CN217592051U - Anti-static high-moisture-absorption polyester-polyurethane composite sock - Google Patents

Abstract

The utility model relates to a socks technical field discloses a prevent compound socks of static high moisture absorption washing ammonia, the utility model discloses an go up the socks body and socks board, the lower extreme of going up the socks body is equipped with the socks end seam and fits the mouth, the edge of socks board is sewed up and is fixed in on the socks body, and socks board covers on the socks end seam and fits on the mouth, socks board is including washing ammonia blending weaving layer, preceding palm pad, heel pad, the preceding palm position of washing ammonia blending weaving layer is equipped with the first preformed hole that runs through from top to bottom, the heel position of washing ammonia blending weaving layer is equipped with the second preformed hole that runs through from top to bottom, preceding palm pad covers on the first preformed hole and sews up fixed connection with washing ammonia blending weaving layer. The utility model discloses an adopted second bamboo charcoal granule pressfitting layer and first bamboo charcoal granule pressfitting layer, can effectual absorption and the moisture of dispersing, set up the ventilative preformed hole of arch of foot in arch of foot portion in addition, add the direct friction who establishes the silk socks layer and avoid the foot and the shoes body when ventilative, improved the gas permeability when having guaranteed the protection foot.

Description

Anti-static high-moisture-absorption polyester-polyurethane composite sock

Technical Field

The utility model relates to a socks technical field specifically is a prevent that static height absorbs moisture washes compound socks of ammonia.

Background

Socks are as the article that people all will wear throughout the year, and current socks are all integrated into one piece basically and weave the shaping, and current socks all wrap up foot completely simultaneously, and the gas permeability is relatively poor, and difficult sweat-absorbing simultaneously covers for a long time in shoes, and the wet sense is heavier, and in addition, after current socks were worn, its self did not have a support bradyseism effect to the heel, wears for a long time, and the comfort level is relatively poor.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to overcome the problems, the anti-static high-moisture-absorption polyester-polyurethane composite socks are provided, which solve the problems.

The utility model provides a its technical problem take following technical scheme to realize:

the utility model provides a prevent that static height absorbs moisture washes compound socks of ammonia, includes the socks body and socks board, the lower extreme of going up the socks body is equipped with the socks end and sews up the mouth, the edge of socks board sews up and is fixed in go up on the socks body, just socks board covers fit on the socks end sews up the mouth, socks board is including washing ammonia blending weaving layer, preceding palm pad, heel pad, the preceding palm position of washing ammonia blending weaving layer is equipped with the first preformed hole that runs through from top to bottom, the heel position of washing ammonia blending weaving layer is equipped with the second preformed hole that runs through from top to bottom, preceding palm pad cover fit on the first preformed hole and with wash ammonia blending weaving layer and sew up fixed connection, the heel pad cover in on the second preformed hole and with wash ammonia blending and sew up fixed connection.

Preferably, a toe separating piece is fixedly arranged in the upper sock body at the front end of the sole at intervals in a sewing mode and is clamped into the toe seam.

Preferably, the heel pad comprises a first cotton woven layer, a first bamboo charcoal particle pressing layer, a closed cell sponge cushion layer and a first quick-drying cloth layer, the first cotton woven layer is fixedly connected with the side edge of the first quick-drying cloth layer in a sewing mode, the closed cell sponge cushion layer is filled in a cavity formed by sewing the first cotton woven layer and the first quick-drying cloth layer, the first bamboo charcoal particle pressing layer is further filled between the closed cell sponge cushion layer and the first cotton woven layer, and ventilation holes penetrating through the closed cell sponge cushion layer from top to bottom are formed in the closed cell sponge cushion layer at intervals.

Preferably, the half sole pad comprises a second cotton woven layer, a second bamboo charcoal particle pressing layer and a second quick-drying cloth layer, wherein the second cotton woven layer and the side edge of the second quick-drying cloth layer are fixedly connected in a sewing mode, and the second bamboo charcoal particle pressing layer is filled in a sewing cavity formed by the second cotton woven layer and the second quick-drying cloth layer.

Preferably, the arch of the polyester-polyurethane blended braided layer is provided with an arch ventilation reserved hole which penetrates through the arch from top to bottom, and the arch ventilation reserved hole is oval.

Preferably, the foot arch breathable reserved hole is covered and sewn with a silk stocking layer, and the upper end face of the first cotton woven layer is fixedly provided with a silica gel sheet at intervals through hot melting and gluing.

