JP5448876B2 - Socks, bicycle socks - Google Patents

Description

  The present invention relates to socks. In particular, the present invention relates to socks suitable for bicycle socks.

In addition to serving as a cushioning material between the shoes and bare feet, the socks keep the feet warm, absorb sweat and ensure breathability, protect the skin that goes out of the shoes, It serves as a garment that fills the space between shoes and lower body clothes. The length of socks varies, ranging from those that cover just above the ankle to those that cover the knee.
In addition, socks that are suitable for applications and functions are being developed.
Socks (stockings) worn during sports such as soccer must cope with intense exercise. For this reason, it is often created tightly so as not to shift. In addition, socks have been proposed along the shape of the left and right feet.
For example, Japanese Patent Laid-Open No. 2007-107178 proposes a sock in which an air passage is formed as a sock suitable for a sports cycle. Patent Document 2 (Japanese Patent Laid-Open No. 2007-332470) discloses a sock with a supporter function. The present applicant has the shape of left and right foot-shaped socks with a margin on the thumb side (Patent Document 3, Japanese Patent No. 3780354), and socks along the left and right foot-shapes. A sock (Patent Document 4, Japanese Patent Application Laid-Open No. 2007-197881) that increases the contraction force and imparts high friction to the Ryukyu part has been developed and proposed.
On the other hand, the applicant of the present invention is a dedicated shoe suitable for bicycle races such as road races and having a special structure for efficiently transmitting leg power to the pedal (Patent Document 5, Patent 3319691, Patent Document 6, Patent No. 2999620) has been developed and proposed.
Bicycle shoes are desired to have a high footing force transmitted to the pedal quickly and to have a high transmission efficiency. The shoe proposed in Patent Document 5 is made of fiber reinforced resin, and is more like a foot arch. A first concave forming portion having a concave surface formed so as to correspond to a first convex surface of the sole positioned in front and behind the thumb; and a sole positioned in front of the arch and behind the little finger. A bicycle shoe sole comprising a second concave forming portion having a concave surface formed so as to correspond to the second convex surface, wherein the arch is firmly fixed to the shoe sole core when stepped on. At the same time, the hard part of the foot at the joint position of the thumb and little finger is fixed to the sole core body, and the sole core body is formed of a fiber reinforced material and is formed as a single plate-like body uniformly and thinly. The shoe is light and almost solid, i.e., hardly deformable, so that the stepping force of the foot is transmitted to the sole core without being reduced, and transmitted to the pedal as it is. Further, as disclosed in Patent Document 6, a cleat, which is a coupling medium for coupling a bicycle pedal and a shoe, is attached to the sole of the bicycle shoe, and the pedal and the shoe are displaced to lose transmission force. It has been devised so as not to occur.
In this way, the bicycle has been devised to improve the adhesion between the shoe and the foot and the shoe and the pedal and prevent the shift so that the stepping force of the foot is quickly transmitted to the pedal and the transmission efficiency is increased. . However, Patent Literature 1 focusing on exhausting moisture has been proposed for socks interposed between shoes and feet, but no socks suitable for preventing leg force transmission loss have been developed.

JP 2007-107178 A JP 2007-332470 A Japanese Patent No. 3780354 JP 2007-197881 A Japanese Patent No. 3319691 Japanese Patent No. 2999620

  An object of the present invention is to develop a sock suitable for a bicycle for competition such as a road race.

The main configuration of the present invention is as follows.
1. Provide a reverse knitting portion in the collar forming portion in the basic cylindrical portion that is circularly knitted cylindrical, and form the reverse knitting portion in a range of less than 180 ° of the basic cylindrical shape,
Arrange the stretched part around the inverted knitting part,
A knitting part is provided in the longitudinal direction of the front part of the ankle,
A sock for a bicycle characterized in that the bending angle of the foot and the leg is formed to be an obtuse angle by the reverse knitting amount of the heel part and the knitting part formed at the front part of the ankle .
2. The inverted knitting part is a shape that accommodates the rib protrusion process,
The difficultly stretched portion disposed around the inverted knitting portion is disposed on the heel side from the heel. Bicycle socks as described.
3. 1. The hard part is not provided in the Achilles tendon part. Or 2. Listed socks.
4). 1. A knitting portion is provided in a longitudinal direction in a sole portion. ~ 3. Bicycle socks as described in any of the above.
5. 1. An anti-slip part is formed on the outer surface of the Ryukyu part and the small Ryukyu part. ~ 4. Socks for bicycles as described in any of the above.
6). Socks mainly made of polyester fiber material, characterized in that cotton fibers are arranged on the inner surface side of the sole. ~ 5. Socks for bicycles as described in any of the above.
7). 1. An anti-slip part is provided on the upper part. ~ 6. Socks as described in any of the above.
8). 1. A sock with a shape that follows the shape of the left and right feet. ~ 7. Socks for bicycles as described in any of the above.
9. 1. The bending angle between the foot and the leg is 100 to 140 °. ~ 8. Socks for bicycles as described in any of the above.
10. 1. The bicycle is a road racing bicycle . ~ 9. Socks for bicycles as described in any of the above.
11. A sock to be attached to a foot when a bicycle shoe for a road race having an inner surface formed in a recess is formed at a portion where a foot portion of a foot is in contact with a foot portion of a small ball. ,
The toe portion has a left and right foot shape,
Anti-slip is formed on the outer surface of the Ryukyu part and the Ryukyu part,
The sock collar part is formed by reversing knitting at a portion of less than 180 ° with respect to the basic tube part, and a stretched part is formed around the reversing knitting part,
On the ankle side, by forming a contraction by knitting in the length direction,
The heel extends in the length direction, the ankle side contracts in the length direction, and by adjusting this extension and contraction, the bending angle of the foot and the leg is formed as an obtuse angle,
The socks are bicycle socks that follow the shape of the inner surface of the shoe and are biased to an ankle angle suitable for the pedal depression angle.
12 The socks are made of polyester fiber as a main material, and cotton fibers are arranged on the inner surface of the socks in contact with the sole . Listed socks.

