CN219903632U - Composite knitted fabric - Google Patents

Abstract

The utility model discloses a composite knitted fabric, relates to fabrics, and aims to solve the problem that the existing composite knitted fabric has insufficient air permeability. When an operator wears the knitted composite fabric for exercise, he feels that the air permeability is insufficient, which makes the operator feel stuffy. The key points of the technical solution are: including a surface layer and an inner layer, with moisture-conducting yarns and wear-resistant yarns passing between the surface layer and the inner layer. The moisture-conducting yarns form a number of ridges on both sides of the fabric, and the wear-resistant yarns are on the fabric. There are a number of convex strips 2 formed on both sides, through holes are provided on the surface, and the inner layer is a warp-knitted mesh structure woven from bar GB1 and bar GB2. The surface layer of the utility model is provided with through holes and the inner layer is woven to form a warp knitted mesh structure, which increases the air permeability of the inner layer, so that external air can pass through the through holes and then through the warp knitted mesh to contact the skin, thereby improving the fabric's durability Breathable, bamboo fiber has a natural antibacterial effect, making the surface less likely to breed bacteria.

Description

A composite knitted fabric

Technical field

The utility model relates to fabrics, more specifically, it relates to a composite knitted fabric.

Background technique

Fabric is the material used to make clothing. As one of the three elements of clothing, fabric can not only interpret the style and characteristics of clothing, but also directly affect the color and shape of clothing.

Existing fabrics are divided into knitted fabrics, woven fabrics and composite fabrics. Composite fabrics are further divided into knitted fabrics and knitted fabric composites, woven fabrics and woven fabric composites, and knitted fabrics and woven fabric composites.

Existing sports and leisure clothing uses knitted fabrics and composite knitted fabrics, which have the effect of woven fabrics and good elasticity. Therefore, in the eyes of consumers of this type of clothing, they are still relatively popular and loved by the public. However, the existing The composite knitted fabric has insufficient air permeability, so when the operator wears the knitted composite fabric to exercise, he feels that the air permeability is insufficient, making the operator feel stuffy.

Therefore, a new solution needs to be proposed to solve this problem.

Utility model content

In view of the shortcomings of the existing technology, the purpose of this utility model is to provide a composite knitted fabric.

The above technical purpose of the present invention is achieved through the following technical solution: a composite knitted fabric, including a surface layer and an inner layer, and a moisture-conducting yarn for sewing the inner layer and the outer layer passes between the surface layer and the inner layer. threads and wear-resistant yarns. The moisture-conducting yarns pass through the surface layer and the inner layer transversely and form a number of ridges on both sides of the fabric. The wear-resistant yarns pass through the surface layer and the inner layer longitudinally and form on both sides of the fabric. A number of convex strips are formed, and the surface layer is provided with a number of through holes penetrating the surface layer. The inner layer is a warp knitted mesh structure woven from bar GB1 and bar GB2, and its organizational structure is:

The comb bar GB1 is a meridian structure, and its organizational structure is 10/12/10/23/21/23||1 through 1 empty;

The comb bar GB2 is a modified meridian structure, and its organizational structure is 23/21/23/10/12/10||1 through 1 empty.

By adopting the above technical solution, when the fabric is made into clothing and worn on the operator, the surface layer is provided with through holes and the inner layer is woven to form a warp-knitted mesh structure, which increases the air permeability of the inner layer, allowing external air to pass through the through holes. Through the warp knitting mesh, it comes into contact with the skin, thereby improving the breathability of the fabric. The moisture-conducting yarn can guide the sweat in the inner layer and the sweat on the skin out of the surface, thereby keeping the inner layer dry. Raised Strips One and Two It is arranged on the inner layer to resist the skin, forming a gap between the skin and the inner layer, so that the operator feels cooler. This arrangement improves the breathability and comfort of the fabric.

The utility model is further configured as follows: the thickness of the wear-resistant yarn is the same as that of the moisture-conducting yarn, and the wear-resistant yarn passes from the surface layer through the top of the convex strip 1 and then penetrates into the surface layer to realize that the convex strip 2 is located on the convex strip. above one.

By adopting the above technical solution, the thickness of the wear-resistant yarn is the same as that of the moisture-conducting yarn, so that when the skin fits the first and second protrusions, the operator feels more comfortable, and the second protrusions on the surface are arranged on the protrusions. Above strip one, so that when the surface layer comes into contact with external objects, convex strips two first come into contact with external objects, and convex strips two are formed of wear-resistant yarns, thereby improving the wear resistance of the fabric.