The utility model has the advantages that: in the sport of foot, the main friction parts with the socks are the front sole and the back heel, and the two parts are easy to accumulate sweat, aiming at the physiological characteristics, the second bamboo charcoal particle pressing layer and the first bamboo charcoal particle pressing layer are adopted in the two parts, so that moisture can be effectively absorbed and dissipated, in addition, the foot arch part is provided with the foot arch ventilation reserved hole, the silk stocking layer is additionally arranged while ventilation is realized, the direct friction between the foot and the shoe body is avoided, and the ventilation property is improved while the foot is protected.

Drawings

The present invention will be further described with reference to the accompanying drawings and examples.

FIG. 1 is a schematic view of the present invention;

fig. 2 is a schematic structural diagram of the present invention;

fig. 3 is a schematic structural diagram of the present invention;

FIG. 4 is a schematic structural view of the middle sock plate of the present invention;

FIG. 5 is a schematic structural view of the middle sock plate of the present invention;

FIG. 6 is a schematic structural view of the middle sock plate of the present invention;

FIG. 7 is a schematic view showing an exploded structure of the middle heel cushion of the present invention;

fig. 8 is an exploded view of the middle front sole pad of the present invention.

The scores in the figures are as follows: 10. a sock body is arranged; 11. sewing the sock bottoms; 12. a toe separating sheet; 13. a sock panel portion; 15. a reserved hole for ventilation of the arch; 16. a silk stocking layer; 17. polyester-polyurethane blended braided layer; 18. a front palm pad; 19. a heel pad; 20. a silica gel sheet; 21. a first cotton knit layer; 22. a first bamboo charcoal particle laminating layer; 23. a closed cell sponge cushion layer; 24. a first quick dry cloth layer; 26. a ventilation hole; 27. a second cotton knit layer; 28. a second bamboo charcoal particle laminating layer; 29. a second quick drying cloth layer; 31. a first preformed hole; 32. a second preformed hole.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

The embodiments of the present invention will be described in detail below with reference to the accompanying drawings:

as shown in fig. 1-8, a prevent that static height absorbs moisture washes compound socks of ammonia, including the socks body 10 and socks board portion 13, the lower extreme of going up the socks body 10 is equipped with the socks end and sews up mouthful 11, the edge of socks board portion 13 is sewed up and is fixed in go up on the socks body 10, just socks board portion 13 covers in on the socks end sews up mouthful 11, socks board portion 13 is including washing ammonia blending weaving layer 17, preceding palm pad 18, heel pad 19, the preceding palm position of washing ammonia blending weaving layer 17 is equipped with the first preformed hole 31 that runs through from top to bottom, the heel position of washing ammonia blending weaving layer 17 is equipped with the second preformed hole 32 that runs through from top to bottom, preceding palm pad 18 cover in on the first preformed hole 31 and with wash ammonia blending weaving layer 17 and sew up fixed connection, heel pad 19 cover in on the second preformed hole 32 and with wash ammonia blending weaving layer 17 and sew up fixed connection.

Preferably, a toe separating piece 12 is fixedly arranged in the upper sock body 10 at the front end of the sole at intervals of seams, and the toe separating piece 12 is clamped in the toe seams.

Preferably, the heel pad 19 comprises a first cotton woven layer 21, a first bamboo charcoal particle pressing layer 22, a closed pore sponge cushion layer 23 and a first quick-drying cloth layer 24, the first cotton woven layer 21 is fixedly connected with the side edge of the first quick-drying cloth layer 24 in a sewing mode, the closed pore sponge cushion layer 23 is filled in a cavity formed by sewing the first cotton woven layer 21 and the first quick-drying cloth layer 24, the first bamboo charcoal particle pressing layer 22 is filled between the closed pore sponge cushion layer 23 and the first cotton woven layer 21, ventilation holes 26 penetrating through the closed pore sponge cushion layer 23 are arranged at intervals, and due to the fact that the adopted closed pore air cavity distributed at even intervals is formed in the closed pore sponge cushion layer 23, the closed pore sponge cushion layer 23 has the advantages of being resistant to treading and improving shock absorption, and the ventilation performance of the closed pore sponge cushion layer can be improved through the ventilation holes 26 arranged at intervals.

Preferably, the front palm pad 18 comprises a second cotton woven layer 27, a second bamboo charcoal particle pressing layer 28 and a second quick-drying cloth layer 29, the side edges of the second cotton woven layer 27 and the second quick-drying cloth layer 29 are fixedly connected through sewing, and the second bamboo charcoal particle pressing layer 28 is filled in a sewing cavity formed by the second cotton woven layer 27 and the second quick-drying cloth layer 29.

