CN210630660U - Socks - Google Patents

Abstract

The application discloses socks, including leg of a stocking, heel, sole, instep and tiptoe, be equipped with first high elasticity district piece and second high elasticity block on the socks, first high elasticity block is located the arch of foot portion of sole, and follow the sole extends to set up on the instep, second high elasticity block is located on the instep, first high elasticity block with second high elasticity district piece interconnect forms continuous high elasticity block. The utility model provides a socks is applicable to the volleyball and detains the ball action, enables big, little toe both sides and the arch of foot and all keeps good state, can increase the explosive force of take-off, and can cushion the impact force when falling to the ground, prevents sports fatigue and sports damage.

Description

Socks

Technical Field

The utility model relates to an articles for daily use technical field especially relates to a socks.

Background

Volleyball is a popular group sport today and is one of the popular items in each big game, and the population participating in volleyball sports is rising year by year. In the volleyball sports process, the participant is required to run, take off and other actions, and in order to protect feet, people often design various functional structures from the lower hand of a shoe in the prior art, but often neglect socks in direct contact with the feet.

The basic action of volleyball mainly includes serving, catching, putting, passing and the like, wherein the catching is often performed in the volleyball defending action, and in the volleyball six-person team, the main attacker and the auxiliary attacker often perform the catching action. Referring to fig. 1, when performing a ball-catching action, a player starts to run from a ready position, then takes off a jump, and after completing a ball-striking action in the air, the body naturally falls, and in order to avoid an excessive burden on the legs, the player should first touch the feet with the front soles of both feet and simultaneously bend the knees to cushion the falling force of the body. From take-off to landing, the sole portion is subjected to a very large impact force.

The conventional sports socks are generally provided with thicker terry cushion on the sole, but the socks are only suitable for the functions of cushion, sprain prevention, blister prevention and the like in the conventional sports, if the cushion is carried out only by thickening the terry by the terry socks, the impact force borne by the sole part during the ball-catching action cannot be relieved, the motion explosive force of a main attacking hand and an auxiliary attacking hand of the volleyball cannot be improved, and the sports fatigue and the sports injury are prevented.

SUMMERY OF THE UTILITY MODEL

The utility model provides a to the above-mentioned problem, a socks is proposed, is applicable to the volleyball and detains the ball action, enables big, little toe both sides and the arch of foot and all keeps good state, can increase the explosive force of take-off, and can cushion the impact force when falling to the ground, prevents sports fatigue and sports damage.

The utility model adopts the following technical scheme: the utility model provides a sock, including leg of a stocking, heel, sole, instep and tiptoe, be equipped with first high elasticity district piece and second high elasticity block on the sock, first high elasticity block is located the arch of foot portion of sole, and follow the sole extends to set up on the instep, second high elasticity block is located on the instep, first high elasticity block with second high elasticity district piece interconnect forms continuous high elasticity block.

In an embodiment of the present invention, the sock further includes a third high elastic block, the third high elastic block is disposed on the achilles tendon portion of the heel, and the third high elastic block and the first high elastic block are connected to each other to form a continuous high elastic block.

In an embodiment of the present invention, the area of the first high elastic block is larger than the area of the second high elastic block, and the area of the first high elastic block is larger than the area of the third high elastic block.

In an embodiment of the present invention, the first high elastic block includes a left high elastic block and a right high elastic block, the left high elastic block extends from the left side of the sole to the upper side of the foot, the right high elastic block extends from the right side of the sole to the upper side of the foot, and the left high elastic block and the right high elastic block are located at intervals in the portion of the sole.

In an embodiment of the present invention, the high elastic region of the arch portion of the sole is asymmetrically inclined, and one side of the little toe is closer to the toe than one side of the big toe.

In an embodiment of the present invention, the width of the second high-elasticity block is 1-3 cm.

In an embodiment of the present invention, the sole is provided with a non-slip mat at a position corresponding to the big toe.

In an embodiment of the present invention, the non-slip pad is an anti-slip silica gel pad or an anti-slip PVC pad.

The utility model has the advantages that: the utility model provides a sock, the arch of foot portion and the instep of sole are equipped with first high elasticity block and second high elasticity block respectively, when the sock is worn, the first high elasticity block can wrap the sole fascia, promote the contraction of the sole fascia, the second high elasticity block uses the instep as the fulcrum, can make the arch of foot produce the pulling force towards the instep direction, promote the arch structure of the arch of foot to rise, keep good bending state; and because the first high elasticity block extends to the upper surface of the foot from the sole, the first high elasticity block can apply pressure to both sides of the big and small toes of the foot, so that the toes are drawn close to the middle, the arch of the sole part is increased, a good bending state is kept, the explosive force of jumping is increased, the impact force when the sole falls to the ground can be buffered, and the sports fatigue and sports injury are prevented.

