721050253 U CN201721050253 U CN 201721050253U CN 207117989 U CN207117989 U CN 207117989U
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Abstract
The utility model discloses a kind of omnipotent infrared patch of high-efficiency flexible, it is characterized in that, it includes controller, waterproof layer one, heat-insulation layer, heating layer, heat-conducting layer, waterproof layer two, heat-insulation layer is set on waterproof layer one, heating layer is arranged between heat-insulation layer and heat-conducting layer, and waterproof layer two is covered on heat-conducting layer;The thermal insulation of heat-insulation layer makes heating layer heat energy by heat-conducting layer be in unidirectional heat transfer;Temperature-sensing element is provided with heating layer, temperature-sensing element and heating layer are connected with controller.The utility model is simple in construction, is unidirectionally conducted in heating object by heat-conducting layer, is greatly enhanced the efficiency of heating surface.
Description
Technical field
A kind of infrared heater technical field is the utility model is related to, particularly a kind of flexible omnipotent infrared patch.
Background technology
Infrared heating is to be widely used in industrial, civilian mature technology.The heat transfer form of infrared ray is radiant heat transfer, by
Electromagnetic wave transmits energy.When far infrared is irradiated to heated object, a part of ray is reflected back, and a part is worn
Through going.When the far infrared wavelength of transmitting is consistent with the absorbing wavelength of heating object, heated object absorbs remote red
" resonance " occurs for outside line, at this moment, interior of articles molecule and atom -- strong vibration, rotation are produced, and vibration and rotation make thing
Temperature raises, and has reached the purpose of heating.At present, infrared heating pad commodity are a feast for the eyes, and patent application is also many, such as
CN2011110420737, CN2010201300848, CN2016203566076 etc., although respectively there is feature, common drawback is
The thermal efficiency of product is very low, and use is also inconvenient, shows as:1st, it is not provided with heat-insulation layer so that heating surface and non-heated
The temperature indifference in face, heat energy can not be utilized effectively;2nd, temperature distributing disproportionation is even, between heating wire surface temperature and two heating wires
Nearly 23 degree of the temperature difference, has a strong impact on for heating object temperature homogeneity;3, heat energy dissipation, temperature rise is slow.
The content of the invention
The purpose of this utility model is exactly to provide a kind of simple in construction to solve the deficiency of prior art, can be improved
The thermal efficiency, the omnipotent infrared patch of high-efficiency flexible that radiation temperature is more evenly distributed.
The utility model is to realize above-mentioned purpose using following technical solution:A kind of high-efficiency flexible is omnipotent infrared
Patch, it is characterised in that it includes controller, waterproof layer one, heat-insulation layer, heating layer, heat-conducting layer, waterproof layer two, on waterproof layer one
Heat-insulation layer is set, and heating layer is arranged between heat-insulation layer and heat-conducting layer, and waterproof layer two is covered on heat-conducting layer;The thermal insulation of heat-insulation layer
Heating layer heat energy is set by heat-conducting layer to be in unidirectional heat transfer;Temperature-sensing element, temperature-sensing element and heating layer and control are provided with heating layer
Device connection processed.
As a further illustration of the above scheme, the upside of the waterproof layer one is provided with VELCRO one, waterproof layer two
Downside is provided with VELCRO two, can be by VELCRO by infrared patch and heating object because whole infrared patch is flexible body
Docile is to optimum state.
Further, heat-insulation layer is using the larger glass fibre or pearl cotton of thermal resistance, passes through glass fibre or pearl cotton
Heat insulating function makes heating layer heat unidirectionally be conducted in heating object by heat-conducting layer, is greatly enhanced the efficiency of heating surface.
Further, described heat-conducting layer is the higher micro-sized metal film of thermal conductivity and non-woven fabric compounded heat conducting film,
Metal membrane material is aluminium foil or copper foil;One increases intensity and pliability, secondly docile is more preferable therewith for heating layer, very thin metal
Film heat consumption can be ignored, and thermal uniformity is good, can make heating object thermally equivalent.
Further, described heating layer use carbon fiber film for flexibility, any direction folded bent without damage.
Further, described temperature-sensing element is connected by wire with controller, heating object is reached the temperature of needs
Degree.
Further, power input socket is provided with controller, external power supply is powered for infrared patch.
The beneficial effect that the utility model can be reached using above-mentioned technical solution is:
1st, the utility model is made using heating layer is arranged among heat-insulation layer and heat-conducting layer by the thermal insulation of heat-insulation layer
Heating layer heat energy can be in unidirectional rapid thermal conduction using heat-conducting layer, and the thermal efficiency is greatly improved, makes radiation temperature more bonus point
Cloth is uniform, and heat energy effectively utilizes, and is allowed to can be widely applied to food, beverage, water etc. heating and thermal insulation, is managed applied to human body infrared
Treat etc..
2nd, heat-conducting layer of the present utility model uses the higher micro-sized metal film of thermal conductivity and non-woven fabric compounded heat conducting film,
Metal membrane material is aluminium foil or copper foil;One increases intensity and pliability, secondly docile is more preferable therewith for heating layer, very thin metal
Film heat consumption can be ignored, and thermal uniformity is good, can make heating object thermally equivalent.
3rd, heat-insulation layer of the present utility model passes through glass fibre or pearl using thermal resistance larger glass fibre or pearl cotton
The heat insulating function of cotton makes heating layer heat unidirectionally be conducted in heating object by heat-conducting layer, is greatly enhanced the efficiency of heating surface.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model.
