CN213861065U - Anti-mite temperature-adjusting cloth - Google Patents

Abstract

The utility model discloses a mite-proof temperature-adjusting cloth, which comprises a first skin-friendly layer, a first mite-resisting layer, a functional layer, a temperature-adjusting layer, an antibacterial mite-expelling layer, a second mite-resisting layer and a second skin-friendly layer which are arranged in sequence; the functional layer is made of sleep-aiding modified polyester fibers and apocynum venetum fibers, the temperature-adjusting layer is made of outlast air-conditioning fibers, the antibacterial and mite-expelling layer is made of antibacterial and mite-preventing nylon fibers and bamboo charcoal fibers, and the functional layer, the temperature-adjusting layer and the antibacterial and mite-expelling layer are made of a three-dimensional warp knitting process; the anti-mite layer is spun-bonded non-woven fabric, the skin-friendly layer is formed by blending warp yarn A, weft yarn B and weft yarn C, and a plurality of discrete welding points are formed between the anti-mite layer and the upper layer and between the anti-mite layer and the lower layer respectively to fix the anti-mite layer and the upper layer and the lower layer. The utility model discloses a mite structure and antibiotic mite-expelling layer are hindered to the bilayer, and dual mite-preventing effect is good, prevents that mite performance is washd, has antibiotic simultaneously, adjusts the temperature, prevents the function of mite, health care, and the mite-proof cloth that finally obtains is comfortable, healthy.

Description

Anti-mite temperature-adjusting cloth

Technical Field

The utility model relates to a cloth technical field especially relates to a prevent mite cloth that adjusts temperature.

Background

Mites are miniature pests that are not readily visible to the naked eye. Mites prefer to wet and eat dander sebum. Under extreme conditions, they can also live on eating their own excreta. Most of the mites stay indoors, can multiply on sofas in living rooms, beds in bedrooms and beddings, and have long-term vitality. The bodies, secretions and excretions of mites can all form allergens, causing respiratory diseases and infections. When mites enter the respiratory tract of a human body, symptoms such as sneezing, nasal discharge, nasal obstruction, cough, asthma and the like are easy to follow. After contacting the skin, the face may show symptoms such as erythema, enlarged pores, and rough and black skin. Research data show that the human demodex infestation rate is high in China, and people of different ages, different nationalities and different sexes can infect the demodex folliculorum. The possibility of mite infection can be reduced by controlling indoor humidity, washing household textiles such as bedding and the like at high temperature frequently, or exposing bedding and the like to sunlight.

The anti-mite finishing in the prior art mainly utilizes natural antibacterial anti-mite components, such as eugenol and/or isoeugenol in CN107829296A and the leachate of houttuynia cordata, coptis chinensis and sophora flavescens in CN 108360255A. However, the adhesion of the plant extract on the surface of the cashmere fiber is greatly influenced by friction or cleaning strength.

Scientific research shows that the quilt with the temperature of 32 ℃ is beneficial to improving the sleeping quality of people, and people can fall asleep most easily at the temperature. Because the skin temperature of a person is about 32 ℃ lower than the body temperature, the quilt temperature is low, the person needs to be baked by the body temperature for a long time, the heat energy of the person is consumed, and after the body surface is subjected to cold stimulation for a period of time, the cerebral cortex is excited, so that the sleep time of the person is delayed, and if the quilt temperature is higher than 32 ℃, the person also needs to perspire and cool down because of feeling too hot, so that the sleep quality is reduced.

With the improvement of the life quality of people, the functionality and the health care of the cloth are gradually pursued. And the cloth or quilt material with the self temperature adjusting function has a large market space.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a prevent mite cloth that adjusts temperature, this kind of prevent mite cloth that adjusts temperature has simultaneously prevent mite, antibacterial, the function that adjusts temperature, and prevent that mite performance is washable.

