CN110537746B

CN110537746B - Pressure clothing

Info

Publication number: CN110537746B
Application number: CN201910837937.7A
Authority: CN
Inventors: 王健; 鲁建国; 崔晋陵; 曾祥利
Original assignee: Zhende Medical Co Ltd
Current assignee: Zhende Medical Co Ltd
Priority date: 2019-09-05
Filing date: 2019-09-05
Publication date: 2024-07-26
Anticipated expiration: 2039-09-05
Also published as: CN110537746A

Abstract

The present invention provides a compression garment comprising: the pressure clothing comprises a pressure clothing body and a pressure layer formed on the outer surface of a pressure area of the pressure clothing body, wherein the pressure layer is formed on the outer surface of the pressure area of the pressure clothing body through 3D printing, the elastic modulus of the pressure layer is larger than that of a material of the pressure clothing body, the pressure layer is a plurality of layers of annular pressure rings, and the number, the width and the spacing of the annular pressure rings are adjusted to enable the pressure area of the pressure clothing to provide different wrapping forces. On the one hand, because the pressure layer is formed on the outer surface of the pressure clothing body through 3D printing, the seam multi-layer fabric is not required to be adopted, the pressure clothing is not enabled to be thick and hard, the seamless 3D printing technology is adopted, the pressure clothing is enabled to be seamless, meanwhile, the pressure clothing is enabled to generate larger wrapping force through the multi-layer annular pressure ring, local muscle support is achieved, smaller wrapping force can be obtained at other positions, and the overall comfort level is improved.

Description

Pressure clothing

Technical Field

The invention relates to sports health-care clothing, in particular to pressure clothing.

Background

In daily life and daily body-building exercises, the primer-pad, the pair of primer-pad and the pair of sport briefs are frequently selected by people, and in general, the common briefs only adopt single-layer elastic cloth for ventilation, so that the support force of the briefs on a human body is obviously insufficient; in order to improve the supporting strength, the other type of sports briefs is made of sewn multilayer fabric, but too many layers of fabric can cause the sports briefs to be thicker and hard and not breathable enough, and meanwhile, too many seams are sewn to cause the sports briefs not to be seamless enough, so that the wearing attractiveness is affected.

Meanwhile, physical fitness is consumed during exercise, muscles are tightened, lactic acid is generated to accumulate ache, and the effect of improving the compression of the muscles can be achieved, but the tights in the prior art are integrally compressed, so that the phenomena of dyspnea, blood non-circulation and the like are easily caused, and the improvement is needed.

Disclosure of Invention

The invention provides a pressure garment, which solves the problems in the prior art.

To solve the above problems, an embodiment of the present invention provides a pressure garment, including: the pressure clothing comprises a pressure clothing body and a pressure layer formed on the outer surface of a pressure area of the pressure clothing body, wherein the pressure layer is formed on the outer surface of the pressure area of the pressure clothing body through 3D printing, the elastic modulus of the pressure layer is larger than that of a material of the pressure clothing body, the pressure layer is a plurality of layers of annular pressure rings, and the number, the width and the spacing of the annular pressure rings are adjusted to enable the pressure area of the pressure clothing to provide different wrapping forces.

Optionally, the pressure layer is formed on the outer surface of the pressure area of the pressure clothing body through 3D printing specifically includes: and implanting the elastic fiber into a glue layer, forming a pressure layer pattern by a selective laser sintering 3D printing mode or a photo-curing 3D printing mode, and hot-pressing the pressure layer pattern onto the pressure clothing body.

Alternatively, the material of the pressure layer comprises a polymer comprising at least one block polymer and optionally at least one other polymer comprising an elastomer or sulfonated ethylene/vinyl aromatic interpolymer, an elastomeric ethylene/C3-C20 alpha-olefin interpolymer, a C3-C20 alpha-olefin/conjugated diene interpolymer, an elastomeric polypropylene polymer, a reinforced polypropylene polymer, an elastomeric thermoplastic polyurethane, an elastomeric copolyester, a partially hydrogenated block polymer, an elastomeric polyamide, a hydroxy-functionalized polyether (or polyetheramine), a styrene/conjugated diene interpolymer, and an elastomeric metallocene-catalyzed synthetic polymer or blend or formulation system thereof.