1. The socks of the present invention are worn by the inverted knitting portion formed so as to accommodate the heel portion by accommodating the distal end side of the heel of the foot and disposing the stretched portion around the inverted portion. Excellent socks are fixed at the heel. Fixed socks are enhanced at the heel part of the socks. The standard heel part of the socks is standard on the knitting machine so that the reverse knitting is exactly half the total number of stitches (the reverse knitting part is 180 ° of the tubular knitting part), which is generally a well-balanced sock. It is shaped. However, in sports socks that require functionality, the reverse knitting of the heel part is enlarged to make the ankle part bend at a right angle so that it normally follows the movement of the human ankle near the right angle. In order to increase the storage area of the heel part, it is a normal method to make the inverted knitting part 180 ° or more of the tubular knitting. However, the angle of bending of the ankle can be made close to a right angle by a large inverted knitting, but at the same time, the heel storage part by the excessively large inverted knitting is not important in the movement of the foot, and the fixing property at the lower heel part is lowered. This will cause a shift in the part.
2. The size of the inverted knitting part is the size that originally accommodates the rib protrusions with the ribs projecting back, and the inverted knitting that makes the ankle flexion angle larger than necessary. Rather than increase, we adopted a method of making it closer to a right angle by adjusting the knitting method of the heel part, or adjusting it to an obtuse angle if necessary. Moreover, since the difficult extension part is arrange | positioned rather than the ankle, the sock which improved the fixability to the heel part of a foot | leg can be provided. In particular, a sock with a size that fits the size of the foot (small socks) is firmly fixed to the toes and the heel part, thereby improving stability and improving the function of preventing displacement. A gore line, which is an inverted knitting stitch line, becomes “V-shaped”, “Y-shaped” or the like, and can form a shape that firmly covers the rib protrusion.
3. Since the difficultly stretched portion is arranged so as to avoid the Achilles tendon, the movement of the Achilles tendon is not hindered.
4). By tuck knitting in the longitudinal direction of the ankle part, and knitting the stitches in the longitudinal direction corresponding to multiple flat stitches into one, the ankle on the back side is urged to an obtuse angle and the angle of the ankle is extended To suppress that. In addition, when stuffing is put into the sole, the ankle angle regulating action can be strengthened in cooperation with the ankle side.
5. By arranging a small buttocks and difficult extension on the heel side, the fixing force of the heel is increased, resistance to elongation on the sole side is increased, and the toe is prevented from rotating upward, and the pedal Prevents the ankle angle from becoming deep. This restraining force and the knitting on the ankle side help to keep the angle of the ankle to the pedal constant. This angle θ is preferably maintained at about 100 to 140 degrees centering on 120 degrees. Further, by connecting the difficultly stretched portion to the knitting on the sole side, resistance to elongation on the sole side can be increased.
6). The leg force can be effectively transmitted to the rotational torque by forming the anti-slip part on the outer surface of the Ryukyu part and the Ryukyu part.
7). By increasing the blending of cotton (cotton) fibers on the inner surface of the sole of the socks, the friction between the skin of the foot and the inner surface of the socks can be increased due to moisture absorption by perspiration, and the slippage between the feet and the socks can be prevented. On the other hand, polyester as a main material has low hygroscopicity and can release sweat, and is suitable for giving a feeling of dryness to the socks as a whole and maintaining a feeling of wearing.
8). By attaching a non-slip function to the outer surface of the upper part, the tightening of the shoes is made effective and contributes to the stability of the shoes and the socks.
9. By adopting a structure that follows the shape and movement of the left and right feet, the fit of the socks is enhanced.
10. The sock of the present invention can improve the fixation of the buttocks, keep the ankle angle obtuse, and can provide a sock suitable for bicycles such as road races.