The utility model provides a mite-proof temperature-adjusting cloth, which comprises a first skin-friendly layer, a first mite-resisting layer, a functional layer, a temperature-adjusting layer, an antibacterial mite-expelling layer, a second mite-resisting layer and a second skin-friendly layer which are arranged in sequence; the functional layer is made of sleep-aiding modified polyester fibers and apocynum venetum fibers, the temperature-adjusting layer is made of outlast air-conditioning fibers, the antibacterial and mite-expelling layer is made of antibacterial and mite-preventing nylon fibers and bamboo charcoal fibers, the sleep-aiding modified polyester fibers and the apocynum venetum fibers in the functional layer are connected with the outlast air-conditioning fibers in the temperature-adjusting layer in a warp knitting and interweaving mode, and the outlast air-conditioning fibers in the temperature-adjusting layer are connected with the antibacterial and mite-preventing nylon fibers and the bamboo charcoal fibers in the antibacterial and mite-expelling layer in a warp knitting and interweaving mode; the first mite-blocking layer and the second mite-blocking layer are both spunlace spun-bonded non-woven fabrics, the first skin-friendly layer is formed by blending warp yarns A, weft yarns B and weft yarns C, the warp yarns A are polyester fibers, the weft yarns B are cotton fibers, the weft yarns C are pearl fibers, the structure of the second skin-friendly layer is consistent with that of the first skin-friendly layer, the first mite-blocking layer and the first skin-friendly layer and the functional layer form a plurality of discrete welding points respectively to fix the first mite-blocking layer and the functional layer, and the second mite-blocking layer and the second skin-friendly layer and the temperature-regulating layer form a plurality of discrete welding points respectively to fix the second mite-blocking layer and the functional layer.

Preferably, the distance between two adjacent welding points is 5-70 mm.

Preferably, the diameter of the holes in the hydroentangled spunbond nonwoven is 0.2-30 microns.

Preferably, a non-woven fabric edge wrapping structure is also provided.

Preferably, the nonwoven selvedge binding structure is a spunlace spunbond nonwoven selvedge binding structure.

Preferably, the non-woven fabric edge-wrapped structure is welded to the edges of the first skin-friendly layer and the second skin-friendly layer through uniformly arranged welding points, respectively.

The utility model provides a mite-proof temperature-adjusting cloth, which adopts unique fiber and structure combination, and both the bamboo charcoal fiber and the apocynum venetum fiber have the functions of bacteriostasis and sterilization, can prevent the breeding of bacteria, and also have the function of releasing far infrared rays or negative ions, and have the health-care function; the sleep-aiding modified polyester fiber has the sleep-aiding effect; both Outlast air-conditioning fiber and apocynum venetum fiber have the function of temperature regulation; the functional layer, the temperature-adjusting layer and the antibacterial and mite-repellent layer are three-dimensionally warp-knitted, so that the fabric has an excellent three-dimensional fabric tissue structure, the strength of the fabric is improved, the mite-repellent layer is connected with the skin-friendly layer, the functional layer and the antibacterial and mite-repellent layer through welding points, large displacement among all layers of the fabric is avoided, the whole fabric is integrated, the mite-proof effect is ensured, the mite-proof performance is wash-resistant, and the skin-friendly performance of the fabric is not affected; the utility model discloses a mite structure and antibiotic mite layer of driving are hindered to the bilayer, and the no department of mite is ensured to the dual mite effect of preventing, and the shape is hidden. The anti-mite temperature-adjusting cloth has the functions of antibiosis, temperature adjustment, mite prevention and health care. Meanwhile, the layer groups are mutually matched and cooperate, and finally the obtained anti-mite temperature-adjusting cloth is comfortable and healthy.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Fig. 1 is a schematic structural view of an anti-mite temperature-adjusting cloth according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a first skin-friendly layer in this embodiment;

fig. 3 is a schematic distribution diagram of welding points of the first skin-friendly layer and the first mite-blocking layer in this embodiment;

fig. 4 is a schematic structural view of a mite-proof temperature-adjusting cloth according to another embodiment;

FIG. 5 is a schematic view of the arrangement of the welding points between the first skin-friendly layer and the first mite-blocking layer in another embodiment;

description of reference numerals:

the anti-mite fabric comprises a first skin-friendly layer, 2-a first mite-blocking layer, 3-a functional layer, 4-a temperature-regulating layer, 5-an antibacterial mite-repelling layer, 6-a second mite-blocking layer, 7-a second skin-friendly layer, 8-A warp yarns, 9-B weft yarns, 10-C weft yarns, 11-welding points and 12-non-woven fabric edge wrapping structures.