Optionally, the block polymer is prepared from the following components in parts by weight: 40% -50% of conventional SEBS; linear (SEB) n6% -16%; 40% of white oil; 3% of a fluidity modifier; 0.5% of slipping agent; 0.5% of antioxidant.

Optionally, the pressure area is one or more of a calf muscle area, a thigh muscle area and an arm muscle area.

Optionally, when the multi-layer annular pressure ring is located in the calf muscle area or the thigh muscle area, the number, the width and the spacing of the annular pressure rings are adjusted to enable the pressure value of the wrapping force of the calf muscle area to be 50% -80% of the maximum pressure value, and enable the pressure value of the wrapping force of the thigh muscle area to be 20% -60% of the maximum pressure value.

Optionally, the width of the annular pressure ring is 1 mm-20 mm, and the distance between adjacent annular pressure rings is 2 mm-20 mm.

Optionally, the pressure clothing body is made of elastic material.

Optionally, the pressure garment is a pressure pant, a pressure garment, a pressure panty hose or a pressure hose.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the pressure layer is formed on the outer surface of the pressure area of the pressure clothing body through 3D printing, and is a multi-layer annular pressure ring, on one hand, as the pressure layer is formed on the outer surface of the pressure clothing body through 3D printing, sewing multi-layer fabric is not needed, the pressure clothing is not thick and hard, seamless 3D printing technology is adopted, the pressure clothing is seamless, meanwhile, the multi-layer annular pressure ring enables the pressure clothing to generate larger wrapping force, local muscle support is realized, smaller wrapping force can be obtained at other positions, and the whole comfort level is improved.

Drawings

FIG. 1 is a schematic diagram of a pair of pressure pants according to an embodiment of the invention;

fig. 2 to 4 are schematic structural views of different multi-layer annular pressure rings corresponding to the pressure areas.

Detailed Description

The foregoing and other features and advantages of the invention will be apparent from the following, more particular, description of the invention, as illustrated in the accompanying drawings, in which embodiments described are merely some, but not all embodiments of the invention.

The present invention provides a compression garment comprising: the pressure clothing comprises a pressure clothing body and a pressure layer formed on the outer surface of a pressure area of the pressure clothing body, wherein the pressure layer is formed on the outer surface of the pressure area of the pressure clothing body through 3D printing, the elastic modulus of the pressure layer is larger than that of a material of the pressure clothing body, the pressure layer is a plurality of layers of annular pressure rings, and the number, the width and the spacing of the annular pressure rings are adjusted to enable the pressure area of the pressure clothing to provide different wrapping forces.

In one embodiment, the pressure garment is a pair of pressure pants, and the pair of pressure pants may be sports pants or health-care pants for relieving varicose veins and the like. In other embodiments, the compression garment is a compression garment, compression pantyhose, or compression sock as well.

Referring to fig. 1, the pressure pants include: the pressure trousers body 10 and the pressure layer 20 formed on the outer surface of the pressure zone of the pressure trousers body, wherein the pressure layer 20 is formed on the outer surface of the pressure zone of the pressure trousers body through 3D printing, and the elastic modulus of the pressure layer is larger than that of the material of the pressure trousers body.

The material of the pressure trousers body can be one or more of natural fiber, synthetic fiber and regenerated fiber woven elastic fabrics. The natural fibers can be cotton, silk, hemp and the like, the synthetic fibers are terylene, chinlon, spandex and the like, and the regenerated fibers are viscose fibers, acetate fibers and the like.

The pressure trousers body can be a conventional tights or a conventional sport pressure trousers. In this embodiment, the material of the pressure pants body is a knitted fabric, which includes 70% nylon and 30% spandex.