Drawings

FIG. 1 is a schematic diagram of a human body during a ball-catching operation;

FIG. 2 is a schematic view of the construction of the sock of the present application when worn;

FIG. 3 is a schematic view of the configuration of the upper of the foot of the sock of the present application when worn;

FIG. 4 is a schematic view of the structure of the sole of the foot of the sock of the present application when worn;

FIG. 5 is a schematic representation of the construction of the right foot of the sock of the present application when not worn;

FIG. 6 is a schematic representation of the configuration of the upper of the right foot of the sock of the present application when not in use;

fig. 7 is a schematic view showing the structure of the sole of the right foot when the sock of the present application is not worn.

The figures are numbered: a. a sock cylinder; b. a heel; c. the sole of the foot; d. a step of making a foot surface; e. a toe; 1. a first high elasticity block; 2. a second high resilience block; 3. a third high elasticity block; 4. a non-slip mat; 5. a sole portion; 11. a left high resilience block; 12. a right high resilience block; 101. the talus bone; 102. scaphoid bone; 103. wedging bones; 104. the metatarsal bones; 105. plantar fascia; the arrow indicates the direction of pulling or force.

Detailed Description

The present invention will now be described more fully hereinafter with reference to the accompanying drawings, in which embodiments of the invention are shown.

Referring to fig. 2 and 5-7, the present invention provides a pair of socks, including a leg a, a heel b, a sole c, a instep d and a toe e, wherein the socks are provided with a first high elasticity block 1 and a second high elasticity block 2, the first high elasticity block 1 is located at the arch of the sole c and extends from the sole c to the instep d, the second high elasticity block 2 is located on the instep d, and the first high elasticity block 1 and the second high elasticity block 2 are connected to form a continuous high elasticity block. When the sock is worn, the first high elastic blocks 1 can wrap the plantar fascia 105 to promote the plantar fascia 105 to shrink, and the second high elastic blocks take the instep as a fulcrum to enable the arch to generate pulling force towards the instep direction, promote the arch structure of the arch to rise and keep a good bending state; and because the first high elasticity block 1 extends to the instep d from the sole c, the first high elasticity block 1 can apply pressure to the two sides of the big and small toes of the foot, so that the toes are drawn close to the middle, the arch of the sole part 5 is increased, a good bending state is kept, the explosive force of jumping is increased, the impact force when falling to the ground can be buffered, and the sports fatigue and sports injury are prevented.

The socks in fig. 2-7 are all exemplified by the right foot or the sock on the right foot, and the left foot sock and the right foot sock are symmetrically arranged.

The sock further comprises a third high elastic block 3, the third high elastic block 3 is arranged at the achilles tendon part of the heel b, and the third high elastic block 3 and the first high elastic block 1 are connected with each other to form a continuous high elastic block. The third high elasticity block 3 exerts the pulling force to the achilles tendon direction to first high elasticity block 1 for the position of three high elasticity blocks is difficult to the skew, and can make the ankle produce tight guard action, thereby increases the stability of ankle and travelling comfort, avoids the athletic injury.

The first high elastic block 1, the second high elastic block 2 and the third high elastic block 3 are connected with each other to form a continuous high elastic block structure which accords with the mechanical dynamics of the ball catching action, and the high elastic block structure has the characteristics of assisting, stabilizing, avoiding sports injury and relieving sports fatigue to the actions of athletes in a take-off state or a sports state. The ankle bandage is wound on the foot like an ankle bandage, so that the stability and the comfort of the foot can be improved, and the positions of the high-elasticity blocks can be better prevented from being deviated.

The three high elasticity blocks are woven by high elasticity materials and rubber bands, and other parts are woven by conventional materials. According to different exercise strengths, the adopted materials are conventional or special materials produced by socks made of spandex coated yarns, naked ammonia, nylon filaments, polyester filaments, latex rubber bands and spandex double-coated rubber bands of different raw material manufacturers. The high-elasticity zone block woven by the high-elasticity spandex coated yarns and the rubber bands has stronger tightening force, promotes the shrinkage of the plantar fascia 105 and has better effect of lifting the heel b. Other parts of the socks can adopt full rubber band socks knitted by rubber bands, and the foot soles c can be made into sock heads, heel terry or foot soles c terry structures.

The high elastic blocks can be woven with concave-convex pattern structures, and the patterns can be in the shapes of rhombus, square, circle, polygon and the like. The weave of the arch can be a plain weave, a concave-convex weave, a tuck and the like, which can be realized by a sock machine, and an unconventional weave. The structure of each high elasticity block and slipmat 4 of this application are the process of mass production in the socks production, have stronger practicality.