The figure which shows the state which is drive | working on the road racing bicycle. The schematic diagram about the angle of a pedal and an ankle. The figure which shows the force and pedaling relationship which leg muscles generate | occur | produce. A state diagram (a) of an upright foot and a diagram (b) showing a basic shape of a sock suitable for the basic shape of an upright foot. The schematic diagram which expand | deployed the basic sock shown in FIG.4 (b). The schematic diagram which shows the development of the socks which shows the example of the reverse knitting which comprises a deep collar part. The figure which shows typically the example of the reverse knitting part of the collar part of this invention about the cylinder of 200 needles. Foot skeleton diagram. The figure which shows the sock of Example 1. FIG. The figure which shows the sole side of the socks of Example 2. FIG. The figure which shows the back side of the sock of Example 2. FIG. The figure which shows the inner side surface with which the sock of Example 2 was mounted | worn. The figure which shows the outer side surface equipped with the socks of Example 2. FIG. The schematic diagram which shows the shoe sole inner surface of bicycle shoes. The disassembled perspective view of the sole of a bicycle shoes. The schematic diagram which shows the state of tuck knitting.

The socks according to the present invention are developed socks particularly suitable for bicycles. It proposes as a new invention to apply the knowledge obtained in the process of research and development to the general socks.
In other words, the demands of competition bicycles such as road races were analyzed in detail, and socks that could meet the demands were realized.
In road racing and other competition bicycles, (1) the foot's Ryukyu and the small Ryukyu are the parts of the foot that mainly transmit the force to the bicycle's pedals, and (2) the pedals are smoothly pedaled. It is important to keep the ankle angle θ at an obtuse angle in order to transmit the leg force smoothly to the pedal turning force without loss and to suppress fatigue.
Furthermore, the bicycle travel will be described in detail. FIG. 1 illustrates a state where the vehicle is running on a road racing bicycle. While maintaining such a constant posture, the vehicle travels at a speed of about 50 km / h on flat ground at a rotational speed of about 120 revolutions / minute. It is important to continue such high-speed rotation and always exhibit a smooth and constant running torque. The fact that the adhesion between the foot and the shoe is important is described in Background Art and Patent Documents 5 and 6 and the like, and will be omitted.
On the other hand, when the angle θ of the ankle is raised or lowered, the running torque becomes uneven, resulting in transmission loss of leg power. FIG. 2 schematically explains the angle of the ankle. In FIG. A, the foot angle is not natural, and torque unevenness occurs. In FIG. B, the angle of the foot with respect to the rotation axis is constant, but the ankle moves too much with respect to the position of the knee, resulting in uneven torque. In FIG. C, a constant obtuse angle from the knee to the ankle can be maintained and torque can be transmitted stably and efficiently. The obtuse angle θ is preferably in the range of about 100 to 140 ° centering on 120 °.
FIG. 3 shows the relationship between the force generated by leg muscles and pedaling. Most of the output during pedaling is kicking out or stepping on, and if the angle of the ankle swings from an acute angle to an obtuse angle at this time, a torque transmission loss occurs. It has been found that maintaining the ankle angle at a desired angle is important for more stable torque transmission of the force exerted by the muscles.

