CN213683878U - Far infrared heating scroll curtain - Google Patents

Abstract

The utility model discloses a far infrared heating scroll curtain, which comprises a curtain outer layer, a curtain inner layer and a far infrared heating body which is arranged between the curtain outer layer and the curtain inner layer and can be curled. In the utility model, the main structure of the heating function of the scroll curtain is a far infrared heating body, the whole heating procedure is simple, and the operation is convenient; when heating, the far infrared ray with the wavelength of 2-20 mu m emitted by the far infrared heating body also has a physiotherapy function; the far infrared heating body is very light and thin, and has good flexibility, so that the curtain is flexible and light as a whole, can be curled, and is convenient to store.

Description

Far infrared heating scroll curtain

Technical Field

The utility model relates to a far infrared material technical field especially relates to a far infrared heating spool (window) curtain.

Background

The curtain has the advantages that the functions of shading, heat insulation, peep prevention and the like are positioned since ancient times, however, the traditional functions cannot meet the requirements of people under the background that people continuously pursue comfortable living environments, the curtain with the heating function is found on the market in order to improve the functionality of the curtain, the heating program of the existing heating curtain is more complicated, the operation is inconvenient, and the integral structure of the curtain is complex and inconvenient to store.

SUMMERY OF THE UTILITY MODEL

For solving the technical problem in the background art, the utility model provides a heating procedure is simple, convenient operation, and simple structure easily accomodates, and has the far infrared heating spool (window) curtain of physiotherapy function concurrently, has adopted following technical scheme:

a far infrared heating scroll curtain comprises a curtain outer layer, a curtain inner layer and a rollable far infrared heating body between the curtain outer layer and the curtain inner layer.

The wavelength range of the far infrared rays emitted by the far infrared heating body is 2-20 microns.

The far infrared heating body comprises an electrode, far infrared paper and a lead, the far infrared paper is laid between the outer layer of the curtain and the inner layer of the curtain, two tail ends of the far infrared paper are respectively connected with the electrode, and the electrode is connected with a power supply through the lead.

The far infrared heating scroll curtain also comprises an operation state sensor and a control chip.

The curtain outer layer, the far infrared heating body and the curtain inner layer are adhered together through a hot melt adhesive film attached to the middle in a hot pressing mode.

The electrode is a copper mesh electrode or a nickel mesh electrode.

The preparation method of the far infrared paper comprises the following steps:

(1) taking whisker carbon nano tubes, and carrying out graphitization and ball milling treatment; then uniformly mixing the carbon nano tube dispersion liquid with a dispersing agent and a solvent, and grinding the uniformly mixed liquid to obtain a whisker carbon nano tube dispersion liquid;

(2) mixing the aramid chopped fibers with a defibering agent and water, and then sequentially performing defibering and pulping treatment to obtain aramid chopped fiber slurry;

(3) mixing and stirring the whisker carbon nanotube dispersion liquid obtained in the step (1) and the aramid chopped fiber slurry obtained in the step (2) to obtain mixed slurry;

(4) and (4) making the mixed slurry obtained in the step (3) through a paper machine, drying, and then carrying out hot-press cross-linking molding to obtain the far-infrared paper.

The graphitization treatment temperature in the step (1) is 2800-3000 ℃, the graphitization treatment time is 5-8 hours, particles with the particle size D90 of 20-30 mu m are obtained through ball milling treatment, the dispersing agent is SDS, PVP or SDBS, the solvent is water, and the mass ratio of the whisker carbon nanotube to the dispersing agent to the solvent is 1: 0.05-0.1: 200 to 500 parts by weight; the aramid chopped fibers in the step (2): a fluffing agent: the mass ratio of water is 1: 0.01-0.05: 200-300 parts by weight; and (3) mixing the dispersion liquid and the slurry according to the mass ratio of the whisker carbon nano tube to the aramid chopped fiber of 1: 2, mixing; and (4) adopting a paper machine to manufacture the paper, wherein the sizing concentration is 1-3%, the vehicle speed is 15m/s, the drying temperature is 120 ℃, the drying is carried out to constant weight, the hot-pressing temperature during hot-pressing cross-linking molding is 250-280 ℃, and the pressure is 10-16 MPa.

