JP2018019745A - footwear - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a running shoe that can reduce a load on muscles and tendons.SOLUTION: The footwear is for running and is provided with a sole 1 and an upper 2. The upper 2 is provided, in an upper part from a foot joint, with an opening 20 for a leg to protrude and with an installation part 21 for installing a rigid part 3 that extends from the instep along the front face of a leg. The upper 2 is also provided with a binding fixture 4 for fitting the rigid part 3 to the instep and the shin. The rigid part 3 is smoothly curved and continuous from the proximal end E1 to the distal end E2, with the position of the proximal end E1 of the rigid part 3 set in a 3-45 cm upper range from the lower end of the inner ankle. The rigid part 3 covers no tip end of the toe, with the position of the distal end E2 of the rigid part 3 set in front from the Lisfranc joint J and in the rear from the IP joint of the big toe and the PIP joint of the second toe.SELECTED DRAWING: Figure 1

Description

  The present invention relates to footwear for running.

  In footwear, a member such as resin extending from the upper surface along the front surface of the leg is known. Many of these members protect the instep from falling objects.

JP08-317806A (FIG. 6) JP5,289,113B2 (FIGS. 1 to 3) JP02-28601U (FIGS. 1 and 2) JP54-10341U (Fig. 1) JP49-16141U (Fig. 1)

When practicing running, the muscles and tendons are stressed. However, the prior art does not disclose running footwear aimed at reducing the load. (For example, Patent Documents 1 to 5).

  Accordingly, an object of the present invention is to provide a running footwear capable of reducing the load on muscles and tendons.

The footwear of the present invention is a running footwear having a sole and an upper,
The upper has an opening from which the leg extends above the ankle,
The upper is provided with a mounting part for mounting rigid parts extending from the upper surface along the front surface of the leg,
The upper has a fastener for fitting the rigid part to the upper and the shin,
The rigid parts are smoothly curved and connected from the proximal end to the distal end,
The position of the proximal end of the rigid part is set in a range 3 cm to 45 cm above the lower end of the inner collar,
The rigid parts do not cover the tip of the toes,
The distal end of the rigid part is set forward of the Lisfranc joint and rearward of the first and second PIP joints.

  In the present invention, the rigid parts extending along the front surface of the leg from the upper surface of the upper surface suppress the dorsiflexion of the ankle joint while being fitted to the upper and the shin. By suppressing the dorsiflexion, the Achilles tendon, soleus muscle, and fascia are prevented from being excessively stretched. Therefore, it can be expected that the load on muscles and tendons is reduced.

In the present invention, “for running” means not only an operation for running on a normal road surface but also a general game involving a running operation such as an athletic competition such as a short distance run or a ball game such as a basket. On the other hand, shoes that cannot run on a normal road surface, such as ski boots, are not included in the “running” shoes in the present invention. As the outsole of the running footwear, in addition to soft urethane and rubber, in the case of a short distance spike, a hard material such as a fiber reinforced material can be adopted.

An ankle joint refers to a joint including an inner heel and an outer heel.
The distal end of the rigid part means the toe end of the part, while the proximal end of the rigid part means the end opposite to the distal end.

Since the proximal end of the rigid part is set in a range of 3 cm to 45 cm above the lower end of the inner collar, the rigid part is pressed against the front surface of the leg when the ankle joint is dorsiflexed. Since the distal end of the rigid part is disposed in front of the Lisfranc joint, the rigid part is pressed against the upper surface of the upper when the ankle joint is dorsiflexed. In this way, the rigid parts abut on the front and upper surfaces of the legs during the dorsiflexion, so that they bend along the legs and feet and suppress the dorsiflexion of the ankle joint.

  The first joint IP joint means the joint joint of the first joint. On the other hand, the PIP joint means a proximal intercostal joint.

By disposing the distal ends of the parts behind the joints, the parts do not press against the IP joint or the PIP joint during running. Therefore, traveling becomes possible.

If the proximal end of the rigid part is too close to the lower end of the inner heel, the ankle flexion may not be sufficiently suppressed. Moreover, the strength of the rigid part can be lowered as the proximal end of the rigid part is farther from the inner collar. From this viewpoint, the position of the proximal end of the rigid part is set to 3 cm or more from the lower end of the inner collar, preferably 5 cm or more, and most preferably 7 cm or more.

