CN103716927A - Energy-saving type heating fabric device - Google Patents

Abstract

The invention discloses an energy-saving type heating fabric device which comprises a warp-direction unit, a weft-direction unit and a power unit. The warp-direction unit comprises a plurality of warp-direction fibers and a plurality of heating fibers. Each heating fiber is wound by at least one warp-direction fiber and is not exposed. The weft-direction unit comprises a plurality of heat storage fibers, and the weft-direction unit and the warp-direction unit are woven in a staggering mode together. The power unit is electrically connected with the heating fibers respectively and is used for providing power to enable the heating fibers to generate heat energy. According to the energy-saving type heating fabric device, the common weaving mode that the warp-direction fibers wrap the heating fibers is used, heat energy cannot be lost easily, conducting is improved, heating speed is improved, meanwhile, fiber materials with a heat storage and preservation function and a temperature-even effect are arranged so that heat cannot be lost easily, accordingly electricity energy output is lowered, and the effect of energy saving and long acting is achieved.

Description

Energy-saving heating fabric device

Technical field

The present invention relates to a kind of heating fabric device, relate in particular to a kind of energy-saving heating fabric device.

Background technology

In the winter time or bitter cold area must wear thick and heavy clothing carry out warming, yet that thick and heavy clothing not only can make is slow in action, also can reduce comfortable degree, the people of demand and expectation in response to to(for) frivolous cold-proof fabric, electric heating textile so arise at the historic moment.

Existing electric heating textile is basis mainly with textile material, recycle the surface conjunctions of warming thermo electric material with the processing modes such as sewing, laminating and this textile material of can heating such as existing on the market electric heating piece, electrothermal tube, heating wire, supply again electric energy and make this thermo electric material heating, and become the electric heating textile with heating and thermal insulation effect.

Yet the mode of this kind of combination often can easily scatter and disappear heat energy because thermo electric material exposes, and needs more electric energy to be driven, and just can make this thermo electric material maintain the temperature of demand, not only firing rate slowly also considerably expends electric power.

Moreover the temperature of existing electric heating textile is to change along with the distribution of thermo electric material, the conduction of temperature also easily causes temperature distributing disproportionation or the problem of local overheating slowly, all can reduce comfort level and fail safe while using.In addition, in the fabric construction of thinner thickness, if select the thermo electric material that the structures such as heating wire or carbon fiber are comparatively fragile, easily because of external force such as folding, extruding, rupture, just this heating wire can be detached from fabric and cause damage through pullling a little.

Summary of the invention

In order to overcome above-mentioned defect, the invention provides a kind of energy-saving heating fabric device, can reduce electric energy loss, can promote the efficiency of heating surface again.

The present invention for the technical scheme that solves its technical problem and adopt is:

An energy-saving heating fabric device, comprising:

One warp-wise unit, comprises that some warp fiber and some add thermal fiber, each this add thermal fiber and be wound around and do not expose by one of them this warp fiber;

One broadwise unit, comprises some accumulation of heat fibers, and the common weaving in this broadwise unit and described warp-wise unit; And

One adds with described the power unit that thermal fiber is electrically connected to respectively.

As preferred version of the present invention, described in add thermal fiber and be distributed in distance, and the wantonly two adjacent spacing that add thermal fiber are 0.1mm to 15mm.

As preferred version of the present invention, described in add thermal fiber and be selected from stainless steel fibre, carbon fiber, silver-colored fiber, copper cash, and aforementioned one of them combination.

As preferred version of the present invention, described warp fiber is selected from polyethylene terephthalate, polyurethane, polyacrylonitrile fibre, nylon, far infrared fiber, reflective fiber, and aforementioned one of them combination.

As preferred version of the present invention, described warp fiber is selected from far infrared fiber.

As preferred version of the present invention, described broadwise unit also comprises that some are crisscross arranged and are selected from polyethylene terephthalate, polyurethane, polyacrylonitrile fibre, nylon, far infrared fiber, reflective fiber with this warp-wise unit, and aforementioned one of them be combined as the weft fiber that material forms.

As preferred version of the present invention, described weft fiber is selected from far infrared fiber.

As preferred version of the present invention, described accumulation of heat fiber has hollow structure.

As preferred version of the present invention, described accumulation of heat fiber is selected from far infrared fiber.

As preferred version of the present invention, described power unit is battery case or power connector.