The outer layer of the curtain is terylene waterproof breathable cloth coated with a Teflon coating or cloth with a Teflon film interlayer.

The curtain outer layer and the curtain inner layer are made of insulating cloth.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, the major structure that far infrared heating spool (window) curtain played heating function is the far infrared heat-generating body, when the (window) curtain is in tensile state, opens the power, can realize heating function, whole heating procedure comparatively simple and only need when heating the manual work open switch can, convenient operation, the far infrared of wavelength at 2 ~ 20 mu m within ranges that this far infrared heat-generating body launches has fine physiotherapy function to the human body.

2. The utility model discloses in, far-infrared heating spool (window) curtain outside-in comprises (window) curtain skin, far-infrared heat-generating body, (window) curtain inlayer, and (window) curtain overall structure is simple, and the far-infrared heat-generating body is very frivolous moreover, and the pliability is good, can curl, so the whole pliability of (window) curtain is light, still can curl, accomodates the convenience.

Drawings

FIG. 1 is a schematic view of a far infrared heating roller curtain far infrared heating body;

FIG. 2 is a schematic cross-sectional view of a far infrared heating roller curtain;

illustration of the drawings:

1. an outer layer of the curtain; 2. a far infrared heating element; 3. a curtain inner layer; 4. hot-melt adhesive films;

2-1, electrodes; 2-2, far infrared paper; 2-3, and a conducting wire.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the specification of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a far infrared heating scroll curtain comprises a curtain outer layer 1, a curtain inner layer 3 and a rollable far infrared heating body 2 which is arranged between the curtain outer layer and the curtain inner layer, wherein the far infrared heating body 2 comprises an electrode 2-1, far infrared paper 2-2 and a lead 2-3, the far infrared paper 2-2 is laid between the curtain outer layer 1 and the curtain inner layer 3, one end of the lead 2-3 is connected with the electrode 2-1, the other end of the lead is connected with a power interface, and the electrode 2-1 is preferably a copper mesh electrode or a nickel mesh electrode. The wavelength range of the far infrared rays emitted by the far infrared heating body 2 is 2-20 mu m, and the curtain outer layer 1, the far infrared heating body 2 and the curtain inner layer 3 are bonded together through hot pressing by a hot melt adhesive film 4 attached to the middle. The preparation method of the far infrared paper comprises the following steps:

(1) taking whisker carbon nano tubes, and carrying out graphitization and ball milling treatment; then uniformly mixing the carbon nano tube dispersion liquid with a dispersing agent and a solvent, and grinding the uniformly mixed liquid to obtain a whisker carbon nano tube dispersion liquid;

(2) mixing the aramid chopped fibers with a defibering agent and water, and then sequentially performing defibering and pulping treatment to obtain aramid chopped fiber slurry;

(3) mixing and stirring the whisker carbon nanotube dispersion liquid obtained in the step (1) and the aramid chopped fiber slurry obtained in the step (2) to obtain mixed slurry;

(4) and (4) making the mixed slurry obtained in the step (3) through a paper machine, drying, and then carrying out hot-press cross-linking molding to obtain the far-infrared paper.

The graphitization treatment temperature in the step (1) is 2800-3000 ℃, the graphitization treatment time is 5-8 hours, particles with the particle size D90 of 20-30 mu m are obtained through ball milling treatment, the dispersing agent is SDS, PVP or SDBS, the solvent is water, and the mass ratio of the whisker carbon nanotube to the dispersing agent to the solvent is 1: 0.05-0.1: 200 to 500 parts by weight; the aramid chopped fibers in the step (2): a fluffing agent: the mass ratio of water is 1: 0.01-0.05: 200-300 parts by weight; and (3) mixing the dispersion liquid and the slurry according to the mass ratio of the whisker carbon nano tube to the aramid chopped fiber of 1: 2, mixing; and (4) adopting a paper machine to manufacture the paper, wherein the sizing concentration is 1-3%, the vehicle speed is 15m/s, the drying temperature is 120 ℃, the drying is carried out to constant weight, the hot-pressing temperature during hot-pressing cross-linking molding is 250-280 ℃, and the pressure is 10-16 MPa.