Detailed Description

In order to further understand the present invention, the following description will be made in conjunction with the drawings in the embodiments of the present invention, and the technical solution in the embodiments of the present invention is clearly and completely described, and obviously, the described embodiments are only a part of the embodiments of the present invention, but not all embodiments, and based on the embodiments in the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the utility model provides an anti-mite temperature-regulating cloth, which comprises a first skin-friendly layer 1, a first mite-blocking layer 2, a functional layer 3, a temperature-regulating layer 4, an antibacterial mite-repelling layer 5, a second mite-blocking layer 6 and a second skin-friendly layer 7 which are arranged in sequence; the functional layer 3 is made of sleep-aiding modified polyester fibers and apocynum venetum fibers, the temperature-adjusting layer 4 is made of outlast air-conditioning fibers, the antibacterial and mite-expelling layer 5 is made of antibacterial and mite-preventing nylon fibers and bamboo charcoal fibers, the sleep-aiding modified polyester fibers and the apocynum venetum fibers in the functional layer 3 are connected with the outlast air-conditioning fibers in the temperature-adjusting layer 4 in a weaving and interweaving mode, and the outlast air-conditioning fibers in the temperature-adjusting layer 4 are connected with the antibacterial and mite-expelling nylon fibers and the bamboo charcoal fibers in the antibacterial and mite-expelling layer 5 in a weaving and interweaving mode; the first mite blocking layer 2 and the second mite blocking layer 6 are spun-bonded spunlace nonwoven fabrics, the first skin-friendly layer 1 is formed by blending warp yarns A8, weft yarns B9 and weft yarns C10, the warp yarns A8 are polyester fibers, the weft yarns B9 are cotton fibers, the weft yarns C10 are pearl fibers, the structure of the second skin-friendly layer 7 is consistent with that of the first skin-friendly layer 1, a plurality of discrete welding points 11 are formed between the first mite blocking layer 2 and the first skin-friendly layer 1 and between the first mite blocking layer 2 and the functional layer 3 respectively to fix the first mite blocking layer and the functional layer, and a plurality of discrete welding points 11 are formed between the second mite blocking layer 6 and the second skin-friendly layer 7 and the temperature regulating layer 4 respectively to fix the first mite blocking layer and the second mite blocking layer.

Fig. 2 is a schematic structural diagram of the first skin-friendly layer in this embodiment, and the structure of the second skin-friendly layer is the same as that of the first skin-friendly layer.

The pearl fiber is prepared by adding the nanometer pearl powder into the fiber during the spinning of the viscose fiber by adopting a high-tech means, so that nanometer pearl particles are uniformly distributed in the fiber body and on the surface, are rich in various trace elements such as calcium, magnesium, phosphorus, zinc and the like and 18 amino acids, moisten the skin, have the special skin care function and the ultraviolet resistance function of the pearl, and have excellent moisture absorption and regain, comfortable hand feeling and taking performance.

The terylene molecules in the terylene fiber contain benzene rings, and the terylene fiber has good absorptivity to ultraviolet light less than 300 nm. The terylene has excellent wrinkle resistance, elasticity and dimensional stability, good electrical insulation performance, sunlight resistance, friction resistance, mildew resistance, moth resistance, better chemical reagent resistance, weak acid resistance and weak alkali resistance.

In the embodiment, the terylene fiber, the pearl fiber and the cotton fiber are blended to form the skin-friendly layer, so that the skin-friendly layer has comfortable hand feeling, is suitable for being attached to the skin and achieves the overall conditioning and maintenance of the skin of the whole body.