  If the proximal end of the rigid part is too far from the lower end of the inner collar, the length of the part becomes unnecessarily long. For this reason, the position of the proximal end of the rigid part is set to 45 cm or less, preferably 35 cm or less, and most preferably 30 cm or less.

It is a perspective view which shows one Example of the shoes concerning this invention with a digital photograph. It is a perspective view which shows a rigid part with a digital photograph. It is a perspective view which shows a rigid part with a digital photograph. It is the longitudinal cross-sectional view of a rigid part, and the schematic side view of the shoes which cut the rigid part. In FIG. 4B, eyelet holes are not shown. It is a perspective view which shows the toe part of an upper and a tongue with a digital photograph. It is a top view which shows the relationship between parts and the skeleton of a leg | foot. It is an outer leg (side) side view which shows the relationship between parts and the skeleton of a leg | foot. It is an inner leg (side) side view which shows the relationship between parts and the skeleton of a leg. It is a bar graph which shows the relationship between the bending | flexion of MP joint, and the load of a muscle or a tendon.

  Preferably, the position of the distal end is set in front of the first and second heel MP joints.

In this case, the rigid part extending forward from the first and second MP joints suppresses the bending of the MP joint. When the MP joint is bent and the ankle joint is dorsiflexed, the Achilles tendon and soleus muscle become stiff. Therefore, by suppressing the bending of the MP joint, the burden on tendons and muscles is reduced.

The position of the distal end is defined only for the portions corresponding to the first and second folds. The reason is that by suppressing the dorsiflexion of the IP, PIP, and MP joints of the first and second heels, the dorsiflexion of the joints of the third to fifth heels can be suppressed.

In addition, MP joint means a joint between metatarsal toes.

Preferably, the position of the distal end of the mounting part is set in front of the MP joints of the first and second heels, and the position of the proximal end of the mounting part is 3 cm to 45 cm from the lower end of the inner heel The upper range is set.

  The function is exhibited by mounting the rigid part on the mounting portion set in this way.

Preferably, the rigid part has an upper part covering the upper part of the foot and a leg part covering the front surface of the leg,
On the upper surface of the upper part and the front surface of the leg part, a deviation suppressing member that is softer than the rigid part and prevents the rigid part from being displaced from the mounting part is attached.

  The rigid parts suppress the dorsiflexion of the foot. Therefore, since this part is hard, it is easy to shift | deviate with respect to footwear. The flexible displacement suppressing member prevents the rigid part from being displaced from the mounting portion. Therefore, it is easy to demonstrate the function of rigid parts.

  Preferably, the rigid part has a narrow portion having a smaller width between the distal end and the proximal end than the width of the distal end and the proximal end.

  Rigid parts along the front of the leg and the top of the upper are curved in cross section. Therefore, a large stress is generated on both edges of the rigid part during dorsiflexion. Therefore, if the width is narrowed by cutting both ends of the curved portion, the narrow portion becomes a shape close to a flat shape, and the stress generated in the narrow portion during dorsiflexion is reduced. Therefore, the durability of the rigid parts is improved.

Features described and / or illustrated in connection with one such embodiment or each of the following examples may be in the same or similar form in one or more other embodiments or other examples, and / or It can be utilized in combination with or instead of the features of other embodiments or examples.

The invention will be more clearly understood from the following description of preferred embodiments with reference to the accompanying drawings, in which: However, the examples and drawings are for illustration and description only and should not be used to define the scope of the present invention. The scope of the present invention is defined only by the claims. In the accompanying drawings, the same part numbers in a plurality of drawings indicate the same or corresponding parts.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the footwear includes a rigid part 3 shown in FIGS. 2 and 3 in addition to a sole 1, an upper 2 and a shoe race (fastening tool) 4.

  In FIG. 4, the footwear is a running footwear. The sole 1 shown in FIG. 4B includes an outsole 11 that is grounded and a midsole 12 disposed on the outsole 11.

The upper 2 has an opening 20 through which the leg extends above the ankles Am and Al (FIGS. 7 and 8). The upper 2 of FIG. 1 is provided with a mounting portion 21 for a rigid part 3 to be described later.

  As shown in FIG. 7, the rigid part 3 is smoothly connected from the proximal end E1 to the distal end E2 along the upper leg surface Ff from the leg front surface Lf. Further, the rigid part 3 is curved in an arc shape as shown in FIG. 6 in the transverse direction along the leg front surface Lf and the upper surface Ff.