The elastic modulus of the pressure layer is larger than that of the material of the pressure trousers body, so that the elastic modulus of the pressure layer wraps and presses the pressure trousers body. In one test comparative example, when the test panel was 7 x 10cm in size, the first test panel, which was only the compression pant body material, had an elongation of 240% under a tensile force of 40 newtons, with 2.7N required for 40% elastic deformation, while the second test panel, with the surface formed with the compression layer material by 3D printing, had an elongation of 160% under a tensile force of 40 newtons, with 13N required for 40% elastic deformation.

In this embodiment, the material of the pressure layer comprises a polymer comprising at least one block polymer and optionally at least one other polymer comprising an elastomer or sulfonated ethylene/vinyl aromatic interpolymer, an elastomeric ethylene/C3-C20 alpha-olefin interpolymer, a C3-C20 alpha-olefin/conjugated diene interpolymer, an elastomeric polypropylene polymer, a reinforced polypropylene polymer, an elastomeric thermoplastic polyurethane, an elastomeric copolyester, a partially hydrogenated block polymer, an elastomeric polyamide, and an elastomeric metallocene-catalyzed synthetic polymer or blends or formulation systems thereof. In one embodiment, the block polymer is prepared from the following components in parts by weight: 50% -60% of conventional SEBS; linear (SEB) n6% -16%; 30% of white oil; 3% of a fluidity modifier; 0.5% of slipping agent; 0.5% of antioxidant. According to the embodiment of the invention, the elastic modulus of the finally formed material of the pressure layer is larger by selecting the proper block polymer, so that the elastic modulus of the pressure layer can wrap and press the pressure trousers body, and meanwhile, the tensile recovery rate of the pressure layer is larger, and the pressure trousers body can be continuously extruded by the pressure layer. In addition, the pressure layer is extruded on the pressure trousers body through the annular pressure rings, and a plurality of annular pressure rings are very thin, so that the material of the pressure layer in the embodiment has small net work consumption in each stretching cycle, is little in material damage and good in fatigue resistance, and is not easy to break.

In other embodiments, the material of the pressure layer may also be other elastic materials, such as thermoplastic elastomers, specifically including one or more of ethylene-vinyl acetate copolymer, styrene block copolymer, metallocene-catalyzed polyolefin, polyether amide, and the like.

The outer surface of the pressure area formed on the pressure clothing body through 3D printing specifically comprises: and implanting the elastic fiber into a glue layer, forming a pressure layer pattern by a selective laser sintering 3D printing mode or a photo-curing 3D printing mode, and hot-pressing the pressure layer pattern onto the pressure clothing body. On the one hand, because the pressure layer patterns are formed through the 3D printing technology, the pressure clothes are formed without adopting a sewing multi-layer fabric mode, the pressure trousers are not thick and hard, and the seamless 3D printing technology is adopted, so that the pressure trousers are seamless, attractive and comfortable. On the other hand, the pressure layer pattern is formed by adopting a selective laser sintering 3D printing mode or a photo-curing 3D printing mode, so that a thinner pattern can be formed, and the annular pressure ring can be formed conveniently.

In this embodiment, the pattern of the annular pressure ring is printed by adopting a selective laser sintering 3D printing mode, and the formed temperature is higher, so that the elastic modulus of the finally generated annular pressure ring is greater than that of the material of the pressure trousers body, and meanwhile, the tensile recovery rate is also greater, the net work consumption per tensile cycle is smaller, the material is less damaged, the fatigue resistance is good, and the annular pressure ring is not easy to break.

In this embodiment, the pressure area may be a calf muscle area, a thigh muscle area. In other embodiments, when the compression garment is a compression garment, the compression zone may also be an arm muscle zone. Due to the fact that

Please refer to fig. 2-4, which are schematic structural diagrams of different multi-layer annular pressure rings corresponding to the pressure areas.

In fig. 2, the annular pressure rings increase in width from bottom to top, and decrease to a minimum width after reaching a maximum width.