The apocynum venetum fiber is a natural far infrared emission material, can emit far infrared light waves of 8-15 microns, can permeate into skin and subcutaneous tissues, and can generate a resonance absorption effect with water molecules in tissue cells. Reducing blood lipid, reducing the formation of cardiovascular diseases such as cerebral arteriosclerosis, and improving microcirculation. The far infrared ray enables the cloth to have the function of keeping warm, the warmth retention is 2 times of that of the full cotton cloth below 8 ℃, the air permeability is 2.5 times of that of the pure cotton fabric above 21 ℃, and the cloth is characterized by being warm in winter and cool in summer in solitary. Researches show that the apocynum venetum fiber is rich in various medicinal components such as flavonoid compounds, amino acids, organic acid compounds, calcium, magnesium, potassium, zinc, iron, selenium and other effective components, and has the pharmacological effects of eliminating phlegm and stopping cough, strengthening heart and promoting urination, relieving asthma, reducing blood pressure, reducing blood fat, increasing coronary artery flow, increasing epinephrine, resisting inflammation and resisting allergy and the like. The clinical observation result shows that the apocynum venetum fiber has better prevention and treatment effects on hypertension and chronic tracheitis, and also has the effects of inhibiting bacteria, removing diseases and emitting far infrared rays, the fiber of the apocynum venetum fiber has the softness of cotton and the luster of silk, and the freshness of hemp, and the effective medicinal ingredients in the apocynum venetum fiber act on channels, qi and blood, viscera and local focus through the action of the far infrared rays and skin permeation (such as the plaster principle) so as to participate in blood circulation through the orifice points of the body surface of the body, thereby playing the effects of strengthening the body and improving the body function. The apocynum venetum fiber has good antibacterial activity, has obvious inhibition effect on candida albicans, staphylococcus aureus, escherichia coli, pseudomonas aeruginosa and the like, and has better prevention and treatment effect on skin diseases, bedsore, eczema and gynecological diseases.

The sleep-aiding modified polyester fiber is from Zhejiang Peach Heng textile Co., Ltd, and the manufacturing method is disclosed in Chinese patent No. CN 106930101B. The nanometer titanium dioxide, the nacre powder, the amethyst and the like contained in the sleep-aiding modified polyester fiber have a nerve-soothing effect, can treat restlessness caused by yang qi agitation, heart depression and fire qi and the like, and the far infrared ceramic powder can activate the biological activity of macromolecules of a human body, is beneficial to function recovery and balance, promotes and improves blood circulation of the head and promotes deep sleep.

In the embodiment, the sleep-aiding modified polyester fiber and the apocynum venetum fiber are jointly used as the materials of the functional layer 3, so that the functions of improving human body microcirculation, warming in winter and cooling in summer, inhibiting bacteria, removing diseases and emitting far infrared rays are achieved, and the effects of strengthening the body and improving the body function are achieved. Specifically, the sleep-aiding modified polyester fibers and the apocynum venetum fibers are mutually twisted to participate in weaving of the cloth, and can also be arranged in parallel to participate in weaving of the cloth.

Outlast air conditioning fiber, which utilizes small particles (Outlast) of hollow acrylic fiber core to absorb or diffuse heat to regulate the temperature of human body. The maximum characteristic is that the local microenvironment temperature can be adjusted. Outlast air conditioner fibre principle of adjusting temperature: outlast air conditioning fabric uses microencapsulated heat-sensitive phase change materials that have the ability to absorb, store and release heat in the form of latent heat. In the temperature change, the heat-absorbing material can be mutually converted into solid and liquid, and the heat-absorbing and heat-releasing effects can be achieved.

The temperature adjusting layer 4 of this embodiment adopts Outlast air conditioning fiber for the existing cotton travelling comfort of fabric, again can be according to seasonal temperature variation, and warm in winter is cool in summer, makes the people be in a comfortable state all the time.

The antibacterial anti-mite nylon fiber is prepared by melt spinning of an anti-mite agent, an antibacterial agent and nylon chips, and is a conventional process technology.

The common miticides include borneol derivatives, organophosphorus compounds, alkylamide compounds, pyrethrin compounds, boric acid compounds, ethyl thiocyanate and other compounds, aromatic carboxylic acid esters, carbamate, captan, tetrachloroisophthalonitrile, beta-naphthol, diphenyl ether, phthalimide, natural cypress essential oil and other plant substances.