7 and 8, the rigid part 3 has an upper portion 30 that covers the upper F of the foot and a leg portion 31 that covers the front surface Lf of the leg L. The rigid part 3 in FIG. 6 has a narrow portion W0. The narrow portion W0 is smaller than the widths W1 and W2 of the proximal end E1 and the distal end E2 in FIG.
Specifically, the width of the narrow portion W0 is set in the range of 30% to 90%, more preferably 45% to 85%, of the width W _max of the widest portion of the rigid part 3, for example. More preferably, the width of the narrow portion W0 is 60% to 80% of the width W _max .

The rigid part 3 is not particularly limited as long as it is an elastic body. For example, a foamed or non-foamed resin mainly composed of a thermoplastic or thermosetting resin can be used. More specifically, polypropylene, fiber reinforced resin, polyurethane, polyethylene, olefin resin, styrene resin, polyamide, or the like can be used. Further, the hardness of the rigid part 3 is, for example, in the range of 40 degrees to 70 degrees in Asker C hardness. The C hardness is a value measured with a C-type hardness meter of JIS K7312. Or the hardness of the rigid part 3 is the range of 60 or more and 80 or less in Shore D hardness, for example. The thickness of the rigid part 3 is, for example, 1 mm to 50 mm. For example, the narrow part W0 of the rigid part 3 may be formed of hard rubber.

As shown in FIG. 4A, a displacement suppressing member 5 and a cushion member 6 are attached to the front and back surfaces of the rigid part 3, respectively. These members 5 and 6 are made of, for example, a resin sponge.

The displacement suppressing member 5 is disposed from the upper surface 30f of the upper portion 30 to the front surface 31f of the leg portion 31 and is more flexible than the rigid part 3 and suppresses the displacement of the rigid part 3 at the mounting portion 21.

The cushion member 6 is softer than the rigid part 3 and is disposed on the lower surface of the upper portion 30 and the rear surface of the leg portion 31. The cushion member 6 has a thick portion at the tip that is thicker than other portions. By providing such a thick part, it is possible to suppress deterioration of the wearing feeling.

In FIG. 7, the position of the proximal end E1 of the rigid part 3 is set in a range 3 cm to 45 cm above the lower end of the inner collar Am. Preferably, the position of the proximal end E1 is set in a range from 5 cm to 35 cm above the lower end of the inner collar Am, and more preferably, the position of the proximal end E1 is in a range from 7 cm to 30 cm above the lower end of the inner collar Am. Is set. Most preferably, the position of the proximal end E1 is set in a range 10 cm to 30 cm above the lower end of the inner collar Am.

As shown in FIG. 6, the rigid part 3 does not cover the tip of the toes. Further, the position of the distal end E2 of the rigid part 3 is set in front of the Lisfranc joint J, and preferably set in front of the MP joints of the first heel B1 to the fifth heel B5.
The distal end E2 of the rigid part 3 is set so as to be located behind the IP joint of the first heel B1 and the PIP joints of the second heel B2 to the fifth heel B5.

The shoe race 4 in FIG. 1 fits the rigid part 3 to the instep F and the shin L in FIG. Note that eyelet holes and hook-type fasteners with which the shoe race 4 of FIG. 1 engages may be provided on the foot portion 22 and the leg portion 23 of the upper 2, respectively.

In the case of this example, as shown in FIG. 1, the mounting portion 21 is constituted by a gap S formed between the inner portion 2 </ b> M and the outer portion 2 </ b> L of the upper 2 and the tongue piece 24. That is, a gap S for inserting the rigid part 3 (FIG. 1) is provided between the inner part 2M and the outer part 2L and the tongue piece 24 in FIG. The inner surfaces (rear surfaces) of the inner portion 2M and the outer portion 2L are in contact with the displacement suppressing member 5. The outer surface of the tongue piece 24 is in contact with the cushion member 6.

The position of the distal end E22 of the mounting portion 21 shown in FIG. 5 is set in front of the MP joints (FIG. 6) of the first and second collars B1 and B2. The position of the proximal end E11 of the mounting portion 21 in FIG. 1 may be set in a range above 3 cm to 45 cm from the lower end of the inner collar Am in FIG. 7, and is preferably set in a range above 5 cm to 35 cm. More preferably, it is set in a range above 7 cm to 30 cm, and most preferably in a range above 10 cm to 30 cm.