On the other hand, as described in the background art, the shape of the left and right foot shapes and socks in which high friction portions are arranged in the heel and ball portions have been proposed. The socks do not impair the mobility, so that the freedom of the ankles is not disturbed, and the heel part is bent at a right angle so that the foot shape 200 of the basic state (FIG. 4 (a)) is bent. Large design is a general design concept. The formation of a large buttock may make it difficult for the buttock to slip or rise due to walking or exercise, and the reverse knitting of the buttock tends to be larger than 180 ° of the basic cylindrical knitting. Socks can be seen so that the center of the reverse knitting is directly under the heel. Referring to FIG. 4B, the inverted knitted portion is inserted so as to enclose the heel portion 204 greatly. When the heel part is inserted largely in this way, the leg part and the foot part are angled close to a right angle, and in general, the leg part and the foot part are lowered and difficult to remove. However, a housing portion that is too large to wrap around the rib protrusion is not suitable for a sock for a more specialized competition because it does not provide a fit for the sock on the heel. The sock 201 shown in FIG. 4 (b) is general, and is provided with a mouth portion 202 for inserting a foot, and a leg portion 205 and a foot portion are knitted in a cylinder, and a reverse knitting of a heel portion 204 is largely inserted. Has been. A heel portion 204 formed by inversion knitting is inserted between the leg portion 205 and the sole portion 209 and bent along the foot shape. On the other hand, the leg portion 205 and the upper portion 217 are bent inwardly, and slack occurs in the ankle portion 213. The toe portion 203 is formed into a bag shape by reverse knitting. As a result, the leg portion and the foot portion are close to a right angle and generally have an angle that is difficult to be displaced or removed. The developed view is shown in FIG. In the development shown in FIG. 5 (a), the leg portion 205 is formed by cylindrical knitting with a circular knitting machine or the like from the mouth portion 202, and the heel portion 204 is inverted knitted to form a trapezoid. Fold it back and knitting the trapezoid on the sole side in a similar shape, and then knitting the foot in a cylinder. In this illustrated example, the knitting is reversed by 180 °. The foot part is formed in a cylindrical shape by continuously forming the sole part 209 and the instep part 217, and the toe part 203 is inverted and knitted to form a trapezoid, and is folded at the upper side part of the trapezoid and stitched to the opening on the instep side 217. Thus, a bag-like toe portion 203 is formed. The developed view shown in FIG. 5 (b) shows an example in which inverted knitting is formed at a portion of 180 ° or more. Since FIG. 5 is continuously knitted by tube knitting and reversal knitting, such a developed view is not assembled to manufacture socks, but is a reference diagram that is easy to understand. A trapezoidal inverted knitting portion is symmetrically interposed between the cylindrical leg portion and the torso portion of the foot to form a heel portion. The toe portion is formed by symmetrically forming a trapezoidal inverted knit at the tip of the torso of the foot and turning it back.
Forming the toes according to the foot shape applies a special formation method as disclosed in Patent Documents 3 and 4.
In order to deepen the swelling of the buttocks, it is possible to apply a technique such as inserting a small trapezoidal portion between trapezoids as shown in FIG. A plurality of trapezoids 204 a 1, 204 b 1, 204 b 2, and 204 a 2 are formed between the leg portion 205 and the sole portion 209 by being inverted and knitted. FIG. 6 shows a state in which the inverted knitting is formed in a range of 180 ° or more, and a large and deep wrinkle is formed.

The socks are knitted by a cylindrical circular knitting machine in which needles are arranged in a circle. As for the number of needles, cylinders such as 84, 96, 120, 132, 144, 168, 176, 200, 220 are often used.
FIG. 7 shows an example of the reverse knitting portion of the heel portion of the present invention with respect to a split diagram C of a 200-needle cylinder needle.
When a needle order in one direction is given from the center of the sole side, the present invention is a range in which the reverse knitting is performed for a total of less than 100 left and right, less than 50. For example, in the drawing, an example is shown in which the circular knitting is stopped and the reverse knitting is performed on the left and right, which is a total of 60, and the inverted knitting portion B provided in a sector shape is formed. . Preferably, it is within 40 on the left and right. In terms of angle, it is about 70 degrees or less on the left and right. 30 lines correspond to 55 degrees left and right.
On the other hand, in the example shown in FIG. 5A, the reverse knitting is performed for 100 half.

<Fixing configuration of the sole>
The present invention realizes a configuration that regulates the movement in the length direction of the sole side in order to provide a lower amount of displacement by closely contacting the pedal in a specific region of the Ryukyu portion and the Ryukyu portion. Was examined as a first problem.
Since the toes are folded back and the toes are locked to the tips of the bags, they can be fixed points. The general socks side is inadequate as a fixed point because it has a trapezoidal shape that is conscious of its size regardless of the actual shape of the human heel. When the skeletal structure of the foot (FIG. 8) is observed closely, the ribs extend rearward, and the tips of the ribs protrude as rib protrusions. Assuming that if the structure that locks on the rib protrusions can be formed in the heel part of the sock, it was possible to use it as a fixation point on the heel side, and we worked on the specific structure development of the sock.

As a result, (1) an inverted knitting portion having a small width is formed to serve as a storage portion for rib protrusions, and (2) a strong force is formed by forming an inextensible portion around the inverted knitting. It has been found that even when acting on the heel, since the difficultly stretched portion is arranged so as to wrap around the base of the rib protrusion process, it can be stabilized without detachment.
Reducing the width of the inverted knitting portion can be realized by making it smaller than half of the basic tubular knitting portion (less than 180 °). The shape and volume of the storage portion of the rib protrusions by the inverted knitting portion can be formed by increasing the number of trapezoidal steps. The difficultly extending portion is preferably arranged so as to avoid the Achilles tendon, and prevents the Achilles tendon from being unnecessarily tightened. The storage portion of the rib protrusion process has a bag-like depth, and can secure a shape and volume that can be stored. In many cases, this depth is too shallow in the configuration in which two trapezoids shown in FIG. In this shape, one gore line is formed.
As shown in FIG. 6, the depth can be secured by increasing the number of trapezoids. Gore lines appearing as the trapezoidal hypotenuse alignment line appear as “V-shaped”, “Y-shaped”, and “W-shaped”. Just like a deep gusset.
The difficult-to-extend portion is less likely to be stretched by using a material such as a small stretch fiber or a strong elastic fiber or by a knitting technique, and can be stably adhered to the heel. For example, tuck knitting can be applied as the knitting technique.
By devising this heel part, the structure which can aim at the shift | offset | difference of the length direction of the sole side of a sock and the circumferential direction was implement | achieved by using the toe part and the heel part as a fixing point.
Regulating the movement of the soles is fundamental in sports socks, and can be applied particularly to sports socks such as skates and skis where stability of the feet is required.