Common antibacterial agents include organic amines, piperazines, isothiazolinones, quaternary ammonium salts, chitosan, chitin, guanidine, and silver-based antibacterial agents.

The bamboo charcoal fiber is prepared by taking bamboo as a raw material, adopting a new calcining process and a new technology of pure oxygen high temperature and nitrogen blocking time delay to enable micropores of the natural bamboo charcoal to be more refined and honeycombed, and then carrying out melt spinning on the bamboo charcoal and polyester modified slices with a honeycomb micropore structure trend. The unique fiber structure design has the characteristics of moisture absorption, ventilation, bacteriostasis, sun protection, warm in winter and cool in summer, environmental protection and the like. The bamboo charcoal fiber has cross section with large and small elliptical pores for instantaneous absorption and evaporation of large amount of water. The bamboo charcoal fiber has strong adsorption capacity which is more than 5 times of that of charcoal due to the special ultrafine pore structure on the surface and inside of the bamboo charcoal fiber, and has the effects of absorbing, removing peculiar smell and deodorizing chemical gases such as peculiar smell, oil smoke smell, formaldehyde, benzene, ammonia and the like of a human body. According to the determination, the adsorption rate of the bamboo charcoal to formaldehyde is 16-19.39%; the adsorption rate of the benzene is 8.69-10.08%; the adsorption rate of the toluene is 5.65-8.42%; the adsorption rate to ammonia is 22.73% -30.65%; the adsorption rate of the chloroform reaches 4O.68 percent, and the continuous adsorption time can reach 24 days. The bamboo charcoal fiber can release negative ions permanently, the negative ions are vitamins in the air, and the bamboo charcoal fiber has the effects of calming, hypnotizing, relieving pain, relieving cough and the like, is beneficial to body health, improves sleep quality, and can enhance the immunity of a human body. Through detection, the bamboo charcoal fiber is in contact with bacteria liquid of five bacteria, namely bacillus subtilis, escherichia coli 8099, staphylococcus aureus, bacillus megaterium and pseudomonas fluorescens for 24 hours, and the bacteriostasis and sun protection rate is as high as 84%; the mould-proof degree of the knitted fabric (19.38Tex) made of 100% bamboo charcoal fiber in 14 days is grade 1. The bamboo charcoal fiber can generate far infrared ray with emissivity as high as 0.87, and can increase blood metabolism of microvascular on human body surface. The concentration of the negative ions emitted by the bamboo charcoal fiber is 6800/cm 3, which is equivalent to the concentration of the negative ions in field, thus being beneficial to the health of human body. The mineral content is high, and the health care function is special: the bamboo charcoal fiber contains minerals such as potassium and calcium beneficial to health. The humidity conditioning function achieves the effects of dehumidification and drying: high equilibrium moisture regain and water retention rate, and endows the bamboo charcoal fiber with moisture-adjusting capacity.

The embodiment takes the antibacterial and anti-mite nylon fiber and the bamboo charcoal fiber as the materials of the antibacterial and anti-mite layer 5, removes mites, can adsorb harmful gas and deodorize, kills bacteria to the maximum extent, releases negative ions, and is beneficial to health. Specifically, the antibacterial and anti-mite nylon fibers and the bamboo charcoal fibers are twisted with each other to participate in weaving the cloth, and can also be arranged in parallel to participate in weaving the cloth.

In the embodiment, the functional layer 3, the temperature-adjusting layer 4 and the antibacterial and mite-expelling layer 5 are connected in series by adopting a three-dimensional warp knitting process, so that the phenomenon that the layers slide or are staggered greatly in the using process or the washing process is avoided.

First mite layer 2 and the second of hindering in this embodiment hinder mite layer 6 and are spunlace spunbonded nonwoven, and spunlace spunbonded nonwoven passes through high pressure spunlace, and its fibre is crisscross arranges, forms the compact structure of high density, and the hole that mite, mite piece, mite excrement passed can be avoided to its hollow aperture is less than the size of mite, mite excrement, thereby reaches the isolated effect of preventing the mite, and can guarantee the gas permeability.