Next, how to use the footwear will be described.
As shown in FIG. 1, shoes are worn while the rigid part 3 is mounted on the mounting portion 21 to practice running.

By running, a dorsiflexion state in which the toes and legs approach each other centering on the inner and outer ridges Am, Al in FIGS. Here, in the dorsiflexion state, the Achilles tendon and the soleus stretch and cause a load.

On the other hand, the bending rigidity of the rigid part 3 prevents the upper part 30 and the leg part 31 from approaching each other during the dorsiflexion. That is, the rigid part 3 of FIG. 4 is in contact with the upper surface Ff of the foot and the front surface Lf of the foot of FIG. 7 via the cushion member 6 and the tongue piece 24, and press-contacts at the time of the dorsiflexion. For this reason, the upper F and the shin L are prevented from approaching each other, and the load on the tendon and muscle is reduced.

  In particular, in the case of the present embodiment, the distal end E2 of the rigid part 3 extends further forward than the MP joint. Therefore, the rigid part 3 suppresses the bending of the MP joint. This bending suppression of the MP joint can be expected to suppress an increase in the load on the tendon or muscle. The following tests were conducted to confirm this event.

  First, taping is applied to the foot so that the MP joint of the subject remains largely bent. Next, the ultrasonic propagation velocity is measured in the free state where no load is applied to the ankle joint and in the bent state where the subject is greatly bent (dorsiflexed) within a range where the ankle joint can be moved to the maximum extent, and the speed ratio in both states (%) Was calculated. The results are shown by the white bar graph of FIG.

  On the other hand, taping was performed on the foot so that the subject's MP joint was not bent, and the same test was performed. That is, the ultrasonic wave propagation velocity was measured in a free state where the foot was taped and a load was not applied to the ankle joint and a bent state where the ankle joint was greatly bent, and the velocity ratio (%) was calculated in the same manner. The results are shown by the bar graphs with diagonal lines in FIG.

  It can be seen that the ratio of the propagation velocity before and after the bending of the ankle joint is smaller when the oblique MP joint is not bent, compared with the case where the white joint MP joint in FIG. 9 is bent greatly. Here, the propagation speed of the ultrasonic wave becomes faster as the tissue such as tendon is harder. Therefore, it can be seen that when the MP joint is not bent, the tendon and the like are not easily hardened and the load on the tendon is small.

Therefore, it can be expected that the rigid part 3 that covers the MP joint of FIG. 6 will suppress the bending of the MP joint and, as a result, reduce the load on the tendon and the like generated during running.

However, in the present invention, the distal end E2 of the rigid part 3 in FIG. 6 may be arranged behind the MP joint in some or all of the footpads. In that case, the position of the distal end E22 of the mounting portion 21 of FIG. 1 may be set according to the position of the distal end E2 of the rigid part 3.

Further, the position of the distal end E2 of the rigid part 3 is arranged behind the IP joint of the first heel B1 and the PIP joint of the second heel B2 in the first heel B1 and the second heel B2, respectively. What is necessary is just to be arrange | positioned ahead of a PIP joint about the 3rd collar B3-the 5th collar B5. This is because the movement of the joints is small for these parts.

Further, as shown in FIG. 4A, the cushion member 6 may be thickened at a portion near the distal end E <b> 2 of the rigid part 3. On the other hand, the cushion member 6 on the back surface of the rigid part 3 can be omitted by increasing the cushion of the tongue piece 24.

4A, a material having a large coefficient of friction such as cotton cloth may be attached to the upper surface 30f and the front surface 31f of the rigid part 3.

The mounting portion 21 in FIG. 4B may be configured by the tongue piece 24 itself. As a structure for forming the mounting portion 21 on the tongue piece 24, a pocket for accommodating the rigid part 3 may be provided in the tongue piece 24, or the tongue piece 24 may be separated into two layers and inserted between them. Good.

When such a pocket is provided, there is an advantage that the position of the rigid part 3 is easily stabilized. On the other hand, when the mounting portion 21 is formed between the tongue piece 24 and the foot portion 22 of the upper 2, there is an advantage that it is easy to set an appropriate arrangement of the wearer.