In fig. 3, the distances between the center lines of the annular pressure rings are the same, the widths of the pressure rings at the uppermost end and the lowermost end of the whole pressure zone are the smallest, and the widths gradually increase toward the inner side.

In fig. 4, the intervals between the annular pressure rings are the same, the widths of the pressure rings at the uppermost end and the lowermost end of the whole pressure zone are the smallest, and the widths gradually increase toward the inner side.

In the embodiment of the invention, the width of the annular pressure ring is 1 mm-20 mm, and the distance between the adjacent annular pressure rings is 2 mm-20 mm. The number, the width and the spacing of the annular pressure rings are reasonably adjusted, so that the pressure values of the wrapping forces of different pressure areas are different, muscles at different positions can be selectively compressed, the supporting performance is improved, and the wrapping force of the muscles of each part is in a proper range.

In this embodiment, the number, the width and the interval of the annular pressure rings are adjusted so that the pressure value of the wrapping force of the calf muscle area is 50% -80% of the maximum pressure value, and the pressure value of the wrapping force of the thigh muscle area is 20% -60% of the maximum pressure value.

The foregoing embodiments have been provided for the purpose of illustrating the general principles of the present invention, and are not to be construed as limiting the scope of the invention. It should be noted that any modifications, equivalent substitutions, improvements, etc. made by those skilled in the art without departing from the spirit and principles of the present invention are intended to be included in the scope of the present invention.

Claims

1. A compression garment, comprising:

The pressure garment comprises a pressure garment body and a pressure layer formed on the outer surface of a pressure zone of the pressure garment body, wherein the pressure layer is formed on the outer surface of the pressure zone of the pressure garment body through 3D printing, the elastic modulus of the pressure layer is larger than that of a material of the pressure garment body, the pressure layer is a plurality of layers of annular pressure rings, and the number, the width and the interval of the annular pressure rings are adjusted to enable the pressure zone of the pressure garment to provide different wrapping forces;

The pressure layer is formed on the outer surface of the pressure area of the pressure clothing body through 3D printing specifically comprises: implanting elastic fibers into a glue layer, forming a pressure layer pattern by a selective laser sintering 3D printing mode or a photocuring 3D printing mode, and hot-pressing the pressure layer pattern onto a pressure garment body;

The material of the pressure layer comprises a polymer comprising at least one block polymer and optionally at least one other polymer comprising an elastomer or sulfonated ethylene/vinyl aromatic interpolymer, an elastomer ethylene/C3-C20 alpha-olefin interpolymer, a C3-C20 alpha-olefin/conjugated diene interpolymer, an elastomeric polypropylene polymer, a reinforced polypropylene polymer, an elastomer thermoplastic polyurethane, an elastomeric copolyester, a partially hydrogenated block polymer, an elastomeric polyamide, a hydroxy-functionalized polyether (or polyetheramine), a styrene/conjugated diene interpolymer, and an elastomer metallocene-catalyzed synthetic polymer or blends or formulation systems thereof;

The block polymer is prepared from the following components in parts by weight: 40% -50% of conventional SEBS; linear (SEB) n6% -16%; 40% of white oil; 3% of a fluidity modifier; 0.5% of slipping agent; 0.5% of antioxidant;

The pressure area is one or more of a lower leg muscle area, a thigh muscle area and an arm muscle area; when the multilayer annular pressure rings are positioned in the calf muscle area and the thigh muscle area, the number, the width and the interval of the annular pressure rings are adjusted so that the pressure value of the wrapping force of the calf muscle area is 50-80% of the maximum pressure value, and the pressure value of the wrapping force of the thigh muscle area is 20-60% of the maximum pressure value;

The width of the annular pressure ring is 1 mm-20 mm, and the distance between adjacent annular pressure rings is 2 mm-20 mm.

2. The pressure garment of claim 1, wherein the pressure garment body is a pressure garment body made of an elastic material.

3. The compression garment of claim 1, wherein the compression garment is a compression pant, compression garment, compression panty hose or compression hose.