Description of reference numerals:1st, controller 2, waterproof layer 1, heat-insulation layer 4, heating layer 5, heat-conducting layer 6, waterproof layer
27, temperature-sensing element 8, VELCRO 1, VELCRO 2 10, power input socket.
Embodiment
The technical program is explained in detail below in conjunction with specific embodiment.
As shown in figure 1, the utility model is a kind of omnipotent infrared patch of high-efficiency flexible, it includes controller 1, waterproof layer one
2nd, heat-insulation layer 3, heating layer 4, heat-conducting layer 5, waterproof layer 26, heat-insulation layer 3 is set on waterproof layer 1, and heating layer 4 is arranged on insulation
Between layer 3 and heat-conducting layer, waterproof layer two is covered on heat-conducting layer;The thermal insulation of heat-insulation layer makes heating layer heat energy by heat-conducting layer in single
To heat transfer;Temperature-sensing element 7 is provided with heating layer, temperature-sensing element and heating layer are connected with controller.Electricity is provided with controller 1
Source input socket 10, external power supply are powered for infrared patch.The upside of the waterproof layer one is provided with VELCRO 1, waterproof layer two
Downside be provided with VELCRO 29, can be by VELCRO by infrared patch and heating object because whole infrared patch is flexible body
Show consideration for clothes and arrive optimum state.In the present embodiment, waterproof layer one and waterproof layer two are respectively the form for using film, are waterproof membrane.
Heat-insulation layer makes heating layer hot using thermal resistance larger glass fibre or pearl cotton by the heat insulating function of glass fibre or pearl cotton
Amount is unidirectionally conducted in heating object by heat-conducting layer, is greatly enhanced the efficiency of heating surface.
Further, described heat-conducting layer is the higher micro-sized metal film of thermal conductivity and non-woven fabric compounded heat conducting film,
Metal membrane material is used as aluminium foil, copper foil;One increases intensity and pliability, secondly docile is more preferable therewith for heating layer, it is very thin
Metal film heat consumption can be ignored, and thermal uniformity is good, can make heating object thermally equivalent.Heating layer 4 is thin using carbon fiber
Film is flexibility, and any direction folded bent is without damaging.
The utility model compared with prior art, is arranged among heat-insulation layer and heat-conducting layer using by heating layer, passes through guarantor
The thermal insulation of warm layer enables heating layer heat energy using heat-conducting layer to be in unidirectional rapid thermal conduction, and the thermal efficiency is greatly improved, makes
Radiation temperature is more evenly distributed, and is allowed to can be widely applied to food, beverage, water etc. heating and thermal insulation, applied to human body infrared
Physiotherapy etc..
The utility model simulation test result is as follows:(power and other factors are equal)
Test proves that the utility model performance is substantially better than prior art above.
Above-described is only preferred embodiment of the present utility model, it is noted that for the ordinary skill of this area
For personnel, on the premise of not departing from the utility model and creating design, various modifications and improvements can be made, these all belong to
In the scope of protection of the utility model.
Claims (8)
1. a kind of omnipotent infrared patch of high-efficiency flexible, it is characterised in that it includes controller, waterproof layer one, heat-insulation layer, heating
Layer, heat-conducting layer, waterproof layer two, heat-insulation layer is set on waterproof layer one, heating layer is arranged between heat-insulation layer and heat-conducting layer, heat-conducting layer
Upper covering waterproof layer two;The thermal insulation of heat-insulation layer makes heating layer heat energy by heat-conducting layer be in unidirectional heat transfer;It is provided with heating layer
Temperature-sensing element, temperature-sensing element and heating layer are connected with controller.
2. the omnipotent infrared patch of high-efficiency flexible according to claim 1, it is characterised in that the upside of the waterproof layer one is set
VELCRO one is equipped with, the downside of waterproof layer two is provided with VELCRO two.
3. the omnipotent infrared patch of high-efficiency flexible according to claim 1, it is characterised in that heat-insulation layer using glass fibre or
Pearl cotton.
4. the omnipotent infrared patch of high-efficiency flexible according to claim 1, it is characterised in that described heat-conducting layer is micron order
Metal film and non-woven fabric compounded heat conducting film.
5. the omnipotent infrared patch of high-efficiency flexible according to claim 4, it is characterised in that metal membrane material is aluminium foil or copper
Paper tinsel.
6. the omnipotent infrared patch of high-efficiency flexible according to claim 1, it is characterised in that described heating layer is fine using carbon
Tie up film.
7. the omnipotent infrared patch of high-efficiency flexible according to claim 1, it is characterised in that described temperature-sensing element is by leading
Line is connected with controller.
8. the omnipotent infrared patch of high-efficiency flexible according to claim 4, it is characterised in that it is defeated that power supply is provided with controller
Enter socket.
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CN201721050253.5U CN207117989U (en) | 2017-08-21 | 2017-08-21 | The omnipotent infrared patch of high-efficiency flexible |
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CN201721050253.5U CN207117989U (en) | 2017-08-21 | 2017-08-21 | The omnipotent infrared patch of high-efficiency flexible |
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CN207117989U true CN207117989U (en) | 2018-03-16 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107708233A (en) * | 2017-08-21 | 2018-02-16 | 李家俊 | The omnipotent infrared patch of high-efficiency flexible |
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2017
- 2017-08-21 CN CN201721050253.5U patent/CN207117989U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107708233A (en) * | 2017-08-21 | 2018-02-16 | 李家俊 | The omnipotent infrared patch of high-efficiency flexible |
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