The invention has the beneficial effects as follows: this energy-saving heating fabric device utilizes the coated common weaving mode that adds thermal fiber of warp fiber, make heat energy be difficult for scattering and disappearing, increase the speed of conducting and promoting heating, collocation simultaneously has the fiber material of heat storing and heat preserving ability and even temperature effect, heat energy be difficult for to be scattered and disappeared, and then can reduce the output of electric energy and bring into play the effect of energy-saving long-acting.

Accompanying drawing explanation

Fig. 1 is the planar structure schematic diagram of a preferred embodiment of the present invention;

Fig. 2 is the local enlarged diagram of Fig. 1;

Fig. 3 is radial fiber and the bonding state schematic diagram that adds thermal fiber in a preferred embodiment of the present invention.

By reference to the accompanying drawings, make the following instructions:

1---energy-saving heating fabric device 2---be unit radially

3---broadwise unit 4---power unit

21---radial fiber 22---add thermal fiber

31---accumulation of heat fiber 32---weft fiber

Embodiment

Consulting Fig. 1 and Fig. 2, is the preferred embodiment of energy-saving heating fabric device 1 of the present invention, and it comprises a warp-wise unit 2, a broadwise unit 3, and a power unit 4.

This warp-wise unit 2 extends along warp-wise; comprise that some warp fiber 21 and some add thermal fiber 22; coordinate and consult Fig. 3; each adds thermal fiber 22 and is wound around and does not expose by one of them warp fiber 21; that is to say; this adds thermal fiber 22 and utilizes warp fiber 21 to be coated, and therefore can protect this to add thermal fiber 22 and in the process of weaving or using, is difficult for being worn and ruptures.Wherein, the heat energy that adds thermal fiber 22 generations in order to allow can distribute uniformly, and some add thermal fiber 22 is the settings that are distributed in distance, and preferably, the wantonly two adjacent spacing that add thermal fiber 22 are 0.1mm to 15mm.

The optional staple fibre of making from macromolecules such as polyethylene terephthalate, polyurethane, polyacrylonitrile fibre, nylon of material of this warp fiber 21, or be selected from far infrared fiber, reflective fiber of having special efficacy etc., also can be aforementioned one of them combination.This adds thermal fiber 22 and is selected from and has impedance, by reaching the material of heating effect after energising, and for example stainless steel fibre, carbon fiber, silver-colored fiber, copper cash, and aforementioned one of them combination.

Wherein, far infrared fiber can absorb heat energy and discharge far infrared, and the far infrared of tool specific wavelength is easily absorbed by human body, can produce resonance with hydrone in body, can accelerate blood circulation, enhance metabolism, and then make tissue activation, get rid of harmful substance, there is the effect of active human physiological functions and there is the effect of medical treatment and health care, therefore, preferably, this warp fiber 21 is to select far infrared fiber.In addition, if add the fiber material that can reflect heat energy as this warp fiber 21 while weaving, as reflective fiber, silver-colored green onion line etc., heat energy can be reflected and remain in this fabric, also can make heat energy more effectively be utilized.

This broadwise unit 3 extends along broadwise, comprise some accumulation of heat fibers 31, this broadwise unit 3 is to interlock fixingly with this common weaving in warp-wise unit 2, and in this preferred embodiment, the bearing of trend of this warp-wise unit 2 is perpendicular to the bearing of trend of this broadwise unit 3.

This accumulation of heat fiber 31 can be selected from the fiber material with hollow structure, or there is the far infrared fiber of heat accumulation thermal effect, also or by the far infrared fiber with hollow structure formed, because the structure of hollow not only can make the overall weight of fabric alleviate, can also be by warm air-coating in wherein also completely cutting off external cold air, make fabric but can promote warmth retention property in the light-weighted while, therefore, preferably, this accumulation of heat fiber 31 has hollow structure, more preferably, this accumulation of heat fiber 31 is consisted of the far infrared fiber with hollow structure.In addition, because this accumulation of heat fiber 31 is consisted of the fiber material with hollow structure, if need to promote bulk strength and the support force of fabric, can in this broadwise unit 3, add again some the weft fibers 32 that are crisscross arranged with this warp-wise unit 2, the constituent material of this weft fiber 32 is identical with this warp fiber 21, therefore no longer adds to repeat.