Further, the rigid part 3 may be embedded or mounted separately inside and outside the upper part of FIG.

The rigid part 3 may be produced by compression molding or injection molding so that the thickness can be gradually changed in the longitudinal section or the transverse section. Alternatively, the rigid part 3 may be three-dimensionally molded by bending and deforming a resin plate having a certain thickness.

2 may be a curved cross-sectional shape at the proximal end E1 and the distal end E2, and a flat cross-sectional shape at the narrow portion W0. In this case, it is easy to exert the effect of preventing the cracking of the rigid part 3 and the effect of the leaf spring.

The rigid part 3 in FIG. 3 may be provided with one or a plurality of through holes. The through hole may be provided in the center of the rigid part 3 inside or outside, but may be provided in each of the inside and outside by distributing the inside and outside of the foot.

In order to increase the rigidity of the rigid part 3 in FIG. 4A, a rib may be arranged. Such a rive may be integral with the rigid part 3 or separate.

As described above, the preferred embodiments have been described with reference to the drawings. However, those skilled in the art will readily understand various changes and modifications within the obvious scope by looking at the present specification.
For example, the rigid part 3 may be formed of hard rubber in addition to FRP or metal.
A belt may be employed as the tightening member instead of the shoe race or in addition to the shoe race.
Accordingly, such changes and modifications are to be construed as within the scope of the present invention as defined by the claims.

  The present invention can be applied to running footwear.

1: Sole 2: Upper 20: Opening 21: Mounting part 22: Foot part 23: Leg part 24: Tongue piece 3: Rigid part 30: Upper part 30f: Upper surface 31: Leg part 31f: Front surface 4: Fastening tool 5: Displacement suppressing member 6: Cushion member Am: Inner collar Al: Outer collar B1: First collar B1: Second collar E11: Proximal end E22: Distal end E1: Proximal end E2: Distal end F: Upper Ff: Upper surface of upper L: Sn, leg Lf: Leg whole surface J: Lisfranc joint W0: Narrow part W1, W2: Width (proximal end, distal end)
S: Clearance

Claims (7)

A running footwear having a sole 1 and an upper 2,
The upper 2 has an opening 20 through which a leg extends, above the ankle joint,
The upper 2 is provided with a mounting portion 21 for mounting a rigid part 3 extending from the upper surface Ff along the leg front surface Lf.
The upper 2 has a fastener 4 for fitting the rigid part 3 to the upper F and the shin L,
The rigid part 3 is smoothly curved and connected from the proximal end E1 to the distal end E2.
The position of the proximal end E1 of the rigid part 3 is set in a range 3 cm to 45 cm above the lower end of the inner collar Am,
The rigid part 3 does not cover the tip of the toe,
The footwear in which the position of the distal end E2 of the rigid part 3 is set in front of the Lisfranc joint J and rearward of the IP joint of the first heel B1 and the PIP joint of the second heel B2.   The footwear according to claim 1, wherein the position of the distal end E2 is set in front of the MP joints of the first and second collars B1 and B2.   In Claim 2, the position of the distal end E22 of the mounting part 21 is set in front of the MP joints of the first and second collars B1 and B2, and the position of the proximal end E11 of the mounting part 21 Is set in the upper range of 3 cm to 45 cm from the lower end of the inner collar Am. In Claim 1, 2, or 3, the said rigid part 3 has the upper part 30 which covers the instep F, and the leg part 31 which covers the front surface of a leg,
The upper surface 30f of the upper part and the front surface 31f of the leg part are attached with a displacement suppressing member 5 which is softer than the rigid part 3 and prevents the rigid part 3 from being displaced from the mounting part 21. .   5. The rigid part 3 according to claim 1, wherein the rigid part 3 is disposed between the distal end E <b> 2 and the proximal end E <b> 1 as compared with widths W <b> 1 and W <b> 2 of the proximal end E <b> 1 and the distal end E <b> 2. Footwear characterized by having a narrow portion W0 having a small width.   The footwear according to any one of claims 1 to 5, wherein the position of the proximal end E1 of the rigid part 3 is set in a range 5 cm to 35 cm above the lower end of the inner collar Am.   The footwear according to any one of claims 1 to 5, wherein a position of the proximal end E1 of the rigid part 3 is set in a range of 7 cm to 30 cm above a lower end of the inner collar Am.