CN111528538A - Method for making compression tight garments - Google Patents

Abstract

The invention discloses a preparation method of a compression tight clothing, which can be clothing or trousers, wherein the clothing comprises a first fabric area, a second fabric area and a third fabric area, wherein the second fabric area is spliced with the first fabric area and the third fabric area, and the pressure applied to the human body by the second fabric area is less than the pressure applied to the human body by the first fabric area and the third fabric area; the trousers comprise a fourth material area, a fifth material area and a sixth material area, wherein the fifth material area is spliced with the fourth material area and the sixth material area, the pressure exerted on the human body by the fourth material area is less than the pressure exerted on the human body by the fifth material area, and the pressure exerted on the human body by the fifth material area is less than the pressure exerted on the human body by the sixth material area; the garment composition includes the garment and pants. The gradient compression can be realized by arranging a plurality of different fabric areas.

Description

Method for making compression tight garments

Technical Field

The invention relates to the field of health and sports clothes, in particular to a preparation method of compression tight clothes.

Background

In modern society, as health concepts go deep into the mind, the wind and qi of exercise are increasingly prevalent, people of all ages need to keep healthy through normal regular exercise, such as increasing or maintaining the ability of heart and lung, muscle endurance, promoting metabolism rate, enhancing immunity and the like, the exercise helps to eliminate psychological stress, the work and life pressure of modern society is getting stronger, and the exercise can keep the best physical and mental state of people and improve the quality of life.

The long-time or high-intensity sports can lead the coordination of the body to be reduced without autonomy in the process of sports, the lactic acid of the body on the other side can be accumulated, and the fatigue feeling of athletes can be increased sharply. For example, after exercise, the delayed muscular soreness is usually caused by excessive muscle eccentric contraction, and the compression clothes can provide the body with the force of muscle external restraint to relieve the inflammatory reaction caused by the muscle eccentric contraction. The compression garment can support muscle groups, reduce muscle vibration, reduce the occurrence probability of delayed muscle soreness and reduce the possibility of injury caused by exercise.

In order to prolong the exercise time and further improve the exercise intensity, some special sports clothes are needed for assistance. For example, the compression garment can support the core muscle group, the back and the like at the moment, and can fix the proud flesh to avoid extra burden caused by ineffective vibration. Meanwhile, the compression garment can improve the strength of muscles, relieve lactic acid accumulation and reduce fatigue, so that the sports performance is improved, such as higher speed, higher jump, longer sports and the like.

Compression garments are made by specific material splicing and corresponding knitting methods, and generally use high stretch fabrics to accelerate blood return by high pressure, such as increasing venous blood return, improving blood circulation, enhancing the ability of muscle contraction to push blood back into the deep veins, and can wrap and support major motor muscles, which helps to reduce muscle hunting and maintain muscle alignment, and improve neuromuscular conduction control. For example, it is possible to fix the swing amplitude of the thigh muscles, to avoid an additional burden caused by ineffective vibration, while protecting the knees and preventing cramps, and this in turn provides more concentrated support and stability to the muscles, thereby allowing the user to exercise more permanently. Users often want to quickly achieve fitness goals or performance enhancements by means of compression apparel products. On the other hand, certain damage to muscles and joints can be inevitably caused by high-strength exercise, the wrapping performance brought by the elastic fabric of the existing compression clothes is often uniform, the gradient pressure is difficult to generate on the skin to promote blood circulation, the lactic acid decomposition is not well promoted, the lactic acid accumulation is prevented, and further the muscle quick recovery is difficult to effectively help.

The traditional compression clothes are generally only used for common compression, the requirements of different sections of human bodies on different compression degrees are not fully considered, the compression degree of the existing compression clothes is greatly different from the ideal situation of human engineering, and the processing convenience and the use comfort cannot be satisfied by people.

Disclosure of Invention

In view of the problems of the prior art, it is an object of the present invention to provide a method for manufacturing a compression tight garment.

