CN220936848U - Anti-skid stable triangular stress structure underwear - Google Patents

Abstract

The embodiment of the utility model discloses an anti-skid stable triangular stress structure underwear, which comprises: cup, steel ring, heart and back ratio; the cup is used for supporting the chest of a user; the chicken heart is connected with the cup and is positioned below the cup; the rear ratio is connected with the cup and the heart and is positioned outside the cup; the steel ring is positioned at the joint of the cup, the heart and the rear ratio. The anti-skid stable triangular stress structure underwear is worn; in side projection, the upper end point of the steel ring is connected with the upper end point of the rear ratio to form a first straight line L1; the lower endpoint of the heart is connected with the lower endpoint of the rear ratio to form a second straight line L2; a tangent line D1 is formed by the vertical tangent line of the cup bowl; the first straight line L1, the second straight line L2 and the tangent line D1 form an isosceles triangle. The embodiment of the utility model has a stable structure, and reasonably distributes the force required to be supported to the cup, the steel ring, the heart and the rear ratio, so that the underwear is comfortable to wear and is stable and not easy to fall off.

Description

Anti-skid stable triangular stress structure underwear

Technical Field

The utility model relates to the technical field of underwear, in particular to an anti-skid stable triangular stress structure underwear.

Background

The wearing stability of common underwear mostly depends on the lifting of the shoulder straps, and the interaction of the cup bowl, the lower part and the rear part plays a fixing function. After the strapless underwear loses the lifting of the shoulder straps, the stability is reduced by 70-80%, and the strapless underwear in the market generally can reach the stability of the underwear on the surface of a human body through methods of adding various silica gel strips, reducing the lower surrounding size and the like.

Some sensitive people are very uncomfortable to the silica gel strips. The reduction of the lower peripheral dimension can also have strong pressure beam feeling to people, and cause uncomfortable feeling on the body. Especially facing to women with large chest, the breast milk quantity is large, and the requirement on the bearing performance is high. The supports distributed at all parts reduce the chest pressure value, thereby meeting the requirement of the women with large chest on the wearing of the strapless underwear. While most of the large cup strapless underwear designs on the market generally have three types: firstly, the breast bulge height after wearing is reduced to achieve a stabilizing effect, but the contact surface between the breast and the human body is increased, so that the feeling of oppression is easy to generate; secondly, in order to enhance the stiffness of the cup bowl, a large-area hard plastic sheet is added in the mold cup, and the ventilation comfort of the underwear is sacrificed although the stiffness effect of the cup bowl is ensured. And thirdly, the lower peripheral size is reduced to fix, and the pressure beam feeling of the body is increased. In this regard, the utility model provides an anti-skid stable triangular stress structure underwear which has no adverse effects and can be stable and not easy to fall off.

Disclosure of utility model

The technical problem to be solved by the embodiment of the utility model is to provide the anti-skid firm triangular stress structure underwear aiming at various defects of the existing large cup strapless underwear.

In order to solve the above technical problems, an embodiment of the present utility model provides an anti-slip stable triangular stress structure underwear, including: cup, steel ring, heart and back ratio; the cup is used for supporting the chest of a user; the chicken heart is connected with the cup, is positioned below the cup and is used for fixing the cup; the rear ratio is connected with the cup and the heart and is positioned at the outer side of the cup and used for fixing the cup; the steel ring is positioned at the joint of the cup, the heart and the rear ratio and used for fixing the chest of the user;

When the anti-skid stable triangular stress structure underwear is worn, the upper end point of the steel ring is connected with the upper end point of the rear ratio in side projection to form a first straight line L1; the lower endpoint of the heart is connected with the lower endpoint of the rear ratio to form a second straight line L2; a tangent line D1 is formed by the vertical tangent line of the cup; the first straight line L1, the second straight line L2 and the tangent line D1 form an isosceles triangle.

Preferably, an interior angle formed by the first straight line L1 and the tangent line D1 is +.a, and an interior angle formed by the second straight line L2 and the tangent line D1 is +.b; and the = -a = -b.

Preferably, the cup is provided with a shaping piece and a reinforcing piece; the shaping piece is an elastic piece and is positioned in the cup side; the reinforcement is positioned at the bottom of the cup and is in a cloud-shaped structure.

Preferably, the thickness of the cup from the bottom to the edge of the cup is gradually decreased from 1mm/cm to 5 mm/cm.

Preferably, the anti-skid stable triangular stress structure underwear further comprises a back buckle; the back buckle is positioned on the outer side of the back ratio and used for buckling the back ratio.

Preferably, the rear ratio is provided with a husband towel; the said husband is located at the upper and lower edges of the said rear ratio; the towel is an elastic piece.