The area of the first high elasticity block 1 is larger than that of the second high elasticity block 2, and the area of the first high elasticity block 1 is larger than that of the third high elasticity block 3. Referring to fig. 2-4, the third high resilience block 3 wraps the talus 101, the second high resilience block 2 wraps the metatarsals 104 of the middle three toes, the first high resilience block 1 wraps the navicular 102, the cuneiform 103, the metatarsals 104 of the big toe and the small toe, and a large area of plantar fascia 105. since the plantar fascia 105 has the largest wrapping area, pressure greater than the talus 101 and the navicular 102 is generated to promote the plantar fascia 105 to contract, so that the arch of the arch is raised, and the first high resilience block 1 applies pressure to the middle from two sides, so that the five metatarsals 104 are close to the center point of the sector (dotted line in fig. 4), so that the arch of the sole portion 5 is raised. The arch structures of the two sides of the foot and the arch of the foot rise and are firmly and stably fixed, so that the jumping explosive force can be increased, and the impact force when the foot falls to the ground can be buffered.

Referring to fig. 3-4 and 6-7, the first high-elasticity blocks 1 include left high-elasticity blocks 11 and right high-elasticity blocks 12, the left high-elasticity blocks 11 extend from the left side of the sole c to the upper surface d, the right high-elasticity blocks 12 extend from the right side of the sole c to the upper surface d, and the left high-elasticity blocks 11 and the right high-elasticity blocks 12 are arranged at intervals on the sole c, so that the large-area first high-elasticity blocks 1 have moderate acting force on the plantar fascia 105, and the sole is prevented from being cracked and painful after being worn for a long time.

The high elastic region of the arch part of the sole c is asymmetrically inclined, and one side of the small toe is closer to the toe e than one side of the large toe. Because the bending radian of the big toe side is larger than that of the small toe side, the metatarsal bones 104 of the small toe are completely wrapped, and the effect of lifting the longitudinal arch of the small toe side can be well achieved.

Preferably, the width of the second high elastic block 2 is 1-3cm, which has a good effect of lifting the arch of foot and does not make the instep feel uncomfortable to be tightened.

Referring to fig. 7, the non-slip mat 4 is disposed at a position of the sole c corresponding to the big toe, so as to increase the grip force at the big toe, and the metatarsal 104 at the big toe is used as a fulcrum when the heel b lifts off the ground, so as to increase the grip force at the big toe, so as to further improve the lifting force of the arch bending upward.

The non-slip mat 4 is non-slip silica gel pad or non-slip PVC pad, and the material is soft, and the travelling comfort is good, and anti-slip effect is good, guarantees the land fertility of grabbing of big toe department. The non-slip mat 4 can be formed by non-slip lines of various shapes such as a plurality of punctiform, linear, curve, etc., and the shape of the non-slip mat 4 can also be polygon, circular, etc., and the utility model discloses do not limit this.

The socks of this application can make multiple size to adapt to the not foot of equidimension, make three high elasticity block can more laminate the not foot of equidimension, reach the effect of helping hand catching ball action better. The socks of this application are not only limited to the catching motion of volleyball, and if there is similar action in other sports such as motion, basketball, football, tennis, also can make big, little toe both sides and the arch of foot all keep good state, can increase the explosive force of take-off, and can cushion the impact force when falling to the ground, prevent sports fatigue and sports damage, and this application does not limit to this.

The above is only the preferred embodiment of the present invention, and not the patent protection scope of the present invention is limited thereby, all the equivalent structure changes made by the contents of the specification and the drawings of the present invention can be directly or indirectly applied to other related technical fields, and all the same principles are included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a sock, includes leg of a stocking, heel, sole, instep and tiptoe, its characterized in that, be equipped with first high elasticity district piece and second high elasticity block on the sock, first high elasticity block is located the arch of foot portion of sole, and follow the sole extends to set up on the instep, second high elasticity block is located on the instep, first high elasticity block with second high elasticity block interconnect forms continuous high elasticity block.

2. A sock according to claim 1, further comprising a third high resilience block provided on the achilles tendon of the heel, the third high resilience block being interconnected with the first high resilience block to form a continuous high resilience block.

3. A sock according to claim 2, wherein the area of the first high resilience block is greater than the area of the second high resilience block and the area of the first high resilience block is greater than the area of the third high resilience block.

4. The sock of claim 1, wherein the first high elastic blocks include left and right high elastic blocks, the left high elastic block extending from a left side of a sole of the foot onto the upper surface of the foot, the right high elastic block extending from a right side of the sole of the foot onto the upper surface of the foot, and portions of the left and right high elastic blocks located on the sole of the foot being spaced apart.

5. A sock according to claim 1, wherein the high resilience region of the arch portion of the sole is asymmetrically inclined with the side of the little toe being closer to the toe than the side of the big toe.

6. A sock according to claim 1, wherein the second high-elastic zone is 1-3cm wide.

7. A sock according to claim 1, wherein the sole of the foot is provided with a non-slip pad at a position corresponding to the big toe.

8. A sock according to claim 7, wherein the non-slip pads are non-slip silicone pads or non-slip PVC pads.

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