<About ankle angle maintenance configuration>
In order to keep the cylinder bent at an obtuse angle, the instep side ankle side absorbed slack caused by bending and realized a structure that would resist when the ankle stretched. .
On the instep side ankle part, by providing a tuck knitting that stitches a plurality of horizontal course yarns together and stitches together, the number of stitches in the longitudinal direction is reduced and the knitting method to squeeze the longitudinal direction is given, and the ankle part By absorbing the slack due to bending, and reducing the number of stitches, the function of regulating elongation was exhibited. That is, tuck knitting is performed on the instep side ankle. Further, by performing knitting with a tuck or the like on the sole portion on the sole side, a function of pulling the sole portion can be exhibited, and the ankle can be urged in the extending direction. The function of keeping the angle of the ankle constant can be improved by co-operating the tuck knitting on the sole portion and the tuck knitting on the instep side. Further, by connecting the tuck knitting on the sole side and the difficultly stretched portion, resistance to elongation on the sole side can be increased.
Tack knitting is not to make a certain stitch when knitting a fabric, but to make a stitch together when knitting the next course, so that the stitch is not escaped from the knitting needle. It is a structure in which a new stitch is made by holding two previous stitches and pulling out the knitting yarn at the same time when the stitch is formed by the next yarn feeding, for example, while holding it with the previous stitch. The number of times of tacking (number of tacks) can be continued 5 to 6 times. When a tensile force acts on the stitch, it can be stretched by changing the shape of the stitch, but since the number of stitches is reduced by the tack stitch, the space of the stitch can be reduced and stretched Since the number of stitches is reduced, resistance to elongation can be exhibited. FIG. 16 shows a reference diagram for tack knitting.
By forming the tack knitting in an appropriate range, the bending angle can be set and the obtuse angle can be urged. This angle is preferably designed to be about 100 to 140 degrees with 120 degrees as the center.
Furthermore, since the sole side is fixed by the heel and the toe portion, it also exhibits resistance against bending of the ankle in the direction of bending to the acute angle side.

<About the composition of the Ryukyu Club and Ryukyu Club>
Since the force concentrates on the sock's and small Ryukyu parts, it forms a bulge that can accommodate the inflated Ryukyu part and the Ryukyu part so that it does not slip between the shoes. It is preferable to provide a non-slip function for imparting high friction to the outer surface under the nail.
As a means for imparting high friction properties, the friction properties can be increased by increasing the ratio of cotton in the blended yarn of cotton and nylon. For example, there is a boucle yarn of 70% cotton and 30% nylon.
Boucle yarn has been developed to enhance the design of sweaters and is also called design twist yarn. Design twisted yarns are twisted yarns provided with a large number of small loops, and are generally used as decorative yarns that give a sense of volume and muffledness. The present inventor has used this design twisted yarn to increase friction by surface irregularities such as small loops. The inventor has developed a sock that increases sliding resistance by weaving a design twisted yarn. By properly using the twisted design yarn, it is possible to provide a sock having a changed frictional resistance on the inner and outer surfaces of the sock. As a result, it is possible to provide a sock that can control whether the slip occurs at the interface between the skin and the sock or whether the slip occurs at the interface between the shoe and the sock. By adjusting the knitting method when adding the design twist yarn and the angle when adding the design twist yarn, the surface on which the design twist yarn appears can be controlled. This makes it possible to determine whether the anti-slip surface is provided on the front or back of the sock. In addition, since some design twisted yarns appear also on the opposite surface, the friction is higher than the portion where the design twisted yarns are not used. The design twist yarn used is preferably a boucle yarn.

<About the configuration of the upper surface>
A general knitting method can be applied to the back side from the ankle to the toe. For sports, it is preferable to have a knitted structure so that the torso of the foot fits securely. By providing a highly breathable part from the back to the side, it is possible to improve the exhaust performance from the sole side covered with shoes and improve the comfort.
Moreover, in order to fix shoes and feet firmly, the upper side is often tightened with a string or a band. Stability can be improved by forming the structure which suppresses a slip on the surface on the back side of socks. Boucle yarn or the like can be used as a means for suppressing this slip.