The method of making compression tight garments of the present invention allows for the production of compression tight garments that provide the user with greater body integrity, similar to the feeling of growing a layer of exoskeleton, which is particularly evident in muscle fatigue. The compression clothing product can fix the swing amplitude of the arm and thigh muscles, avoid extra burden caused by ineffective vibration, and simultaneously provide muscle and joint support to enable a user to exert better exercise capacity.

The invention adopts the following technical scheme:

in certain embodiments, a compression fit garment, the garment being a garment comprising a garment body comprising a first panel, a second panel, and a third panel, wherein the first panel is joined to the second panel and the third panel is joined to the second panel, and the second panel applies less pressure to the body than the first panel and/or the third panel applies to the body;

the preparation method comprises the following steps: knitting the first fabric region, knitting the second fabric region, knitting the third fabric region, sewing up the second fabric region and the first fabric region through a splicing seam, and sewing up the second fabric region and the third fabric region through a splicing seam.

Further, the weight percentage of spandex in the first fabric region is not more than 30%, specifically, for example, 30%, 29%, 28%, 27%, 26%, 25%, 24%, 23%, 22%, 21%, 20%, 19%, 18%, 17%, 16%, 15%, 14%, 13%, 12%, 11%, 10%, 9%, 8%, 7%, 6%, 5%, 4%, 3%, 2%, 1%.

Further, the weight percentage of spandex in the second facing material region is 30% or more, specifically, the weight percentage of spandex in the second facing material region is, for example, 31%, 32%, 33%, 34%, 35%, 36%, 37%, 38%, 39%, 40%, 41%, 42%, 43%, 44%, 45%, 46%, 47%, 48%, 49%, 50%.

Further, the spandex content in the third fabric region is 20% to 30% by weight, specifically, for example, 21%, 22%, 23%, 24%, 25%, 26%, 27%, 28%, 29%, 30%.

Furthermore, the fabric in the first fabric area has a weft-wise elongation and a warp-wise elongation of 75-130%, such as 76-130%, 77-130%, 78-130%, 79-130%, 80-130%, 81-129%, 82-128%, 83-127%, 84-126%, and 85-125%.

Furthermore, the latitudinal and longitudinal elongations of the fabric in the second fabric area are 100-130%, such as 101-130%, 102-130%, 103-130%, 104-130%, 105-130%, 106-129%, 107-128%, 108-127%, 109-126% and 110-125%.

Furthermore, the latitudinal and longitudinal elongations of the fabric in the third fabric area are 75-130%, such as 76-130%, 77-130%, 78-130%, 79-130%, 80-130%, 81-129%, 82-128%, 83-127%, 84-126% and 85-125%.

Furthermore, the weft-wise and warp-wise recovery rate of the fabric in the first fabric area is more than or equal to 75%, such as more than or equal to 76%, more than or equal to 77%, more than or equal to 78%, more than or equal to 79%, more than or equal to 80%, more than or equal to 81%, more than or equal to 82%, more than or equal to 83%, more than or equal to 84%, and more than or equal to 85%.

Further, the weft-wise and warp-wise recovery rate of the fabric of the second fabric area is more than or equal to 100%, such as more than or equal to 101%, more than or equal to 102%, more than or equal to 103%, more than or equal to 104%, more than or equal to 105%, more than or equal to 106%, more than or equal to 107%, more than or equal to 108%, more than or equal to 109%, and more than or equal to 110%.

Furthermore, the weft-wise and warp-wise recovery rate of the fabric in the third fabric area is more than or equal to 75%, such as more than or equal to 76%, more than or equal to 77%, more than or equal to 78%, more than or equal to 79%, more than or equal to 80%, more than or equal to 81%, more than or equal to 82%, more than or equal to 83%, more than or equal to 84%, and more than or equal to 85%.

By way of example, the compression tight garment has the first fabric area located 5-20 cm, or 10-15 cm down from the upper end of the garment (neckline) in a top-down direction (or direction conventionally understood by those skilled in the art, i.e. with the neckline as the upper portion), the first fabric area not covering the heart region when the garment is worn by the user.

