CN214759245U - Cool type sun-proof clothes - Google Patents
Cool type sun-proof clothes Download PDFInfo
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- CN214759245U CN214759245U CN202023056184.3U CN202023056184U CN214759245U CN 214759245 U CN214759245 U CN 214759245U CN 202023056184 U CN202023056184 U CN 202023056184U CN 214759245 U CN214759245 U CN 214759245U
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Abstract
The utility model discloses a sun-proof clothes of cool type, its technical scheme main points are including clothing body and coat-sleeve of making by three-dimensional textile fabric, three-dimensional textile fabric is including setting up the sun-proof layer at the surface, and set up the ventilative layer at the inner surface, and set up the articulamentum between sun-proof layer and ventilative layer, the articulamentum alternates between sun-proof layer and ventilative layer and weaves, form three-dimensional spatial structure, be provided with a plurality of first cooling holes on the sun-proof layer, it is provided with a plurality of second cooling holes to correspond first cooling hole on the ventilative layer, the internal diameter size in first cooling hole is greater than the internal diameter size in second cooling hole, the articulamentum can be connected first cooling hole and the second cooling hole that corresponds respectively, form the toper channel structure of a plurality of heat supply air circulation. Through using three-dimensional weaving technique to make three-dimensional textile fabric to according to physics cooling principle improvement structure, simple environmental protection has increased the cooling function on sun-proof attribute of sun-proof clothes, has promoted user's cool experience sense.
Description
Technical Field
The utility model relates to the technical field of clothing, more specifically say, it relates to a sun-proof clothes of cool type.
Background
Sun protection clothing is lightweight and thin clothing capable of blocking ultraviolet rays, and is widely used in young people and people who are running out for a long time. However, most of the existing sun-proof clothes are stuffy and hot, have no cooling function, and are easy to cause overhigh temperature of a user while blocking ultraviolet rays. Particularly, in summer, the amount of heat carried by air is high, and the longer the sun protection suit is worn, the more easily the sun protection suit causes discomfort to a user, and in more serious cases, heatstroke is caused.
Therefore, it is necessary to design a cool-type sun protection suit to solve the above problems.
SUMMERY OF THE UTILITY MODEL
To the deficiency that prior art exists, the utility model aims to provide a cool type sun-proof clothes, this sun-proof clothes can overcome current sun-proof clothes and do not have the shortcoming of cooling function.
In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a clear and cool type sun-proof clothes, includes clothing body and the coat-sleeve of being connected with clothing body, clothing body and coat-sleeve are made by three-dimensional textile fabric, three-dimensional textile fabric is including setting up the sun-proof layer on the surface outward, and set up the ventilative layer at the internal surface, and set up the articulamentum between sun-proof layer and ventilative layer, the articulamentum alternates between sun-proof layer and ventilative layer and weaves, forms three-dimensional spatial structure, be provided with a plurality of first cooling holes on the sun-proof layer, it is provided with a plurality of second cooling holes to correspond first cooling hole on the ventilative layer, the internal diameter size in first cooling hole is greater than the internal diameter size in second cooling hole, the articulamentum can be connected first cooling hole and the second cooling hole that corresponds respectively, forms a plurality of conical channel structures that the heat supply air circulates.
Further, the first cooling holes and the second cooling holes are arranged in a hexagonal structure, and the three-dimensional textile fabric is arranged in a honeycomb-shaped three-dimensional structure.
Further, the three-dimensional textile fabric comprises ice silk fibers.
Further, the three-dimensional textile fabric is coated with a cationic dye or a reactive dye.
Further, the breathable layer comprises anisotropic fibers, and the profiled fibers are provided with a plurality of groove structures for absorbing moisture.
Furthermore, the connecting layer comprises polyester fibers which are used for being connected with the first cooling holes and the corresponding second cooling holes respectively, and the polyester fibers are wound on the first cooling holes and the corresponding second cooling holes alternately to form a channel for circulating the heat air.
Further, a sun-screening auxiliary agent for isolating ultraviolet rays is coated on the sun-screening layer.
Further, a coat and cap for protecting the head from sunlight is connected to the coat body.
To sum up, the utility model discloses following beneficial effect has: three-dimensional textile fabric is manufactured by using a three-dimensional weaving technology, and the structure is improved on the three-dimensional textile fabric according to a physical cooling principle, so that the fabric is simple and environment-friendly, the cooling function is added on the sun-proof property of sun-proof clothes, and the cool experience of a user is improved.