The spunlaced spunbond nonwoven fabric of this example was made from Evolon material, produced by german codex. Evolon is a novel spun-bonded filament micro-denier spunlace nonwoven fabric, firstly produces bi-component super-denier filament fibers, and then forms a compact fabric structure through explosive physical entanglement. The Evolon material is repeatedly washed by water or dry-cleaned, so that the effects of dust prevention, mite prevention and the like are not influenced, and the Evolon material can be sterilized and ironed by high-temperature steam with the temperature of more than 100 ℃.

Fig. 3 is a schematic distribution diagram of welding points of the first skin-friendly layer and the first mite-blocking layer in this embodiment; the schematic distribution of welding points between the second skin-friendly layer and the second mite-blocking layer, the schematic distribution of welding points between the first mite-blocking layer and the functional layer, and the schematic distribution of welding points between the second mite-blocking layer and the temperature-adjusting layer can also refer to fig. 3.

In the embodiment, a plurality of discrete welding points 11 are formed between the first mite preventing layer 2 and the first skin-friendly layer 1 and the functional layer 3 to fix the three layers, the spunlace spun-bonded non-woven fabric in the first mite preventing layer 2, the polyester fibers in the first skin-friendly layer 1 and the sleep-assisting modified polyester fibers in the functional layer 3 can be fused and firmly combined together under certain conditions, and the distance between the welding points 11 is large. By adopting the technical scheme, the cloth avoids large displacement between each layer, ensures the anti-mite effect and does not influence the skin-friendly property of the cloth.

In this embodiment, a plurality of discrete welding points 11 are formed between the second mite preventing layer 6 and the second skin-friendly layer 7 and the temperature regulating layer 4 to fix the three layers, the spunlace spun-bonded nonwoven fabric in the second mite preventing layer 6, the polyester fiber in the second skin-friendly layer 7, the antibacterial and anti-mite nylon fiber in the temperature regulating layer 4 and the bamboo charcoal fiber can be fused and firmly combined together under certain conditions, and the distance between the welding points 11 is large. By adopting the technical scheme, the cloth avoids large displacement between each layer, ensures the anti-mite effect and does not influence the skin-friendly property of the cloth.

The formation of the welding point in the present embodiment adopts an ultrasonic composite method or a hot pressing method to realize welding. This is a preferred condition for achieving welding because each layer contains a polyester material component, or the polyester material has a melting point close to that of nylon.

Further, the distance between two adjacent welding points 11 is 5-70 mm.

Typical mites are 100-500 microns in size and their excrement and debris are between 10-40 microns in size, so they can be blocked if the holes are smaller than the above range of the mite-blocking layer.

Further, the diameter of the holes in the spunlace spunbond nonwoven fabric is 0.2 to 30 microns. Thus, holes for allowing mites, mite fragments and mite excrement to pass through can be avoided, and breathability can be ensured.

Referring to fig. 4-5, in another embodiment, the mite-proof temperature-adjusting fabric is further provided with a non-woven fabric edge-wrapping structure 12. The non-woven fabric edge covering structure 12 is of a C-shaped structure, and the edges of the periphery of the first skin-friendly layer 1, the first mite-resisting layer 2, the functional layer 3, the temperature-regulating layer 4, the antibacterial mite-repelling layer 5, the second mite-resisting layer 6 and the second skin-friendly layer 7 are all wrapped. By adopting the technical scheme, not only can the structures of all layers form a whole to prevent interlayer sliding, but also prevent mites and dust from entering the middle layer from the side surface to a certain extent.

Further, the non-woven fabric edge-wrapped structure 12 is a spunlace spun-bonded non-woven fabric edge-wrapped structure.

Referring to fig. 5, further, the non-woven fabric edge-covering structure 12 is welded to the edges of the first skin-friendly layer 1 and the second skin-friendly layer 7 respectively through the welding points 11 which are uniformly arranged.