The second fabric area and the first fabric area are spliced to form the second fabric area, the second fabric area is located below the first fabric area, when a user wears clothes, the second fabric area covers the heart, and the second fabric area spans 10-25 cm or 15-20 cm in the direction from the top to the bottom of the clothes.

The third fabric area is spliced with the second fabric area, the third fabric area is positioned below the second fabric area, when a user puts on the clothes, the third fabric area does not cover the heart but covers the part below the heart, and the third fabric area spans at least 20cm, or at least 25cm, or at least 30cm, or at least 35cm, or at least 40cm in the direction from the top to the bottom of the clothes.

Further, the third fabric area may be divided into a plurality of (e.g., 2, 3, 4, 5, 6, etc.) gradient compression areas from top to bottom, and the lower compression area applies a greater pressure to the human body than the upper compression area in the top to bottom direction.

The garment can be long-sleeved or short-sleeved.

Optionally, when the garment is a short sleeve garment, the fabric of the sleeves may be the fabric of the first fabric region.

Optionally, when the garment is a long-sleeve garment, the fabric of the part of the sleeve contacting with the body of the garment may be the fabric of the first fabric area, and the part of the sleeve extending (for example, the part extending from 5-20 cm away from the armpit toward the far end (toward the cuff direction)) may be the fabric with a plurality of different compression gradients, that is: the pressure applied to the human body (arm) by the extended part of the sleeve (for example, the part which extends to the far end from the armpit by 5-20 cm) is greater than the pressure applied to the human body by the compressed area at the joint of the sleeve and the armpit.

Further, the yarns used in the fabric area of the compression tight fitting garment comprise spandex, polyester, and nylon.

Optionally, the yarns used in the first panel region of the compression tight garment comprise ≦ 30 wt% spandex, 30-50 wt% dacron, 20-70 wt% nylon.

Optionally, the yarns used in the second panel area of the compression tight garment comprise ≥ 30% by weight spandex, 20% -70% by weight dacron, 0% -30% by weight nylon.

Optionally, the yarns used in the third panel area of the compression tight garment comprise ≦ 30 wt% spandex, 30-50 wt% dacron, 20-70 wt% chinlon.

Further, the yarns used in the fabric region of the compression tight fitting garment further comprise at least one of polyvinyl alcohol fibers, polyvinyl chloride fibers, polypropylene fibers, polyacrylonitrile fibers, viscose fibers, carbon fibers, wool, silk, cotton, and flax.

In certain embodiments, the compression fit garment is a pant comprising a pant body comprising a fourth region of material, a fifth region of material, and a sixth region of material, wherein the fourth region of material is joined to the fifth region of material, wherein the fifth region of material is joined to the sixth region of material, wherein the fourth region of material exerts less pressure on the human body than the fifth region of material exerts on the human body, and wherein the fifth region of material exerts less pressure on the human body than the sixth region of material exerts on the human body;

the preparation method comprises the following steps: knitting a fourth fabric area, knitting a fifth fabric area, knitting a sixth fabric area, sewing the fifth fabric area and the fourth fabric area through a splicing seam, and sewing the sixth fabric area and the fifth fabric area through a splicing seam.

As an example, the compression tights are positioned 15-30 cm, or 20-25 cm, down from the upper end (waist) of the trousers in a top-down direction (or a direction conventionally understood by those skilled in the art, i.e., with the waist as the upper part), and the fourth fabric region is mainly to cover the hip part and the fourth fabric region is not to cover the knee part when the trousers are worn by the user.

The fifth fabric area and the fourth fabric area are spliced, the fifth fabric area is located below the fourth fabric area, when a user wears trousers, the knee part is not covered by the fifth fabric area, and the span of the fifth fabric area is 15-30 cm or 20-25 cm in the direction from top to bottom of the trousers.

The sixth fabric area is spliced with the fifth fabric area, is positioned below the fifth fabric area, covers knees and lower legs when a user puts on trousers, and spans at least 20cm, or at least 25cm, or at least 30cm, or at least 35cm, or at least 40cm, or at least 45cm, or at least 50cm in the direction from top to bottom of the trousers.