Preferably, the width of the husband towel is 0.5 cm-0.8 cm; the rear ratio adopts a longitudinal cloth grain structure; the thickness of the joint between the rear ratio and the towel is 1.3 mm-1.5 mm.

Preferably, the back ratio is a longitudinal cloth grain structure, and the thickness of the back ratio is 0.8 mm-1 mm.

Preferably, the chicken heart comprises a triangular area and a lower scraping area; the triangular area is positioned between the cups, and the width of the triangular area is 3 cm-8 cm; the triangular area adopts a longitudinal cloth grain structure.

Preferably, the lower scraping area is positioned below the cup, and the width of the lower scraping area is 1 cm-2 cm; the lower scraping area is provided with a lower scraping husband; the thickness of the joint part of the lower scraping area and the steel ring is 3 mm-5 mm; the lower crouch towel is an elastic piece.

The embodiment of the utility model has the following beneficial effects:

(1) According to the embodiment of the utility model, through the cup, the steel ring, the heart and the rear ratio, an isosceles triangle structure is formed when a user wears the bra. The supporting points of the cup, the steel ring, the chicken heart and the rear ratio can mutually provide help, and the force in each direction is borne by all materials together due to the connection mode. Not only is stable and not easy to fall off, but also is not uncomfortable to wear because a certain part of the cloth is stressed too much.

(2) According to the embodiment of the utility model, the structure of the cup is adjusted, so that the shaping piece and the reinforcing piece are added. When the steel ring and the cup clamp the chest of a user, the chest of the user can be seen to be more straight and round through the side folding of the molding piece and the thickening of the reinforcing piece.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic illustration of an anti-slip stable triangular stress structure undergarment according to a first embodiment of the present utility model;

FIG. 2 is a schematic view of the structure of a cup in an anti-slip firm triangular stress structure undergarment provided by a first embodiment of the present utility model;

FIG. 3 is a schematic view of an anti-slip stable triangular stress structure undergarment according to a second embodiment of the present utility model;

Fig. 4 is a schematic structural view of an anti-slip stable triangular stress structure underwear according to a third embodiment of the present utility model.

100-Cup, 110-reinforcement, 120-molding, 200-steel ring, 300-rear ratio, 310-husband towel, 400-heart, 410-triangle, 420-lower rake area, 421-lower rake towel, and 500-back buckle.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

Referring to fig. 1, the present utility model provides an anti-slip stable triangular stress structure underwear. The firm triangle atress structure underwear of antiskid includes: cup 100, steel rim 200, rear ratio 300 and heart 400. The cup 100 is used to support the chest of a user. The heart 400 is connected to the cup 100, and is located below the cup 100, for fixing the cup 100. The back ratio 300 is connected with the cup 100 and the heart 400, is positioned outside the cup 100, and is used for fixing the cup 100. The steel ring 200 is positioned at the joint of the cup 100, the heart 400 and the rear ratio 3000 and is used for fixing the chest of the user.

The anti-skid stable triangular stress structure underwear is worn. In the side projection, the upper end point of the steel ring 200 is connected with the upper end point of the rear ratio 300 to form a first straight line L1; the lower end point of the heart 400 is connected with the lower end point of the rear ratio 300 to form a second straight line L2; the vertical tangent of the cup 100 forms a tangent D1. The first straight line L1, the second straight line L2 and the tangent line D1 form an isosceles triangle. The inner angle formed by the first straight line L1 and the tangent line D1 is +.a, and the inner angle formed by the second straight line L2 and the tangent line D1 is +.b. And the = -a = -b. At this time, the anti-slip stable triangular stress structure underwear forms a stable structure at the supporting points on the body of the user, and each supporting point is buckled to form a fixed shape. The supporting points can provide help mutually, so that the supporting force born by each supporting point can be born by all the supporting points together. Not only is stable and not easy to fall off when being worn on a user, but also the user is not uncomfortable to wear due to the fact that a certain part of the belt is stressed too much, and bad experiences such as choking feeling, pressing and binding feeling are avoided.

In each size, the ratio of the height of the cup 100, the circumference of the cup 100, that is, the height of the upper end point of the steel ring 200, the height of the lower end point of the heart 400, the width of the rear ratio, and the inclination of the rear ratio are all equal. The isosceles triangle structure can be kept for each size, and the anti-skid stable triangle stress structure underwear can be worn on breasts with various sizes.