The utility model is further configured as follows: the wear-resistant yarn includes a yarn core one and a covering yarn wrapped around the yarn core one. The yarn core one is made of twisted spandex fiber, and the covering yarn is made of polyester. Fibers are twisted.

By adopting the above technical solution, the spandex fiber has the characteristics of good elasticity, thus ensuring the elasticity of the wear-resistant yarn and the ductility of the fabric. The polyester fiber has the characteristics of high strength and good wear resistance, thereby ensuring the wear-resistant yarn. wear resistance.

The utility model is further configured as follows: the moisture-conducting yarn includes a yarn core 2 and a yarn 1 and a yarn 2 wound around the yarn core 2, and the yarn core 2 is made of two strands of spandex yarns plied in the same direction. , there are ravines along the length direction formed between the adjacent spandex yarns, the first yarn is made of twisted mugwort fiber, and the second yarn is made of twisted flax fiber.

By adopting the above technical solution, the spandex yarn has good elasticity, thus ensuring the elasticity of the moisture-conducting yarn. The formation of ravines makes it possible for the moisture-conducting yarn to contact the sweat on the skin surface, and the sweat can easily interact with the yarn through the capillary effect. The gap between the two threads is channeled along the ravine, so that sweat can be quickly channeled along the moisture-conducting yarn, thereby ensuring the moisture-conducting effect of the moisture-conducting yarn. Mugwort fiber has the functions of deodorization, sterilization and mosquito removal. , so that the bacteria of sweat in the moisture-conducting yarn can be inhibited, and the convex strips have a certain mosquito-repelling effect. The flax fiber has good hygroscopicity and can ensure the moisture-conducting effect of the moisture-conducting yarn.

The utility model is further configured as follows: the surface layer is woven with a ribbed structure of three yarns.

By adopting the above technical solution, the inner layer is weft-knitted to form a rib structure, and the surface layer is warp-knitted to form a warp-knitted mesh structure, which makes the fabric stronger. Bamboo fiber has a natural antibacterial and antibacterial effect, making the surface layer less likely to breed bacteria.

The utility model is further configured such that: the yarn of the comb GB1 is twisted by kapok fiber, and the yarn of the comb GB2 is twisted by mulberry silk fiber.

By adopting the above technical solution, kapok fiber has good affinity with human skin and has a delicate hand feel, ensuring the skin-friendliness of the inner layer of the fabric. Mulberry silk has the functions of being warm in winter and cool in summer, close to the body and comfortable, and antistatic, thus ensuring the inner layer's skin-friendliness. Comfort.

To sum up, the utility model has the following beneficial effects: when the fabric is made into clothing and worn on the operator, the surface layer is provided with through holes and the inner layer is woven to form a warp-knitted mesh structure, which increases the breathability of the inner layer, thereby making the External air can pass through the through holes and then through the warp knitted mesh to contact the skin, thereby improving the breathability of the fabric. The moisture-conducting yarn can export the sweat from the inner layer and the sweat on the skin to the surface, thereby keeping the inner layer dry. The first and second convex strips are arranged on the inner layer so as to resist the skin and form a gap between the skin and the inner layer, thereby making the operator feel cooler. This arrangement improves the breathability and comfort of the fabric.

Description of the drawings

Figure 1 is a schematic structural diagram of the present utility model for showing the inner layer;

Figure 2 is a partial cross-sectional view of the utility model;

Figure 3 is a schematic structural diagram of the moisture-conducting yarn in the present utility model;

Figure 4 is a schematic structural diagram of the wear-resistant yarn in the present utility model;

Figure 5 is a schematic diagram of the weaving of the surface layer of the utility model;

Figure 6 is a yarn-laying movement diagram of the comb bar GB1 in the utility model;

Figure 7 is a yarn-laying movement diagram of the comb bar GB2 in the present utility model.

In the picture: 1. Surface layer; 2. Inner layer; 3. Moisture-conducting yarn; 4. Wear-resistant yarn; 5. Raised strip one; 6. Raised strip two; 7. Through hole; 8. Yarn core one; 9 , covering yarn; 10, yarn core two; 11, yarn one; 12, yarn two; 13, spandex yarn; 14, ravine; 15, yarn three.