<Toe>
It is preferable that the toes are formed asymmetrically in accordance with the shape of the toe. Sports socks that are important to be firmly attached to the foot shape are preferably knitted into a shape that conforms to the foot shape. As the knitting method, the method disclosed in Japanese Patent No. 3780354 proposed by the present applicant can be adopted. For example, in a method of knitting a sock by knitting a toe accommodating portion that continuously accommodates a toe in the tubular knitting portion while integrally knitting the sole side portion and the instep side portion with a sock knitting machine When knitting the toe storage part, both the front side part and the back side part of the toe storage part are inverted and knitted while changing the knitting width, respectively, so that a flat substantially trapezoidal shape with a narrower knitting width toward the tip end side of the socks is formed. Between the front side portion and the back side portion, by knitting the knitted portion along the outer shape of the front side portion and the back side portion between the front side portion and the reverse side portion. Can be formed by knitting so as to interpose a knitting portion for normal knitting.
Further, in order to bring the tip of the toe toward the thumb side, the toe accommodating part in the sock knitting machine is in the middle of knitting the knitting part of the forward knitting along the outer shape part of the toe accommodating part by normal rotation of the sock knitting machine. In the knitting needle area for knitting, the back side and the front side, which are the small toe parts that are the tip close to the thumb side, are inverted and knitted while changing the knitting width, respectively, and a flat trapezoidal shape with a narrower knitting width toward the tip end side of the shoe Socks can be produced by knitting as if to make.

<Moisture exhaust measures and foot slip prevention>
In order to avoid wetting due to sweating from the feet, polyester fibers having high water absorption and quick drying properties are used as the main material. On the other hand, polyester easily slips with the foot, and sometimes lacks stability even when a shoe is tightened. Cotton can suppress slipping when the humidity is high, but has a low quick-drying property.
By using polyester as the main material and increasing the ratio of cotton on the surface in contact with the skin, the frictional property can be enhanced by moisture absorption by perspiration. The part that increases the ratio of cotton is centered on the inner side of the sock, the small ball, the top of the back, and the like.
It is preferable that the arch portion, the inner side surface, and the upper side toe portion improve air permeability and release sweat.

<About the overall configuration>
The material is a polyester fiber, and the portion that exhibits the anti-slip function increases the mixing ratio of cotton fibers on the surface portion.
Bicycle socks are designed to fit the shape and movement of a person's foot and are designed to fit the foot well so that there are no extra parts. The leg is short and the insertion slot is sufficient to the top of the ankle.
A material designed to increase frictional resistance is applied to the anti-slip portion by using loops appearing on the surface, using a design twist yarn as a braided yarn. The friction surface can be set by adjusting the degree of looping to the inner or outer surface of the sock. There are various types of design twisted yarns, but boucle yarns are preferred in the present invention. Designed twisted yarn uses two or more yarns with different thickness, color, number of twists, fiber types, etc., and has a unique appearance and texture by changing the yarn feeding speed and the number of twists of these yarns. It is a thread. Design twisted yarn is composed of a core yarn, a tangled yarn that is wound around the core yarn to make an ornament, and a presser yarn that suppresses the collapse of the ornament. Design twisted yarns can be divided into a loop system that continuously supplies the yarn at the manufacturing stage and a knot system that intermittently supplies the yarn. The loop system includes a ring yarn, a loop yarn, a boucle yarn, a snare yarn and a polar yarn. Boucle yarns supply more tang yarns than ring yarns and twist them to form a trap around the core yarn. Thereafter, the yarn is twisted in the opposite direction using a push yarn. You can also make a thread that is small and thin.

<Applicability>
The sock of the present invention is a structure suitable for a sock for a bicycle such as a road race. The relationship between foot and shoes is constant, and it is suitable for socks for exercise, in which force transmission loss and posture collapse are greatly affected by displacement. For example, it is suitable for skating and skiing. In particular, it is particularly suitable for sports such as speed skating, ski jumping, etc. that keep a certain posture and concentrate on the strength of legs.

FIG. 9 shows the socks of the first embodiment.
The sock in this embodiment is basically based on knitting in a cylindrical shape using a sock knitting machine having a cylinder body having 200 needles. As shown in FIG. 7, the heel part 4 is formed by performing inversion knitting on the number of 30 stitches on the left and right sides from the center of the sole side. The bulge by the reverse knitting functions as a storage portion for the rib protrusion process. The stretched part 6 is formed around the inverted knitting part. The difficult extension part 6 holds the base part of the rib protrusion process firmly, and the inverted knitting part promotes fixing stability to the rib protrusion process. In this example, tuck knitting was adopted for forming the difficultly stretched portion. FIG. 9D shows a tuck knitting configuration state. Tack knitting is configured so that two courses are regarded as one stitch and repeated twice. In addition, it is preferable that the difficult extension part 6 is extended to the mouth side so as to avoid the Achilles tendon part.
The foot portion is knitted into a cylindrical shape, and a ball portion 8 including a ball portion and a small ball portion is formed on the toe side of the sole 9. The Ryukyu portion 8 has a configuration in which the anti-slip action is enhanced using a boucle yarn or the like. It is preferable that the Ryukyu part and the small Ryukyu part form a bulge according to the bulge of the foot. Consecutively from the sole side, the number of stitches for 100 stitches is reversed to form a trapezoid of the toe side, and the back side of the similar trapezoid is folded back to form the toe on the instep side. Part 3 is formed.