Further, the spandex content in the fourth fabric region is 15% to 20% by weight, specifically, for example, 15%, 16%, 17%, 18%, 19%, 20%.

Further, the weight percentage of spandex in the fifth fabric region is 10% to 15%, specifically, for example, 10%, 11%, 12%, 13%, 14%, 15%.

Further, the weight percentage of spandex in the sixth fabric region is 5% to 10%, specifically, for example, 5%, 6%, 7%, 8%, 9%, 10%.

Optionally, the pant body of the compression tights may further comprise a seventh fabric area exerting less pressure on the human body than the seventh fabric area, a seventh fabric area exerting less pressure on the human body than the eighth fabric area, a ninth fabric area exerting less pressure on the human body than the ninth fabric area, and so on. The seventh fabric area is spliced with the sixth fabric area, the seventh fabric area is positioned below the sixth fabric area, and when a user puts on the trousers, the seventh fabric area spans at least 5cm, or at least 10cm, or at least 15cm, or at least 20cm, or at least 25cm along the direction from top to bottom of the trousers. The eighth fabric area is spliced with the seventh fabric area, the eighth fabric area is positioned below the seventh fabric area, and when a user puts on the trousers, the span of the eighth fabric area along the direction from top to bottom of the trousers is at least 5cm, or at least 10cm, or at least 15cm, or at least 20cm, or at least 25cm, for example. The ninth fabric area is spliced with the eighth fabric area, the ninth fabric area is positioned below the eighth fabric area, and when a user puts on the trousers, the ninth fabric area spans at least 5cm, or at least 10cm, or at least 15cm, or at least 20cm, or at least 25cm along the direction from top to bottom of the trousers. By analogy, the compression tights of the present invention may also comprise a tenth area of fabric, an eleventh area of fabric, a twelfth area of fabric, a thirteenth area of fabric, and so on.

According to the invention, by arranging a plurality of different fabric areas which apply different pressures to a human body, gradient compression can be realized, namely: the further away from the heart, the greater the pressure; the closer to the heart the less pressure.

Furthermore, the fabric in the fourth fabric region has a weft-wise elongation and a warp-wise elongation of 70% to 110%, for example, 71% to 110%, 72% to 110%, 73% to 110%, 74% to 110%, 75% to 110%, 76% to 109%, 77% to 108%, 78% to 107%, 79% to 106%, and 80% to 105%.

Further, the fabric in the fifth fabric region has a weft direction elongation and a warp direction elongation of 65% to 110%, such as 66% to 110%, 67% to 110%, 68% to 110%, 69% to 110%, 70% to 110%, 71% to 109%, 72% to 108%, 73% to 107%, 74% to 106%, and 75% to 105%.

Further, the fabric in the sixth fabric region has a weft-wise elongation and a warp-wise elongation of 55% to 110%, for example, 56% to 110%, 57% to 110%, 58% to 110%, 59% to 110%, 60% to 110%, 61% to 109%, 62% to 108%, 63% to 107%, 64% to 106%, and 65% to 105%.

Further, the yarns used in the fabric area of the compression tights include spandex, polyester, and nylon.

Optionally, the yarns used in the fourth panel region of the compression tight garment comprise 15-20% by weight spandex, 30-60% by weight polyester, 20-55% by weight nylon.

Optionally, the yarn used in the fifth fabric region of the compression tight garment comprises 10-15% by weight spandex, 30-65% by weight terylene, 20-60% by weight chinlon.

Optionally, the yarns used in the sixth panel of the compression tight garment comprise 5-10% by weight of spandex, 30-70% by weight of polyester, 20-65% by weight of nylon.

Further, the yarns used in the fabric regions of the compression tights may also comprise at least one of polyvinyl alcohol fibers, polyvinyl chloride fibers, polypropylene fibers, polyacrylonitrile fibers, viscose fibers, carbon fibers, wool, silk, cotton, flax, in an amount of 0% to 10% by weight, for example 0%, 1%, 2%, 3%, 4%, 5%, 6%, 7%, 8%, 9%, 10%.