Preferably, an arch ventilation reserved hole 15 penetrating from top to bottom is formed in the arch of the polyester-polyurethane blended woven layer 17, and the arch ventilation reserved hole 15 is oval.

Preferably, the stockings 16 are sewed at the arch ventilation reserved holes 15, and the silica gel sheet 20 is fixedly arranged on the upper end surface of the first cotton woven layer 21 at intervals through hot melting and gluing.

In the design, aiming at the physiological characteristics, the second bamboo charcoal particle pressing layer 28 and the first bamboo charcoal particle pressing layer 22 are adopted at the two parts, so that moisture can be effectively absorbed and dissipated, in addition, the foot arch ventilation reserved hole 15 is formed at the foot arch part, the silk stocking layer 16 is additionally arranged at the foot arch part to avoid direct friction between the foot and the shoe body, and the ventilation property is improved while the foot is protected.

It should be emphasized that the embodiments described herein are illustrative and not restrictive, and thus the present invention is not limited to the embodiments described in the detailed description, but also falls within the scope of the present invention, in any other embodiments derived by those skilled in the art according to the technical solutions of the present invention.

Claims (6)

1. The utility model provides an antistatic high moisture absorption washes compound socks of ammonia which characterized in that: including last socks body (10) and socks board portion (13), the lower extreme of going up socks body (10) is equipped with socks end seam mouth (11), the edge of socks board portion (13) is sewed up and is fixed in go up socks body (10), just socks board portion (13) cover in on socks end seam mouth (11), socks board portion (13) are including washing ammonia blending weaving layer (17), preceding palm pad (18), back pad (19), the preceding palm position of washing ammonia blending weaving layer (17) is equipped with first preformed hole (31) that runs through from top to bottom, the heel position of washing ammonia blending weaving layer (17) is equipped with second preformed hole (32) that run through from top to bottom, preceding palm pad (18) cover in on first preformed hole (31) and with wash ammonia blending weaving layer (17) and sew up fixed connection, back pad (19) cover in on second preformed hole (32) and with wash ammonia blending weaving layer (17) sew up fixed connection.

2. The antistatic high-moisture-absorption polyester-polyurethane composite sock according to claim 1, wherein the sock is characterized in that: the upper sock body (10) is internally provided with a toe separating piece (12) at the front end of the sole at intervals of sewing, and the toe separating piece (12) is clamped in the toe sewing.

3. The antistatic highly hygroscopic polyester-polyurethane composite sock according to claim 2, wherein: the heel pad (19) comprises a first cotton woven layer (21), a first bamboo charcoal particle pressing layer (22), a closed cell sponge cushion layer (23) and a first quick-drying cloth layer (24), wherein the first cotton woven layer (21) is fixedly connected with the side edge of the first quick-drying cloth layer (24) in a sewing mode, the closed cell sponge cushion layer (23) is filled in a cavity formed by sewing the first cotton woven layer (21) and the first quick-drying cloth layer (24), the first bamboo charcoal particle pressing layer (22) is further filled between the closed cell sponge cushion layer (23) and the first cotton woven layer (21), and ventilation holes (26) penetrating through the closed cell sponge cushion layer (23) up and down are arranged at intervals.

4. The antistatic highly hygroscopic polyester-polyurethane composite sock according to claim 3, wherein: the front palm pad (18) comprises a second cotton woven layer (27), a second bamboo charcoal particle pressing layer (28) and a second quick-drying cloth layer (29), the second cotton woven layer (27) and the side edge of the second quick-drying cloth layer (29) are fixedly connected in a sewing mode, and the second bamboo charcoal particle pressing layer (28) is filled in a sewing cavity formed by the second cotton woven layer (27) and the second quick-drying cloth layer (29).

5. The antistatic high-moisture-absorption polyester-polyurethane composite sock according to claim 4, wherein the sock is characterized in that: an arch breathable reserved hole (15) which penetrates through the arch is formed in the arch of the polyester-polyurethane blended weaving layer (17), and the arch breathable reserved hole (15) is oval.

6. The antistatic highly hygroscopic polyester-polyurethane composite sock according to claim 5, wherein: the breathable arch preformed hole (15) is covered and sewn with a silk stocking layer (16), and the upper end face of the first cotton woven layer (21) is fixedly provided with a silica gel sheet (20) at intervals in a hot melting gluing mode.

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