Detailed ways

The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

A composite knitted fabric, as shown in Figures 1, 2, 6 and 7, includes a surface layer 1 and an inner layer 2. There are several moisture-conducting holes between the surface layer 1 and the inner layer 2 for sewing the inner layer 2 and the outer layer. Yarn 3 and wear-resistant yarn 4. The moisture-conducting yarn 3 passes through the surface layer 1 and the inner layer 2 transversely and forms a number of ridges - 5 on both sides of the fabric. The wear-resistant yarn 4 passes through the surface layer 1 and the inner layer longitudinally. 2. A number of protrusions 26 are formed on both sides of the fabric. The surface layer 1 is provided with a number of through holes 7 that penetrate the surface layer 1. The through holes 7 are located between adjacent moisture-conducting yarns 3. The thickness of the wear-resistant yarn 4 is Same as the moisture-conducting yarn 3, the wear-resistant yarn 4 passes through the surface layer 1, passes above the convex bar 1 5, and then penetrates the surface layer 1 to realize that the convex bar 2 6 is located above the convex bar 1 5. The inner layer 2 is the comb bar GB1. , the warp knitted mesh structure woven from bar GB2, its organizational structure is:

The comb GB1 is a meridian structure, and its organizational structure is 10/12/10/23/21/23||1 worn and 1 empty;

Comb GB2 is a changed meridian structure, and its organizational structure is 23/21/23/10/12/10||1 worn and 1 empty.

The yarn of card bar GB1 is made of twisted kapok fiber, and the yarn of card bar GB2 is made of twisted mulberry silk fiber.

As shown in Figure 3, the moisture-conducting yarn 3 includes a yarn core 2 10 and a yarn 11 and a yarn 2 12 wrapped around the yarn core 2 10. The yarn core 2 10 is made of two spandex yarns 13 plied in the same direction. The adjacent spandex yarns 13 are formed with ravines 14 along their length direction. The first yarn 11 is twisted from mugwort fiber, the second yarn 12 is twisted from flax fiber, and the second yarn 12 is made from twisted flax fiber. 11 is made by twisting several strands of mugwort fiber into an S shape using a twisting machine, and yarn 2 12 is made from twisting a few strands of flax fiber into an S shape using a twisting machine.

As shown in Figure 4, the wear-resistant yarn 4 includes a yarn core 8 and a covering yarn 9 wrapped around the yarn core 8. The yarn core 1 is twisted with spandex fiber, and the covering yarn 9 is made of polyester fiber. Made by twisting.

As shown in Figure 5, the surface layer 1 is woven with yarn 315 in a ribbed structure. Yarn 315 is twisted with bamboo fiber. Yarn 315 is made by twisting several strands of bamboo fiber in an S shape using a twisting machine. become.

Working process: When the fabric is made into clothing and worn on the operator, the surface layer 1 is provided with through holes 7 and the inner layer 2 is woven to form a warp-knitted mesh structure, which increases the breathability of the inner layer 2 so that external air can pass through the through holes. 7 then passes through the warp knitting mesh to contact the skin, thereby improving the breathability of the fabric. The moisture-conducting yarn 3 can lead the sweat in the inner layer 2 and the sweat on the skin out of the surface layer 1, thereby keeping the inner layer 2 dry and convex. The first strip 5 and the second convex strip 6 are arranged on the inner layer 2 so as to resist the skin and form a gap between the skin and the inner layer 2, thereby making the operator feel cooler. This arrangement improves the breathability and comfort of the fabric and is durable. The thickness of the grinding yarn 4 is the same as that of the moisture-conducting yarn 3, so that when the skin fits the ridges 1 5 and 2 6, the operator feels more comfortable, and the ridges 2 6 of the surface layer 1 are arranged on the ridges Above the first 5, so that when the surface layer 1 comes into contact with external objects, the second convex strip 6 first contacts the external object, and the second convex strip 6 is formed of the wear-resistant yarn 4, thereby improving the wear resistance of the fabric.

The wear-resistant yarn 4 includes a yarn core 8 and a covering yarn 9 wrapped around the yarn core 8. The yarn core 8 is made of twisted spandex fiber, and the covering yarn 9 is made of twisted polyester fiber. , spandex fiber has the characteristics of good elasticity, thus ensuring the elasticity of the wear-resistant yarn 4, and the ductility of the fabric. Polyester fiber has the characteristics of high strength and good wear resistance, thus ensuring the wear resistance of the wear-resistant yarn 4 sex.