Far-infrared paper is made by whisker carbon nanotube and aramid fiber chopped strand mixture, has frivolous, and the pliability is high, can stretch, high strength, high temperature resistance's characteristics, so the utility model discloses a technical core, the far-infrared heat-generating body that can curl has the pliability height concurrently as outstanding heating material, can follow the characteristics that the (window) curtain curls together, is convenient for can be fine when not using the (window) curtain accomodate, does not account for the space. If the heating function is needed, the curtain is only required to be in a stretching state, the power supply is turned on, the operation is very simple, the heating procedure is very simple, and meanwhile, the far infrared rays with the wavelength of 2-20 microns emitted by the far infrared heating body have a good physical therapy function on a human body.

The far infrared heating scroll curtain also comprises an operation state sensor and a control chip, when the curtain is in a curling state, the operation state sensor detects the curling state, information is fed back to the control chip, and the power supply is disconnected in the state. The whole process only comprises the steps that the curtain state is detected by the running state sensor and fed back to the control chip, and then the power supply is controlled, so that the simple program is realized, but the heating program of the far infrared heating body is well protected. The whole heating procedure is simple and safe.

The cloth of the curtain inner layer 3 can be insulating cloth, and the curtain outer layer 1 can be polyester waterproof breathable insulating cloth coated with a Teflon coating or insulating cloth with a Teflon film. By adopting the cloth, the curtain has the effects of water resistance, corrosion resistance, friction resistance, high temperature resistance, safety and durability.

The utility model discloses only need circular telegram make far infrared heat-generating body work, produce the heat, reach the heating effect, the principle is very simple.

To sum up, in the utility model, the main structure of the far infrared heating scroll curtain for heating is a far infrared heating body, when the curtain is in a stretching state, the heating function can be realized by turning on the power supply, the whole heating procedure is simple, and only a power switch needs to be manually turned on during heating, so that the operation is convenient; meanwhile, the far infrared rays with the wavelength of 2-20 mu m emitted by the far infrared heating body have a good physiotherapy function on a human body; the far infrared heating scroll curtain is composed of a curtain outer layer, a far infrared heating body and a curtain inner layer from outside to inside, the curtain is simple in overall structure, the far infrared heating body is very light and thin, the flexibility is good, and the curtain can be curled, so that the curtain is overall flexible and light, can be curled and is convenient to store.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art may still modify the technical solutions described in the foregoing embodiments, or may substitute some or all of the technical features of the foregoing embodiments; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (7)

1. The utility model provides a far infrared heating spool (window) curtain, includes (window) curtain skin (1) and (window) curtain inlayer (3), its characterized in that: the curtain is characterized by further comprising a flexible far infrared heating body (2) arranged between the curtain outer layer (1) and the curtain inner layer (3), an operation state sensor and a control chip.

2. The far infrared heating roller curtain as claimed in claim 1, wherein: the wavelength range of the far infrared rays emitted by the far infrared heating body (2) is 2-20 mu m.

3. The far infrared heating roller curtain as claimed in claim 1, wherein: the far infrared heating body (2) comprises electrodes (2-1), far infrared paper (2-2) and leads (2-3), the far infrared paper (2-2) is laid between the curtain outer layer (1) and the curtain inner layer (3), two tail ends of the far infrared paper (2-2) are respectively connected with the electrodes (2-1), and the electrodes (2-1) are connected with a power supply through the leads (2-3).

4. The far infrared heating roller curtain as claimed in claim 1, wherein: the curtain outer layer (1), the far infrared heating body (2) and the curtain inner layer (3) are bonded together through the hot melt adhesive film (4) attached to the middle in a hot pressing mode.

5. The far infrared heating roller window covering of claim 3, wherein: the electrode (2-1) is a copper mesh electrode or a nickel mesh electrode.

6. The far infrared heating roller curtain as claimed in claim 1, wherein: the curtain outer layer (1) is terylene waterproof breathable cloth coated with a Teflon coating or cloth with a Teflon film interlayer.

7. A far-infrared heating roller window curtain as claimed in any one of claims 1 to 5, wherein: the curtain outer layer (1) and the curtain inner layer (3) are made of insulating cloth.

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