A compression fit garment composition comprising the garment and the pant, wherein the fourth fabric region exerts a greater pressure on the body than the third fabric region.

Alternatively, the compression tight garment composition is a one-piece garment with integrated garment and pants in the shape of a one-piece garment as is common in the art. But has the first fabric region, the second fabric region, the third fabric region, the fourth fabric region, the fifth fabric region and the sixth fabric region described in the present invention, and meets the above-defined conditions.

When the user wears the compression fit garment composition (including the garment and the trousers), the compression fit garment and the compression fit trousers form a gradient ensemble that allows for a gradient compression of the entire body of the human being, namely: the further away from the heart, the greater the pressure; the closer to the heart the less pressure. Therefore, the effects of accelerating the blood circulation of a user, preventing muscle shaking, enabling the exercise time to be more durable and the exercise efficiency to be higher can be realized, the delayed muscular soreness can be reduced, and the possibility of injury caused by exercise can be reduced.

The clothes and trousers of the invention adopt the splicing seams to sew up all areas, and the specific shape or style can be realized by the conventional technical means in the field.

As an example, a method of making a compression tight garment, comprising: knitting the first fabric region, knitting the second fabric region, knitting the third fabric region, sewing up the second fabric region and the first fabric region through a splicing seam, and sewing up the second fabric region and the third fabric region through a splicing seam.

Further, the first, second, and third facing regions are knitted using a warp knitting process.

As an example, a method of manufacturing compression tights, comprising: knitting a fourth fabric area, knitting a fifth fabric area, knitting a sixth fabric area, sewing the fifth fabric area and the fourth fabric area through a splicing seam, and sewing the sixth fabric area and the fifth fabric area through a splicing seam.

Further, the fourth, fifth, and sixth fabric regions are knitted using a warp knitting process.

Alternatively, for example, the face fabric of each region may be prepared by: dyeing (optional) → finishing → warping → slashing → autogenous joining → weaving → blank inspection → finished blank. The density of the warp threads is 30-150 threads/inch, and the density of the weft threads is 40-100 threads/inch.

Warping: converting the raw yarn (cheese) into warp yarn through a creel, and dividing the raw yarn into warping, dyeing yarn finishing and partial warping;

sizing: the warp yarn after the size warping or the dyed warp beam yarn is hung on a creel of a sizing machine, and passes through the size in a size box → a cylinder for drying → a yarn splitting frame for layering → integration into weaving warp yarn; the main functions are as follows: the cilia of the raw yarn are compressed by the slurry, so that the cilia are not attached to a loom and cotton balls are not generated due to friction.

Self-connection: and finishing the sized warp directly through a knotter.

Weaving: the weaving operation is completed by the threaded axial yarn on the loom in cooperation with the input of weft yarn and the operation of the loom.

And (3) blank inspection: the woven cloth is subjected to blank detection by blank detection personnel to complete detection actions according to CNS detection standards so as to detect the quality condition after weaving is completed.

Woven fabric: the fabric is formed by interweaving two or more groups of mutually vertical yarns at an angle of 90 degrees in a warp-weft mode, wherein the longitudinal yarns are called warp yarns, and the transverse yarns are called weft yarns.

Optionally, the spinning mode is siro spinning.

Means for carrying out the above single step are within the skill of one of ordinary skill in the art.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

As used herein, "and/or" includes any and all combinations of one or more of the associated listed items. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It will be further understood that the terms "comprises" and/or "comprising," when used in this specification, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

Unless defined otherwise, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The exemplary invention described herein may suitably lack any one or more of the element limitations, which are not specifically disclosed herein. Thus, the terms "comprising," "including," "containing," and the like are to be construed broadly and in a non-limiting sense. Furthermore, the terms used herein are used as terms of description and not of limitation, and there is no intention in the use of such terms to describe only some of their characteristics but, in the light of the claims, various modifications are possible within the scope of the invention. Thus, while the present invention has been particularly disclosed in terms of preferred embodiments and optional features, modification of the invention herein disclosed to embody it may be noted by those skilled in the art, and such modifications and variations are considered to be within the scope of the invention.