Drawings
FIG. 1 is a schematic perspective view of a cool-type sun suit;
FIG. 2 is a schematic perspective view of a three-dimensional textile fabric;
fig. 3 is a partial cross-sectional view of a three-dimensional textile fabric.
Reference numerals: 1. a coat body; 11. three-dimensional textile fabric; 111. a sunscreen layer; 1111. a first cooling hole; 112. a connecting layer; 113. a breathable layer; 1131. a second cooling hole; 2. sleeves; 3. and (6) coating the cap.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and examples. In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.
Referring to fig. 1-3, a cool type sun-proof garment comprises a garment body 1 and sleeves 2 connected with the garment body 1, wherein the garment body 1 and the sleeves 2 are made of three-dimensional textile fabric 11, the three-dimensional textile fabric 11 comprises a sun-proof layer 111 arranged on the outer surface, a breathable layer 113 arranged on the inner surface, and a connecting layer 112 arranged between the sun-proof layer 111 and the breathable layer 113, the connecting layer 112 is woven between the sun-proof layer 111 and the breathable layer 113 in an inserting manner to form a three-dimensional structure, a plurality of first cooling holes 1111 are formed in the sun-proof layer 111, a plurality of second cooling holes 1131 are formed in the breathable layer 113 corresponding to the first cooling holes 1111, the inner diameter of the first cooling holes 1111 is larger than that of the second cooling holes 1131, and the connecting layer 112 can connect the first cooling holes 1111 with the corresponding second cooling holes 1131 respectively to form a plurality of tapered channel structures for circulating heat supply air.
The three-dimensional textile fabric 11 is an innovation of modern textile technology, and is produced by a non-woven textile material and a three-dimensional composite weaving technology, and is a multi-scale structure processing technology of fiber or fiber aggregate. The three-dimensional fabric can be divided into a three-dimensional woven fabric, a three-dimensional knitted fabric and a three-dimensional knitted fabric, so that the advantages of 1+1>2 can be realized by improving the structure of various fiber and yarn combinations, amplifying the characteristics of the fiber and yarn combinations or generating new effects besides the utilization of the characteristics of the fiber and yarn.
One manufacturing method of the three-dimensional textile fabric 11 is three-dimensional knitting by a four-step method. The four-step three-dimensional weaving comprises square weaving and circular weaving, wherein the square weaving refers to weaving of a fabric with a rectangular or rectangular combination cross section; circular knitting refers to the knitting of fabrics having a circular or circular composition in cross-section.
The four-step three-dimensional weaving refers to that yarn carriers are distributed on a weaving machine chassis in a row and column mode and move in the X direction and the Y direction, and a prefabricated part is formed and in the Z direction. In one machine cycle, the yarn carrier movement is divided into four steps, and each step is moved adjacent to a position. Firstly, alternately moving yarn carriers in adjacent rows to one position along the X direction; secondly, alternately moving the yarn carriers in the adjacent rows to one position along the Y direction; thirdly, the yarn carriers in the adjacent rows alternately move one position along the Y direction; and fourthly, alternately moving the yarn carriers in the adjacent rows to one position along the X direction. After four steps of movement of the yarn carrier, the arrangement of the yarn carrier on the chassis of the machine is restored to the initial position, and the circulation of the machine is completed. The length of the preform obtained in one machine cycle is defined as the length of the burl, indicated by h. The above-described weaving steps are repeated with the aid of corresponding "tightening" procedures to interweave the yarns with one another to form the final structure.
According to the utility model discloses a ventilative layer 113, articulamentum 112, sun-proof layer 111's range order among three-dimensional textile fabric 11 to and the distribution of first cooling hole 1111 and second cooling hole 1131, the toper passageway on articulamentum 112 is the structure of heavy-calibre towards the external environment. When the user wears the utility model discloses a during sun-proof clothing, hot-air flows into the toper passageway through first cooling hole 1111 in again through second cooling hole 1131 after with human contact, and hot-air temperature reduces this moment, can produce nice and cool sensation when the user dresses. In addition, when the external environment is ventilated, the hot air can be brought into a gust of breeze when passing through the second cooling holes 1131 quickly, the heat emitted by the user can be removed, and the cool feeling is further improved.
The above effects are based on the "Joule-Thomson coefficient", also called throttling expansion effect, and is the process of cooling the high-pressure gas after passing through a small hole or a valve and being blocked to a certain extent. In the process that the hot air flows slowly from the first temperature-reducing holes 1111 to the second temperature-reducing holes 1131, the air is extruded in the second temperature-reducing holes 1131 to form air pressure, so that the temperature of the air passing through the second temperature-reducing holes 1131 is lower than the temperature of the air in the external environment of the first temperature-reducing holes 1111.