This power unit 4 adds with this that thermal fiber 22 is electrically connected to respectively and in order to provide this to add the required electric power of thermal fiber 22, this power unit 4 can be a battery case or a power connector, that is in battery case, put into battery or power connector and supply socket are connected, electric energy is supplied with to this and add thermal fiber 22, this adds thermal fiber 22 and hinders electric current by producing heat energy because having impedance, and the lasting supply of electric energy can make this add thermal fiber 22 and maintain a predetermined temperature.Also can coordinate user's demand to carry out the selection of this power unit 4 with actual applicable product, such as being to use the textile that is limited to user's activity at clothes, scarf, gloves etc., be applicable to using carry-along power supply, just the optional battery case of using is as this power unit 4.

This novel energy-saving heating fabric device 1, adds thermal fiber 22 due to this each and be coated by these warp fiber 21, therefore can effectively reduce these and add thermal fiber 22 heat energy lost when heating.Moreover, collocation simultaneously has the far infrared fiber of heat accumulation function or has the accumulation of heat fiber 31 of hollow structure, by these accumulation of heat fibers 31 of broadwise, reach the function of accumulation of heat and heat conduction, make only by these, to add the heat energy that thermal fiber 22 sends merely, can conduction be distributed to whole plane, in these wantonly two adjacent adding between thermal fiber 22, also can possess temperature simultaneously.

When practical application, the energy-saving heating fabric device 1 of the present invention can be utilized to the processing modes such as sewing, laminating directly and the textile such as clothes, scarf, gloves do combination, but be not limited to the clothing of dress, such as woollen blanket, coverlet etc., also can, also it can be combined with protector, make this protector there is the effect of thermotherapy.In addition, as while meeting with disaster, can extend temperature retention time is also very important to wait for rescue.

In sum, the energy-saving heating fabric device 1 of the present invention utilizes the coated common weaving mode that adds thermal fiber 22 of warp fiber 21, make heat energy be difficult for scattering and disappearing, increase the speed of conducting and promoting heating, collocation simultaneously has the fiber material of heat storing and heat preserving ability and even temperature effect, heat energy be difficult for to be scattered and disappeared, and then can reduce the output of electric energy and bring into play the effect of energy-saving long-acting.

The above; it is only preferred embodiment of the present invention; when not limiting protection range of the present invention with this, the simple equivalence of generally doing according to the present patent application the scope of the claims and patent specification content changes and modifies, and all still remains within the scope of the patent.

Claims (10)

1. an energy-saving heating fabric device (1), is characterized in that, comprising:

One warp-wise unit (2), comprises that some warp fiber (21) and some add thermal fiber (22), each this add thermal fiber and be wound around and do not expose by one of them this warp fiber;

One broadwise unit (3), comprises some accumulation of heat fibers (31), and the common weaving in this broadwise unit and described warp-wise unit; And

One adds with described the power unit (4) that thermal fiber is electrically connected to respectively.

2. energy-saving heating fabric device according to claim 1, is characterized in that: described in add thermal fiber and be distributed in distance, and the wantonly two adjacent spacing that add thermal fiber are 0.1mm to 15mm.

3. energy-saving heating fabric device according to claim 2, is characterized in that: described in add thermal fiber and be selected from stainless steel fibre, carbon fiber, silver-colored fiber, copper cash, and aforementioned one of them combination.

4. energy-saving heating fabric device according to claim 1, is characterized in that: described warp fiber is selected from polyethylene terephthalate, polyurethane, polyacrylonitrile fibre, nylon, far infrared fiber, reflective fiber, and aforementioned one of them combination.

5. energy-saving heating fabric device according to claim 4, is characterized in that: described warp fiber is selected from far infrared fiber.

6. energy-saving heating fabric device according to claim 1, it is characterized in that: described broadwise unit also comprises that some are crisscross arranged and are selected from polyethylene terephthalate, polyurethane, polyacrylonitrile fibre, nylon, far infrared fiber, reflective fiber with this warp-wise unit, and aforementioned one of them be combined as the weft fiber (32) that material forms.

7. energy-saving heating fabric device according to claim 6, is characterized in that: described weft fiber is selected from far infrared fiber.

8. energy-saving heating fabric device according to claim 1, is characterized in that: described accumulation of heat fiber has hollow structure.

9. according to the energy-saving heating fabric device described in claim 1 or 8, it is characterized in that: described accumulation of heat fiber is selected from far infrared fiber.

10. energy-saving heating fabric device according to claim 1, is characterized in that: described power unit be battery case and power connector one of them.

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