Compared with the prior art, the invention has the beneficial effects that:

(1) the compressed clothes prepared by the preparation method disclosed by the invention have good sweat conductivity and air permeability, sweat can be rapidly discharged in summer, discomfort caused by gathering of sweat on the body surface is avoided, the clothes can be air-dried on the surface of the clothes after the sweat is discharged in winter, and the clothes simultaneously play a role of an isolation layer, so that the sweat is prevented from being brought away from the body surface temperature when being air-dried by cold air;

(2) the compression garment prepared by the preparation method of the invention is provided with a plurality of different fabric areas, and the different fabric areas apply different pressures to human bodies, so that gradient compression can be realized, namely: the further away from the heart, the greater the pressure; the pressure of the part closer to the heart is smaller, thereby realizing the effects of accelerating blood circulation, quickly recovering body functions, ensuring longer exercise time and higher exercise efficiency, reducing delayed muscular soreness and reducing the possibility of injury caused by exercise.

Drawings

Figure 1 is a schematic view of a compression tight garment according to example 1 of the present invention;

figure 2 is a schematic view of compression tights according to example 2 of the present invention.

Detailed Description

For better explanation of the present invention, the following specific examples are further illustrated, but the present invention is not limited to the specific examples.

Example 1

A compression tight garment comprising a garment body, figure 1 being a schematic representation of the compression tight garment (the different zones are shown separated by dashed lines in the figure), the garment body comprising a first fabric zone 1, a second fabric zone 2, a third fabric zone 3, wherein the first fabric zone 1 is spliced with the second fabric zone 2, the third fabric zone 3 is spliced with the second fabric zone 2, the second fabric zone 2 applying less pressure to the body than the first fabric zone 1 and the third fabric zone 3.

The first fabric region 1 is located 20cm down from the upper end (neckline) of the garment, and when the garment is worn by a user, the first fabric region 1 does not cover the heart of the user.

The second fabric area 2 is spliced with the first fabric area 1, the second fabric area 2 is positioned below the first fabric area 1, when a user puts on clothes, the second fabric area 2 covers the heart of the user, and the second fabric area 2 spans 20cm in the direction from the upper part of the clothes to the lower part of the clothes.

The third fabric area 3 is spliced with the second fabric area 2, the third fabric area 3 is positioned below the second fabric area 2, when a user puts on clothes, the third fabric area 3 does not cover the heart of the user but covers the part below the heart of the user, and the third fabric area 3 extends to the bottom end of the clothes from the upper part to the lower part of the clothes.

The weight percentage of spandex in the first fabric area 1 is 25%, and the weight percentage of terylene is 75%. The weight percentage of spandex in the second fabric area 2 is 32%, and the weight percentage of terylene is 68%. The spandex content in the third fabric area 3 is 22% by weight, and the terylene content in the third fabric area is 78% by weight.

Example 2

The compression tight trousers comprise a trousers body, wherein a schematic view of the compression tight trousers is shown in figure 2, the trousers body comprises a fourth fabric area 4, a fifth fabric area 5 and a sixth fabric area 6, the fourth fabric area 4 and the fifth fabric area 5 are spliced, the fifth fabric area 5 and the sixth fabric area 6 are spliced, the pressure exerted on a human body by the fourth fabric area 4 is smaller than the pressure exerted on the human body by the fifth fabric area 5, and the pressure exerted on the human body by the fifth fabric area 5 is smaller than the pressure exerted on the human body by the sixth fabric area 6.

The compression tights are positioned 30cm down from the upper end (waist) of the trousers in the top-down direction (or the direction conventionally understood by those skilled in the art, i.e. with the waist as the upper part), the fourth fabric region 4 is mainly intended to cover the hip part and the fourth fabric region 4 is not intended to cover the knee part when the trousers are worn by the user.