The instep side is continuously knitted from the leg portion 5 to the instep side 7 of the foot portion. Tack knitting is applied to the ankle portion 13. By tuck knitting, the number of stitches is reduced more than the surrounding flat knitting part, the length direction is shortened, and it is made to match the bending angle of the ankle.
9B and 9C show enlarged details of the ankle portion 13.
FIG. 9B shows a state in which tack portions are formed by alternately combining tack portions and mesh portions. By mixing the tack part and the mesh part, the amount of stuffing of the ankle part can be adjusted, and the excessive pulling to the instep side can be eliminated. A detailed state of the mesh portion and the tack portion is shown in FIG. The mesh part is provided for 2 courses, the tack part is for 6 courses, and 3 courses are tacked and arranged alternately. As a result, the tuck portion is clogged, and it is possible to create a state where the tuck portion is contracted more tightly than the surroundings. In this example, by repeatedly arranging the mesh portion and the tack portion, it is possible to eliminate the tension such as the pulling due to the continuous tack. By balancing the alternate arrangement of the mesh and the tack, it effectively functions to maintain the angle of the ankle centered at 120 °.
Further, when tuck knitting is provided in the arch portion, the arch can be pushed up to maintain the arch and shrink the sole side, and can be biased in the direction of extending the angle of the ankle. By co-operating the upper side tack knitting and the arch tack knitting, it is possible to help keep the ankle flexion angle constant.
Further, the back side 7 is provided with a configuration with improved anti-slip properties.
With this configuration, the heel portion is firmly fixed to the rib protrusion process, and the stability of the sole side is improved between the heel and the toe, and it is possible to transmit the tension force around the vicinity of the heel portion without loss. On the ankle side, the bending angle can be made constant, and a configuration such as a pedal that is suitable for a motion transmitting force with the angle fixed is realized. Furthermore, the anti-slip function provided on the instep side functions to enhance the adhesion to the upper surface of the shoe and increase the stability in the circumferential direction of the foot. The stability in the circumferential direction is further improved by the anti-slip function on both the Ryukyu part and the back side.

  The material is polyester fiber, and boucle yarn mixed with cotton is used on the Ryukyu part and the back side. Further, by blending cotton on the inner surface side of the socks, slipping between the feet and the socks can be reduced due to moisture absorption of sweat.

The socks of Example 2 are shown in FIGS.
The sock 1 shown in Example 2 is for the left foot of the sock having a structure along the left and right foot forms. The toe portion 3 can be formed by the manufacturing method disclosed in Patent Document 3 (Japanese Patent No. 3780354).
FIG. 10 shows the sole side, and FIG. 11 shows the back side. 12 and 13 show a state in which they are worn on the feet.

FIG. 10 showing the sole side is provided with a heel part 4 and an inextensible part 6 disposed around the heel part. The base part of the toe, the small ball part 81 and the small ball part 82 were slightly inflated and formed with anti-slip on the outer surface side. In order to release perspired sweat, highly breathable portions are provided around the legs, the arch, the Ryukyu and the Ryukyu. The respective breathable parts are indicated by reference numerals 52, 53, 92, 93, 94. For the highly breathable portion, a method of knitting a mesh with coarse knitting can be applied. The code | symbol 2 shows the opening | mouth part which inserts a leg, and cylindrical knitting is advanced from the opening | mouth part side.
As shown in the figure, the heel portion 4 is displayed with a width that is approximately half of the tube knitting diameter (100 needles). The number of stitches is set to 60 as in the first embodiment. Further, the difficult extension portion 6 employs tuck knitting as shown in FIG. The number of stitches of the buttocks and the difficultly stretched portion is set to be smaller than half (100 in this example) that is generally mechanically set as a standard. The depth of the collar part 4 can be designed using the technique of adjusting the number of trapezoids shown in FIG.

FIG. 11 showing the instep side shows an ankle portion 13 formed by tuck knitting. The upper side anti-slip portion is appropriately designed as necessary in consideration of the stability of tightening of the shoes. The knitting knitted portion 95 can also be provided on the arch portion. In FIG. 11, since it extends to the toe side in contact with the difficult extension portion 6, it acts to draw the toe side toward the heel side and can be urged in the direction of extending the ankle. By co-operating the knitting on the sole side and the tuck knitting of the ankle, it is possible to help maintain and stabilize the bending angle of the ankle at a specific angle. The tack knitting that constitutes the ankle portion 13 may employ a combination of tack and mesh shown in FIGS.
Although the instep slip prevention is not essential, it can be arranged so as to include a portion corresponding to the intermediate wedge bone or the outer wedge bone shown in FIG. A highly breathable portion continuous with the highly breathable portion provided on the sole side is provided on the side surface and the base of the toe. Highly breathable portions are indicated by reference numerals 52, 53, 72, 73, 74. Furthermore, the small ball portion 82 is disposed along the side surface from the sole side to the instep side.