Referring to fig. 2, the cup 100 is provided with a reinforcing member 110 and a shaping member 120. The molding member 120 is a soft plastic bone with high elasticity and ultra-thin high toughness. The shaping member 120 is located inside the cup 100 on the cup side. The shaping member 120 can increase the side thrust of the cup 100 when worn by virtue of the characteristics of high elasticity and high toughness, so as to promote the chest of the user to be more upright. And the thickness of the molding member 120 is much smaller than that of the cup 100, so that the cup 100 is not protruded on the cup side, thereby causing wearing discomfort.

In some embodiments, the shaping member 120 may be rubber or cloth with high elasticity and high toughness to increase the side thrust of the cup 100.

The reinforcement member 110 is located at the base of the cup 100. The reinforcement 110 is in a cloud-shaped structure, so that the thickness of the bottom of the cup 100 is higher than the thickness of the edge of the cup, and the thickness of the cup 100 from the bottom of the cup to the edge of the cup is gradually decreased by 1 mm/cm-5 mm/cm, wherein the thickness of the cup is gradually decreased by 1 mm-5 mm for every 1cm distance. By adopting the reinforcement member 110 to increase the thickness of the cup 100 and matching the steel ring 200 and the shaping member 120, the chest of the user can present a more stiff and round visual feeling when the underwear with the antiskid stable triangular stress structure is worn. And the main body of the cup 100 is made of high-tech anti-slip moisture absorption fabric, and the friction coefficient is 70% -80% higher than that of common anti-slip cloth. The cup 100 fits the chest highly after the wearer is put on, and has a large external friction coefficient. The cup 100 will not fall off as the user walks around with the chest. And if the user sweats, the cup 100 can absorb sweat rapidly, prevent sweat accumulation, and the upper body effect is comfortable and comfortable. The main body fabric of the cup 100 is additionally treated by three-proofing, so that a layer of stable protective film is formed on the surface of the fabric, the waterproof, oil-proof and antifouling effects can be effectively realized, and the problem of high rejection rate caused by dirty watermarks is solved.

In some embodiments, the reinforcement member 110 may also be other structures, such as a flower-shaped structure, that increase the thickness of the cup 100 base.

Example two

Referring to fig. 3, the present utility model provides another anti-slip stable triangular stress structure undergarment. The anti-skid stable triangular stress structure underwear comprises a cup 100, a steel ring 200, a rear ratio 300, a heart 400 and a back buckle 500. The connection relationship among the cup 100, the steel ring 200, the rear ratio 300 and the heart 400 is identical to that of the first embodiment, and the description thereof will not be repeated here. The back buckle 500 is located outside the back ratio 300, and is used for buckling the back ratio 300. The heart 400 includes a triangular region 410 and a lower raking region 420; the triangular region 410 is located between the cups 100. The lower scraping area 420 is located below the cup 100. The width of the heart 300 is 5 cm-9 cm.

Wherein the width of the triangular region 410 is 3 cm-8 cm. The triangular area 410 is made of a material combining high-tech anti-slip moisture absorption fabric and shaped yarns. Through the friction force when the high-tech anti-slip moisture absorption fabric is attached to the skin, the sizing yarns increase the stability of the triangular area 410, so that the triangular area 410 cannot deform due to overlarge force when the anti-slip stable triangular stress structure underwear is worn. The triangle area 410 fabric further adopts a longitudinal cloth grain structure, so that the longitudinal friction coefficient when the triangle area 410 fabric is attached to skin is increased. The width of the lower scraping area 420 is 1 cm-2 cm. The lower part 420 comprises a high-tech anti-slip moisture absorption fabric and a lower part husband 421, and adopts a double-layer laminating technology. The thickness of the joint between the lower scraping area 420 and the steel ring 200 is 3 mm-5 mm, the thickness is increased by 2 mm-3 mm, the supporting point of the cup 100 on the surface of the human body is formed, the pressure of the cup 100 structure on the human body is further reduced, and the discomfort of the body feeling of 'steel ring crossing the tightening' caused by the lack of the tension of the shoulder strap underwear is reduced. The lower crouch piece 421 is an elastic piece, so that the body type range of a user can be effectively enlarged, and users with different body types can be ensured to wear under the same size.

In some embodiments, the junction of the cup 100, the rear ratio 300 and the heart 400, the steel rim sleeve for receiving the steel rim 200 is made of a flexible material that can be selected to have a high surface friction coefficient, a certain thickness, but a compressible volume, and the friction of the cup 100 is enhanced while reducing the pressure of the steel rim 200.

The rear ratio 300 adopts a shallow cup section traceless design. The rear ratio 300 comprises a fabric and a lining, and the thickness of the fabric and the lining is 0.5mm. The back ratio 300 is about 0.8mm by using a double-layer bonding process. The fabric is attached to the skin and adopts a longitudinal cloth grain structure. When the anti-skid firm triangle stress structure underwear is worn, the underwear is comfortable to support and has good traceless effect.