The fifth fabric area 5 and the fourth fabric area 4 are spliced, the fifth fabric area 5 is located below the fourth fabric area 4, when a user wears trousers, the knee parts are not covered by the fifth fabric area 5, and the span of the fifth fabric area 5 is 20cm in the direction that the trousers are from top to bottom.

The sixth fabric area 6 is spliced with the fifth fabric area 5, the sixth fabric area 6 is located below the fifth fabric area 5, when a user puts on trousers, the sixth fabric area 6 covers knees and calves, and the sixth fabric area 6 extends to the bottoms of the trousers according to the direction span of the trousers from top to bottom.

The weight percentage of spandex in the fourth fabric area 4 is 18%, and the weight percentage of terylene is 82%. The weight percentage of spandex in the fifth fabric area 5 is 13%, and the weight percentage of terylene is 87%. The weight percentage of spandex in the sixth fabric area 6 is 8%, and the weight percentage of terylene is 92%.

Example 3

A compression tight garment composition comprising the garment of example 1 and the pant of example 2, and wherein the fourth fabric region 4 exerts a greater pressure on the human body than the third fabric region 3. Compression bodysuit and compression bodysuit form a gradient wholly, can realize the gradient compression to the human whole body, promptly: the further away from the heart, the greater the pressure; the closer to the heart the less pressure. Therefore, the effects of accelerating the blood circulation of a user, preventing muscle shaking, enabling the exercise time to be more durable and the exercise efficiency to be higher can be realized, the delayed muscular soreness can be reduced, and the possibility of injury caused by exercise can be reduced.

Example 4

The utility model provides a compression close-fitting clothes, includes the clothes body, the clothes body includes first surface fabric region, second surface fabric region, third surface fabric region, wherein first surface fabric region forms with the regional concatenation of second surface fabric, the regional concatenation of third surface fabric forms with the regional concatenation of second surface fabric, the pressure that second surface fabric region applyed is less than the pressure that first surface fabric region and/or third surface fabric region applyed to the human body.

The first fabric area is located 15cm down from the upper end (neckline) of the garment, and does not cover the heart of the user when the user puts on the garment.

The second fabric area is spliced with the first fabric area, the second fabric area is positioned below the first fabric area, when a user puts on the garment, the second fabric area covers the heart of the user, and the second fabric area spans 25cm in the direction from the top to the bottom of the garment.

The third fabric area and the second fabric area are spliced, the third fabric area is located below the second fabric area, when a user wears clothes, the third fabric area does not cover the heart of the user, but covers the part below the heart of the user, and the third fabric area extends to the bottom end of the clothes from the top to the bottom of the clothes.

The weight percentage of spandex in the first fabric area is 23%, the weight percentage of terylene is 45%, and the weight percentage of chinlon is 32%. The weight percentage content of spandex in the second fabric area is 36%, the weight percentage content of terylene is 34%, and the weight percentage content of chinlon is 30%. The weight percentage content of spandex in the third fabric area is 19%, the weight percentage content of terylene is 50%, and the weight percentage content of chinlon is 31%.

Example 5

The compression tight-fitting trousers comprise a trousers body, wherein the trousers body comprises a fourth fabric area, a fifth fabric area and a sixth fabric area, the fourth fabric area and the fifth fabric area are spliced to form the trousers, the fifth fabric area and the sixth fabric area are spliced to form the trousers, the pressure applied to a human body by the fourth fabric area is smaller than the pressure applied to the human body by the fifth fabric area, and the pressure applied to the human body by the fifth fabric area is smaller than the pressure applied to the human body by the sixth fabric area.

The compression tights are positioned 25cm down from the upper end of the trousers (waist circumference) in the top-down direction (or the direction conventionally understood by those skilled in the art, i.e. with the waist circumference being the upper part), and when the trousers are worn by the user, the fourth fabric region is mainly intended to cover the hip part and the fourth fabric region is not intended to cover the knee part.

The fifth fabric area and the fourth fabric area are spliced, the fifth fabric area is located below the fourth fabric area, when a user wears trousers, the knee part is not covered by the fifth fabric area, and the span of the fifth fabric area is 30cm in the direction from top to bottom of the trousers.