The utility model provides a mite-proof temperature-adjusting cloth, which adopts unique fiber and structure combination, and both the bamboo charcoal fiber and the apocynum venetum fiber have the functions of bacteriostasis and sterilization, can prevent the breeding of bacteria, and also have the function of releasing far infrared rays or negative ions, and have the health-care function; the sleep-aiding modified polyester fiber has the sleep-aiding effect; both Outlast air-conditioning fiber and apocynum venetum fiber have the function of temperature regulation; the functional layer, the temperature-adjusting layer and the antibacterial and mite-repellent layer are three-dimensionally warp-knitted, so that the fabric has an excellent three-dimensional fabric tissue structure, the strength of the fabric is improved, the mite-repellent layer is connected with the skin-friendly layer, the functional layer and the antibacterial and mite-repellent layer through welding points, large displacement among all layers of the fabric is avoided, the whole fabric is integrated, the mite-proof effect is ensured, the mite-proof performance is wash-resistant, and the skin-friendly performance of the fabric is not affected; the utility model discloses a mite structure and antibiotic mite layer of driving are hindered to the bilayer, and the no department of mite is ensured to the dual mite effect of preventing, and the shape is hidden. The anti-mite temperature-adjusting cloth has the functions of antibiosis, temperature adjustment, mite prevention and health care. Meanwhile, the layer groups are mutually matched and cooperate, and finally the obtained anti-mite temperature-adjusting cloth is comfortable and healthy.

The utility model discloses a prevent mite cloth that adjusts temperature can be used to bedding, embrace pillow, scarf.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The anti-mite temperature-regulating fabric is characterized by comprising a first skin-friendly layer, a first mite-resisting layer, a functional layer, a temperature-regulating layer, an antibacterial mite-repelling layer, a second mite-resisting layer and a second skin-friendly layer which are sequentially arranged; the functional layer is made of sleep-aiding modified polyester fibers and apocynum venetum fibers, the temperature-adjusting layer is made of outlast air-conditioning fibers, the antibacterial and mite-expelling layer is made of antibacterial and mite-preventing nylon fibers and bamboo charcoal fibers, the sleep-aiding modified polyester fibers and the apocynum venetum fibers in the functional layer are connected with the outlast air-conditioning fibers in the temperature-adjusting layer in a warp knitting and interweaving mode, and the outlast air-conditioning fibers in the temperature-adjusting layer are connected with the antibacterial and mite-preventing nylon fibers and the bamboo charcoal fibers in the antibacterial and mite-expelling layer in a warp knitting and interweaving mode; the first mite-blocking layer and the second mite-blocking layer are both spunlace spun-bonded non-woven fabrics, the first skin-friendly layer is formed by blending warp yarns A, weft yarns B and weft yarns C, the warp yarns A are polyester fibers, the weft yarns B are cotton fibers, the weft yarns C are pearl fibers, the structure of the second skin-friendly layer is consistent with that of the first skin-friendly layer, the first mite-blocking layer and the first skin-friendly layer and the functional layer form a plurality of discrete welding points respectively to fix the first mite-blocking layer and the functional layer, and the second mite-blocking layer and the second skin-friendly layer and the temperature-regulating layer form a plurality of discrete welding points respectively to fix the second mite-blocking layer and the functional layer.

2. The anti-mite temperature-adjusting cloth material as claimed in claim 1, wherein the distance between two adjacent welding points is 5-70 mm.

3. The anti-mite temperature-regulating fabric as claimed in claim 1, wherein the diameter of the holes in the spunlace spun-bonded nonwoven fabric is 0.2-30 microns.

4. The anti-mite temperature-regulating fabric as claimed in claim 1, wherein a non-woven fabric edge wrapping structure is further provided.

5. The anti-mite temperature-regulating fabric according to claim 4, wherein the non-woven fabric edge-wrapping structure is a spunlace spun-bonded non-woven fabric edge-wrapping structure.

6. The anti-mite temperature-regulating fabric as claimed in claim 4, wherein the non-woven fabric edge-wrapped structure is welded to the edges of the first and second skin-friendly layers through uniformly arranged welding points, respectively.

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