The moisture-conducting yarn 3 includes a yarn core 2 10 and a yarn 11 and a yarn 2 12 wound around the yarn core 2 10 . The yarn core 2 10 is made of two spandex yarns 13 stranded in the same direction. The adjacent spandex yarns are Grooves 14 are formed between the yarns 13 along their length direction. The yarn 11 is twisted with mugwort fiber, and the yarn 212 is twisted with flax fiber. The spandex yarn 13 has good elasticity, thereby ensuring In order to improve the elasticity of the moisture-conducting yarn 3, the formation of the ravine 14 makes the moisture-conducting yarn 3 in contact with the sweat on the skin surface, and the sweat can easily pass through the capillary effect and use the gap between the yarn one 11 and the yarn two 12 to flow along the The gully 14 conducts drainage, so that sweat can be quickly channeled along the moisture-conducting yarn 3, thereby ensuring the moisture-conducting effect of the moisture-conducting yarn 3. The mugwort fiber has the functions of deodorization, sterilization and mosquito removal, thereby allowing the moisture-conducting yarn 3 to be located in the moisture-conducting yarn 3. Sweat bacteria in the yarn 3 can be inhibited, and the ridges 1 5 have a certain mosquito-repelling effect. The flax fiber has good hygroscopicity and can ensure the moisture conduction effect of the moisture-conducting yarn 3.

The surface layer 1 is made of yarn 315, which is woven into a rib structure, and the yarn 315 is twisted into bamboo fiber. The inner layer 2 is weft-knitted to form a rib structure, and the surface layer 1 is warp-knitted to form a warp-knitted mesh structure, thereby making the fabric With high strength, bamboo fiber has natural antibacterial and antibacterial effects, making the surface layer 1 less likely to breed bacteria.

The yarn of card bar GB1 is made of twisted kapok fiber, and the yarn of card bar GB2 is made of twisted mulberry silk fiber. Kapok fiber has good affinity with human skin and has a delicate hand feel, ensuring that the inner layer 2 of the fabric is skin-friendly. Sex, mulberry silk has the functions of being warm in winter and cool in summer, close to the body, comfortable and anti-static, thereby ensuring the comfort of the inner layer 2.

The above are only the preferred embodiments of the present utility model. The protection scope of the present utility model is not limited to the above-mentioned embodiments. All technical solutions falling under the idea of the present utility model belong to the protection scope of the present utility model. It should be pointed out that for those of ordinary skill in the art, several improvements and modifications may be made without departing from the principles of the present utility model, and these improvements and modifications should also be regarded as the protection scope of the present utility model.

Claims (6)

1. A composite knitted fabric, characterized by: comprising a surface layer (1) and an inner layer (2), with a number of threads for sewing the inner layer (2) passing between the surface layer (1) and the inner layer (2). and the outer layer of moisture-conducting yarn (3) and wear-resistant yarn (4). The moisture-conducting yarn (3) transversely passes through the surface layer (1) and the inner layer (2) and forms a number of holes on both sides of the fabric. Raised strips one (5), the wear-resistant yarn (4) longitudinally passes through the surface layer (1) and the inner layer (2) and forms a number of raised strips two (6) on both sides of the fabric, the surface layer (1) There are a number of through holes (7) that penetrate the surface layer (1). The inner layer (2) is a warp knitted mesh structure woven from the bar GB1 and the bar GB2. Its structure is: The comb bar GB1 is a meridian structure, and its organizational structure is 10/12/10/23/21/23||1 through 1 empty; The comb bar GB2 is a modified meridian structure, and its organizational structure is 23/21/23/10/12/10||1 through 1 empty. 2. A composite knitted fabric according to claim 1, characterized in that: the wear-resistant yarn (4) has the same thickness as the moisture-conducting yarn (3), and the wear-resistant yarn (4) Pass out from the surface layer (1), pass above the first convex strip (5), and then penetrate into the surface layer (1) to realize that the second convex strip (6) is located above the first convex strip (5). 3. A composite knitted fabric according to claim 1, characterized in that: the wear-resistant yarn (4) includes a yarn core (8) and a covering yarn wrapped outside the yarn core (8). (9), the yarn core one (8) is made of twisted spandex fiber, and the covering yarn (9) is made of twisted polyester fiber. 4. A composite knitted fabric according to claim 1, characterized in that: the moisture-conducting yarn (3) includes a yarn core two (10) and a yarn one (10) wound around the yarn core two (10). 11) and yarn two (12). The yarn core two (10) is made of two spandex yarns (13) plied in the same direction. There is a gap along the adjacent spandex yarns (13) formed between them. For the ravines (14) provided in the length direction, the first yarn (11) is made of twisted mugwort fiber, and the second yarn (12) is made of twisted flax fiber. 5. A composite knitted fabric according to claim 1, characterized in that: the surface layer (1) is made of three yarns (15) woven in a ribbed structure, and the three yarns (15) are made of bamboo fiber. Made by twisting. 6. A composite knitted fabric according to claim 1, characterized in that: the yarns of the bar GB1 are twisted from kapok fibers, and the yarns of the bar GB2 are twisted from mulberry silk fibers. become.