The sixth fabric area and the fifth fabric area are spliced, the sixth fabric area is located below the fifth fabric area, when a user wears trousers, the sixth fabric area covers knees and lower legs, and the sixth fabric area extends to the bottoms of the trousers according to the direction span of the trousers from top to bottom.

The fourth fabric area contains 15% by weight of spandex, 30% by weight of terylene and 55% by weight of chinlon. The weight percentage content of spandex in the fifth fabric area is 10%, the weight percentage content of terylene is 40%, and the weight percentage content of chinlon is 50%. The weight percentage content of spandex in the sixth material area is 5%, the weight percentage content of terylene is 70%, and the weight percentage content of chinlon is 25%.

The above description is only exemplary of the present invention and is not intended to limit the scope of the present invention, which is defined by the claims appended hereto, as well as the appended claims.

Claims (10)

1. A method of making a compression fit garment, wherein the garment is a garment comprising a first fabric region, a second fabric region, and a third fabric region, wherein the first fabric region is joined to the second fabric region, the third fabric region is joined to the second fabric region, and the second fabric region applies less pressure to the body than the first fabric region and the third fabric region;

the preparation method comprises the following steps: knitting the first fabric region, knitting the second fabric region, knitting the third fabric region, sewing up the second fabric region and the first fabric region through a splicing seam, and sewing up the second fabric region and the third fabric region through a splicing seam.

2. The method of making a compression tight garment of claim 1, wherein the weight percentage of spandex in the first fabric region is no more than 30%, the weight percentage of spandex in the second fabric region is 30% or more, and the weight percentage of spandex in the third fabric region is 20% to 30%.

3. The method of making a compression tight garment of claim 1 wherein the fabric of the first fabric region has a weft direction, warp direction elongation of 75% to 130%, the fabric of the second fabric region has a weft direction, warp direction elongation of 100% to 130%, and the fabric of the third fabric region has a weft direction, warp direction elongation of 75% to 130%.

4. The method of manufacturing a compression tight garment according to claim 1, wherein the yarns used in the fabric regions comprise spandex, dacron, chinlon.

5. The method of making a compression tight garment of claim 4 wherein the yarns used in the fabric regions further comprise at least one of polyvinyl alcohol fibers, polyvinyl chloride fibers, polypropylene fibers, polyacrylonitrile fibers, viscose fibers, carbon fibers, wool, silk, cotton, flax.

6. A method of making a compression fit garment, wherein the garment is a pair of pants, the pants comprising a fourth panel, a fifth panel, and a sixth panel, wherein the fourth panel is joined to the fifth panel, the fifth panel is joined to the sixth panel, the fourth panel applies less pressure to the body than the fifth panel, and the fifth panel applies less pressure to the body than the sixth panel;

the preparation method comprises the following steps: knitting a fourth fabric area, knitting a fifth fabric area, knitting a sixth fabric area, sewing the fifth fabric area and the fourth fabric area through a splicing seam, and sewing the sixth fabric area and the fifth fabric area through a splicing seam.

7. The method of making a compression tight garment of claim 6, wherein the weight percentage of spandex in the fourth fabric region is between 15% and 20%, the weight percentage of spandex in the fifth fabric region is between 10% and 15%, and the weight percentage of spandex in the sixth fabric region is between 5% and 10%.

8. The method of manufacturing a compression tight garment of claim 6 wherein the fabric of the fourth fabric region has a weft direction, warp direction elongation of 70% to 110%, the fabric of the fifth fabric region has a weft direction, warp direction elongation of 65% to 110%, and the fabric of the sixth fabric region has a weft direction, warp direction elongation of 55% to 110%.

9. The method of manufacturing a compression tight garment according to claim 6 wherein the yarns used in the fabric regions comprise spandex, dacron, chinlon.

10. A method of making a compression tight garment composition comprising the garment of any of claims 1-5 and the pant of any of claims 6-9, wherein the fourth fabric region exerts a greater pressure on the human body than the third fabric region.

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