When wind is generated in the external environment, the second cooling holes 1131 are smaller than the first cooling holes 1111, so that the cross-sectional area of the hot air flowing through the second cooling holes 1131 is gradually reduced in the process that the hot air flows through the first cooling holes 1111 through the second cooling holes 1131, the flowing speed of the fluid is gradually increased at the moment, a cool breeze can be formed, and a user can feel cooler.
The weaving structure of the fabric is improved by utilizing the principle of physical cooling and combining the three-dimensional weaving technology. Compared with the use of electric energy for cooling and chemical cooling, the sun-proof clothes are safer and more environment-friendly, and an additional cooling tool is not required to be added to the sun-proof clothes, so that the sun-proof clothes are lighter.
To sum up, the utility model discloses an use three-dimensional weaving technique to make three-dimensional textile fabric 11 to according to physics cooling principle improvement structure on three-dimensional textile fabric 11, simple environmental protection has increased the cooling function on sun-proof attribute of sun-proof clothes, has promoted user's cool experience and has felt.
The first cooling holes 1111 and the second cooling holes 1131 are both arranged in a hexagonal structure, and the three-dimensional textile fabric 11 is arranged in a honeycomb-shaped three-dimensional structure. The most outstanding advantages of the honeycomb structure are material saving, and the self weight of the three-dimensional textile fabric 11 can be reduced, so that the sun-proof clothes are lighter and lighter; meanwhile, the honeycomb structure can enhance the stability of the connecting layer 112, so that the conical structure for circulating the heating air is more stable; finally, from the viewpoint of hydrodynamics, gas can flow in along the channel more easily, which is favorable for air exchange and is also favorable for exerting the cooling effect of the utility model.
The three-dimensional textile fabric 11 comprises ice silk fibers. The ice silk fiber is an artificial fiber, more precisely a modified viscose fiber or a fiber formed by blending chinlon and spandex. The moisture content of the ice silk most accords with the physiological requirement of human skin, has the advantages of smoothness, coolness, ventilation, static resistance, ultraviolet resistance and the like, and the added fiber can enhance the characteristics of the sun-proof clothes in the aspects of coolness and sun-proof on the fabric property and enhance the comfort of a user when the user wears the sun-proof clothes.
The three-dimensional textile fabric 11 is coated with a cationic dye or a reactive dye. Vivid colors have the greatest isolation from ultraviolet light, such as cyan, red, blue, green, and the like. The cationic dye is one of textile dyes, is dissolved in water to be in a cationic state, has the advantages of high strength, bright color light, good light fastness and the like, and can enhance the sun-proof property of the three-dimensional textile fabric 11 through the cationic dye, so that the ultraviolet-ray isolation function of the sun-proof clothes is enhanced.
Similarly, reactive dyes are also called reactive dyes, and are novel water-soluble dyes appearing in the 50 th century, and reactive dye molecules contain reactive groups capable of reacting with hydroxyl in cellulose and amino in protein fibers, and generate covalent bonds with the fibers during dyeing to generate dye-fiber compounds. The reactive dye has the advantages of bright color, good leveling property, simple and convenient dyeing method, high dyeing fastness and the like, so that the sun protection property of the three-dimensional textile fabric 11 can be enhanced through the reactive dye, and the ultraviolet isolation function of the sun protection suit is enhanced.
The air permeable layer 113 comprises profiled fibers, and a plurality of groove structures for absorbing moisture are arranged on the profiled fibers. Because the temperature is too high in summer, a user inevitably can secrete a large amount of sweat, and if the sweat cannot be volatilized and dispersed in time, the sweat can bring sticky feeling to the wearer. In the process of dissipating sweat, a small part of sweat is directly discharged from the gaps of the fabric, which is called perspective diffusion; most of the fiber is absorbed by the fiber in the fabric, then diffused to the surface layer of the fabric and discharged into the atmosphere through evaporation, which is called moisture absorption and diffusion. Consequently, set up a plurality of groove structures to the profiled fiber on ventilative layer 113, at the in-process that profiled fiber interweaved, a plurality of grooves intercombination forms the tubule to can form capillary phenomenon when ventilative layer 113 is laminated with the human body, the profiled fiber can adsorb the sweat on human surface fast promptly, thereby makes the human body keep fresh and cool impression.