Example III

Referring to fig. 4, the present utility model provides another anti-slip stable triangular stress structure undergarment. The anti-skid stable triangular stress structure underwear comprises a cup 100, a steel ring 200, a rear ratio 300, a heart 400 and a back buckle 500. The connection relationship between the cup 100, the steel ring 200, the back ratio 300, the heart 400 and the back button 500 is identical to that of the second embodiment, and the structures of the cup 100, the steel ring 200, the heart 400 and the back button 500 are identical to those of the second embodiment, and the description thereof will not be repeated here.

The back ratio 300 adopts a deep cup section bearing design. The rear ratio 300 includes a face fabric, a liner, and a husband 310. The husband 310 is located at the upper and lower edges of the fabric and the lining. The width of the husband 310 is 0.5 cm-0.8 cm, and the total width is widened by 1 cm-1.5 cm. The husband 310 is an ultrathin and strong husband with a thickness of about 1 mm. The husband 310 is an elastic member and has high rebound performance. The fabric, lining and the husband 310 are laminated by three layers, and the thickness of the lamination position is about 1.5mm. When the anti-slip stable triangular stress structure underwear is worn, the underwear can bear breasts with large milk quantity, can be pulled more forcefully and is not easy to deform, and has good bearing and fixing effects.

The above disclosure is only a preferred embodiment of the present utility model, and it should be understood that the scope of the utility model is not limited thereto, and those skilled in the art will appreciate that all or part of the procedures described above can be performed according to the equivalent changes of the claims, and still fall within the scope of the present utility model.

Claims (10)

1. An anti-slip stable triangular stress structure undergarment comprising: cup, steel ring, heart and back ratio; the cup is used for supporting the chest of a user; the chicken heart is connected with the cup, is positioned below the cup and is used for fixing the cup; the rear ratio is connected with the cup and the heart and is positioned at the outer side of the cup and used for fixing the cup; the steel ring is positioned at the joint of the cup, the heart and the rear ratio and used for fixing the chest of the user;

When the anti-skid stable triangular stress structure underwear is worn, the upper end point of the steel ring is connected with the upper end point of the rear ratio in side projection to form a first straight line L1; the lower endpoint of the heart is connected with the lower endpoint of the rear ratio to form a second straight line L2; a tangent line D1 is formed by the vertical tangent line of the cup; the first straight line L1, the second straight line L2 and the tangent line D1 form an isosceles triangle.

2. The anti-slip stable triangular stress structure undergarment according to claim 1 wherein the first straight line L1 and the tangent line D1 form an interior angle of +.a and the second straight line L2 and the tangent line D1 form an interior angle of +.b; and the = -a = -b.

3. The anti-slip stable triangular stress structure undergarment of claim 1 wherein the cup is provided with a shaping and reinforcement; the shaping piece is an elastic piece and is positioned in the cup side; the reinforcement is positioned at the bottom of the cup and is in a cloud-shaped structure.

4. The anti-slip firm triangular stress structure undergarment of claim 3 wherein the cup thickness is stepped down from the cup bottom to the cup rim by 1mm/cm to 5 mm/cm.

5. The anti-skid stabilized triangular stress structure undergarment of claim 1 further comprising a back button thereon; the back buckle is positioned on the outer side of the back ratio and used for buckling the back ratio.

6. The anti-slip stable triangular stress structure undergarment of claim 1 wherein the rear ratio is provided with a husband; the said husband is located at the upper and lower edges of the said rear ratio; the towel is an elastic piece.

7. The anti-slip stable triangular stress structure undergarment of claim 6 wherein the husband is 0.5cm to 0.8cm wide; the rear ratio adopts a longitudinal cloth grain structure; the thickness of the joint between the rear ratio and the towel is 1.3 mm-1.5 mm.

8. The anti-slip stable triangular stressed structural undergarment of claim 1 wherein the rear ratio is a longitudinal cloth grain structure and the rear ratio thickness is 0.8mm to 1mm.

9. The anti-slip stable triangular stress structure undergarment of claim 1 wherein the heart comprises a triangular region and a lower raking region; the triangular area is positioned between the cups, and the width of the triangular area is 3 cm-8 cm; the triangular area adopts a longitudinal cloth grain structure.

10. The anti-slip stable triangular stress structure undergarment of claim 9 wherein the lower raking area is located under the cup and has a width of 1-2 cm; the lower scraping area is provided with a lower scraping husband; the thickness of the joint part of the lower scraping area and the steel ring is 3 mm-5 mm; the lower crouch towel is an elastic piece.