  The toe 3 has a shape along the left and right foot forms. As in Example 1, the fiber material may be polyester as a main material and the boucle yarn may be cotton as appropriate.

FIGS. 12 and 13 show the wearing state of the sock 1 as a side view. In addition, the display of the high air permeability portion is omitted.
The inverted knitted heel part 4 is shown covering the tip side of the heel of the foot. The stretchable part 6 is arranged around the collar part 4. In this embodiment, the gore line of the collar portion is formed in a “Y shape” as shown in the figure. The difficult extension portion 6 is shown as being extended from the heel side to the calf side of the mouth portion 2 while avoiding the Achilles tendon portion 54 from the heel side to the heel side and from just below the ankle. The Ryukyu part 81 and the small Ryukyu part 82 are arranged at respective positions. A tuck-knitted ankle portion 13 is disposed on the ankle.
The sock 1 of the second embodiment is set so as to be fitted when the ankle angle is around 120 ° in the mounted state. As a result, the sock is suitable for a road race bicycle-specific shoe, and is suitable for maintaining an appropriate ankle angle of about 120 ° with respect to the pedal. The bicycle shoe has a shape of a shoe insole, and a cleat is installed on the outer surface of the shoe sole as shown in FIG. A sock that can smoothly transmit the rotational torque to the pedal can be realized through the cleat with the Ryukyu portion 81 as the center while maintaining the appropriate posture shown in FIGS. 1 and 2C.

1 Socks 2 Mouth 3 Toes 4 Grow 5 Legs 52, 53 Breathable
54 Achilles tendon 6 Difficult part 7 Back side 71 Anti-slip part 72, 73 Breathable part 8 Ryukyu part 81 Ryukyu part 82 Small ryukyu part 9 Sole part 92, 93, 94 Breathable part 95 Stuffed knitting part 13 Ankle part 20 Leg 101 Bicycle sole inner surface 102 Bicycle sole cross section 103 Insole 104 Middle board 105 Bottom board 106 Cleat 200 Foot shape A Socks B Reverse knitting part C Cylinder needle split

Claims (12)

Provide a reverse knitting portion in the collar forming portion in the basic cylindrical portion that is circularly knitted cylindrical, and form the reverse knitting portion in a range of less than 180 ° of the basic cylindrical shape,
Arrange the stretched part around the inverted knitting part,
A knitting part is provided in the longitudinal direction of the front part of the ankle,
A sock for a bicycle characterized in that the bending angle of the foot and the leg is formed to be an obtuse angle by the reverse knitting amount of the heel part and the knitting part formed at the front part of the ankle . The inverted knitting part is a shape that accommodates the rib protrusion process,
The sock for a bicycle according to claim 1, wherein the difficultly stretched portion disposed around the inverted knitted portion is disposed on the heel side of the heel.   The sock according to claim 1 or 2, wherein the difficult extension portion is not provided in the Achilles tendon portion. The sock for a bicycle according to any one of claims 1 to 3, wherein a knitting portion is provided in a longitudinal direction at a sole portion. The sock for a bicycle according to any one of claims 1 to 4 , wherein an anti-slip portion is formed on an outer surface of the Ryukyu portion and the small Ryukyu portion. The socks for bicycles according to any one of claims 1 to 5 , wherein the socks are mainly polyester fiber materials, and cotton fibers are arranged on the inner surface side of the sole. The sock according to any one of claims 1 to 6 , wherein an anti-slip part is provided on the upper part. The sock for a bicycle according to any one of claims 1 to 7 , wherein the sock has a shape along the shape of the left and right feet. The sock for a bicycle according to any one of claims 1 to 8 , wherein a bending angle between the foot and the leg is 100 to 140 °. Socks for bicycle according to any one of claims 1 to 9 bicycle characterized in that it is a bicycle road racing. A sock to be attached to a foot when a bicycle shoe for a road race having an inner surface formed in a recess is formed at a portion where a foot portion of a foot is in contact with a foot portion of a small ball. ,
The toe portion has a left and right foot shape,
Anti-slip is formed on the outer surface of the Ryukyu part and the Ryukyu part,
The sock collar part is formed by reversing knitting at a portion of less than 180 ° with respect to the basic tube part, and a stretched part is formed around the reversing knitting part,
On the ankle side, by forming a contraction by knitting in the length direction,
The heel extends in the length direction, the ankle side contracts in the length direction, and by adjusting this extension and contraction, the bending angle of the foot and the leg is formed as an obtuse angle,
The socks are bicycle socks that follow the shape of the inner surface of the shoe and are biased to an ankle angle suitable for the pedal depression angle. 12. The sock according to claim 11 , wherein the sock is made of polyester fiber as a main material, and cotton fiber is arranged on the inner surface of the sock contacting the sole.