The connection layer 112 includes polyester fibers for respectively connecting the first cooling holes 1111 and the corresponding second cooling holes 1131, and the polyester fibers are alternately wound on the first cooling holes 1111 and the corresponding second cooling holes 1131 to form a channel for circulating the heat air. The polyester fiber is a synthetic fiber obtained by spinning polyester formed by polycondensation of organic dibasic acid and dihydric alcohol, and has the greatest advantages of good crease resistance and shape retention, and high strength and elastic recovery capability. And tie layer 112 mainly is as the passageway of hot air circulation, need have the intensity that increases not to warp at gaseous extruded in-process, and the gas permeability of polyester fiber surface fabric is relatively poor simultaneously, has avoided hot-air to spread to other places at the in-process that gets into the toper passageway like this, can guarantee that gaseous at utmost flows into first cooling hole 1111 in when the gas flows to strengthen sun-proof clothes's cooling attribute, bring cool impression for the user.
The sunscreen layer 111 is coated with a sunscreen aid for blocking ultraviolet rays. The addition of the sun-screening auxiliary agent is one of the ways of manufacturing the sun-screening fabric, and the sun-screening layer 111 is located at the outermost layer of the sun-screening garment and has a strong sun-screening function, so that the sun-screening property of the sun-screening layer 111 can be enhanced by adding the sun-screening auxiliary agent on the sun-screening layer 111, and the ultraviolet ray isolation function of the sun-screening garment is enhanced.
The coat body 1 is connected with a coat cap 3 for protecting the head from sunshine. The addition of the coat and hat 3 can increase the sun protection effect on the head of a user, and can bring more comprehensive sun protection experience to the user.
It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.
Claims (8)
1. A cool type sun-proof clothes comprises a clothes body (1) and sleeves (2) connected with the clothes body (1), and is characterized in that: the clothes body (1) and the sleeves (2) are both made of three-dimensional textile fabric (11), the three-dimensional textile fabric (11) comprises a sun-proof layer (111) arranged on the outer surface, a breathable layer (113) arranged on the inner surface and a connecting layer (112) arranged between the sun-proof layer (111) and the breathable layer (113), the connecting layer (112) is woven between the sun-proof layer (111) and the breathable layer (113) in an inserting mode to form a three-dimensional structure, a plurality of first cooling holes (1111) are formed in the sun-proof layer (111), a plurality of second cooling holes (1131) are formed in the breathable layer (113) corresponding to the first cooling holes (1111), the inner diameter size of the first cooling holes (1111) is larger than that of the second cooling holes (1131), and the connecting layer (112) can respectively connect the first cooling holes (1111) with the corresponding second cooling holes (1131), a plurality of conical channel structures for the circulation of hot air are formed.
2. A cool and refreshing type sun protection suit according to claim 1, characterized in that: the first cooling holes (1111) and the second cooling holes (1131) are arranged in a hexagonal structure, and the three-dimensional textile fabric (11) is arranged in a honeycomb-shaped three-dimensional structure.
3. A cool and refreshing type sun protection suit according to claim 1 or 2, characterized in that: the three-dimensional textile fabric (11) comprises ice silk fibers.
4. A cool and refreshing type sun protection suit according to claim 3, characterized in that: the three-dimensional textile fabric (11) is coated with cationic dye or reactive dye.
5. A cool and refreshing type sun protection suit according to claim 1, characterized in that: the breathable layer (113) comprises profiled fibers, and a plurality of groove structures used for absorbing water are arranged on the profiled fibers.
6. A cool and refreshing type sun protection suit according to claim 1, characterized in that: the connecting layer (112) comprises polyester fibers which are used for being respectively connected with the first cooling holes (1111) and the corresponding second cooling holes (1131), and the polyester fibers are alternately wound on the first cooling holes (1111) and the corresponding second cooling holes (1131) to form a channel for circulation of hot air.
7. A cool and refreshing type sun protection suit according to claim 1, characterized in that: and a sun-screening auxiliary agent for isolating ultraviolet rays is coated on the sun-screening layer (111).
8. A cool and refreshing type sun protection suit according to claim 1, characterized in that: the coat body (1) is connected with a coat and cap (3) for preventing the head from being sunburned.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023056184.3U CN214759245U (en) | 2020-12-17 | 2020-12-17 | Cool type sun-proof clothes |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023056184.3U CN214759245U (en) | 2020-12-17 | 2020-12-17 | Cool type sun-proof clothes |
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CN214759245U true CN214759245U (en) | 2021-11-19 |
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CN202023056184.3U Active CN214759245U (en) | 2020-12-17 | 2020-12-17 | Cool type sun-proof clothes |
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