JP4878789B2 - Felt soles - Google Patents

Description

  The present invention relates to an improvement in a felt shoe sole used for fishing, exercise, or other leisure activities.

Shoes that have felt soles are used because they can easily get their feet on moss and the like when walking in waterside or underwater such as a river or the sea.
For example, in fishing, various types of shoes such as boots having boots made of felt, boots, socks, sandals, and waders (baka boots) are used.
These shoes have a plate-like felt shoe sole formed in accordance with the shape of the sole of the shoe body, and are bonded to the shoe body or engaged with each other on the shoe body side and the shoe sole side, respectively. A possible velvet hook-and-loop fastener is provided so that the shoe sole can be removed and replaced, and replacement shoe soles are also available.
When such a felt shoe sole is used, slipping during walking is eliminated, but there is a problem that the felt is reduced quickly.
Therefore, the following proposals have been made conventionally.

Patent Document 1 describes that a plurality of holes are provided in the ground contact surface of a felt shoe sole, and the inner surface of these holes is melt-cured.
However, felt soles are so soft that they are grounded along a relatively large area along the ground, and the soles are only pressed directly toward the shoe body. Since the fibers on the side surface of the side have no support on the outside, they move so that the fibers fall down toward the outside of the shoe sole, and the fibers tend to fray and decrease quickly.

For example, when used for fishing, especially at the beginning of use, the toe and heel fibers are pulled out from the corner side near the grounding surface of the side surface, and the decrease is fast, even though the grounding surface side is hardly reduced, The side of the shoe may decrease as the shoe body touches the ground after being used several times.
Japanese Utility Model Publication No. 5-93204

  The problem to be solved is that the contact surface of the shoe sole made of felt is less reduced, but the side surface portion of the shoe sole moves so that the fiber falls down, so that the fiber is easily frayed and decreases quickly.

  In view of the above-mentioned drawbacks, an object of the present invention is to provide a felt-made shoe sole in which the reduction of the side portion of the shoe sole is reduced and the durability is improved.

In order to solve the above-mentioned problem, the present invention according to claim 1 is directed to a bottom surface portion which becomes a ground contact surface of a felt shoe sole, an upper surface portion which is fixed to a shoe body on the opposite side, and a periphery of these side surface portions. The gist is that a reinforcing portion made of rubber or synthetic resin is provided in all the areas that go around this .
The gist of the present invention according to claim 2 is that the reinforcing portion is formed by filling at least part of rubber or synthetic resin between fibers forming a felt shoe sole.
The gist of the present invention according to claim 3 is that the reinforcing portion is formed by attaching a band-shaped reinforcing portion made of rubber or synthetic resin to a side surface portion.

  In the conventional felt shoe sole, the side part falls to the outside of the sole while using it, and at this time, fraying starts from the felt at the corner between the side part and the bottom part, Felt (fiber) is easy to reduce quickly, and in some cases, the side of the shoe is still thin enough to make the shoe body easily touch the ground and must be replaced. According to the present invention, the side surface portion of the felt shoe sole is reinforced so that the fibers are not easily fallen to the outside. Further, since the fibers are difficult to come off and wear is prevented, the durability of the felt shoe sole is improved. .

  According to the present invention, the fibers of the side surface portion of the felt shoe sole are not easily fallen and frayed, so that the durability of the felt shoe sole is improved.

  1 to 8 are first examples, FIG. 1 is a cross-sectional view of a shoe made from a felt shoe sole, and FIG. 2 is a top perspective view of the shoe sole made from a felt. 3 is a perspective view of the bottom surface of the felt shoe sole, FIG. 4 is a partially enlarged sectional view of the felt shoe sole, FIG. 5 is a partially enlarged sectional side view of a modified example of the felt shoe sole, and FIG. FIG. 7 is a sectional view of still another modified example of the felt shoe sole, and FIG. 8 is a sectional view showing an example of attaching the felt shoe sole to the shoe body.

FIG. 1 shows a shoe made of felt, and the shoe body 1 is made of a flexible material such as urethane or neoprene (registered trademark) such as synthetic resin or rubber, and has a foot-shaped bottom 1a, upper 1b, heel 1c and ankle. A portion 1d is integrally formed, a bottom member 2 having a high heel side is fixed to the lower side of the bottom portion 1a, and a felt shoe sole 3 is fixed to the lower side of the bottom member 2. The felt shoe sole 3 is formed by applying a needle punch to an aggregate of synthetic resin fibers such as polypropylene and polyethylene, and further pressing to form a plate-like felt material formed by tangling the fibers randomly. It is formed by cutting in accordance with the bottom shape, and a bottom surface portion 3a to be a ground contact surface, an upper surface portion 3b to be fixed to the shoe body 1 on the opposite side, and a side surface portion 3c are formed along these circumferences.

The fiber forming the felt shoe sole 3 has a fineness of 2 to 40 denier and a fiber length of 10 to 100 mm. And pressure 200-1000N / m < ² >
Is used for a felt material having a density of 0.1 to 0.3 g / cm ³ and a thickness of 5 to 30 mm.

  Furthermore, a synthetic resin material that is the same or different from rubber or felt such as urethane or chloroprene rubber that is heated and melted along the side surface portion 3c of the felt shoe sole 3 cut from the felt material is attached and cooled. Alternatively, the reinforcing portion A is formed on the side surface portion 3c of the felt shoe sole 3 by being left to be fixed at room temperature.

When a melted rubber or synthetic resin material is applied to the surface of the side surface portion 3c of the felt shoe sole 3, a part of the rubber shoe sole 3 enters between the fibers of the felt shoe sole 3 and is impregnated. When cured with, the rubber or synthetic resin material is cured in a state of being filled between the fibers S.
The portion of the felt shoe sole 3 where the reinforcing portion A is formed is formed to be harder than the portion where the reinforcing portion A is not formed (felt portion F).

As shown in FIG. 4, the rubber or the synthetic resin material of the reinforcing portion A is filled between the fibers S, and has a filling layer A1 that takes in the fibers S and connects and fixes the fibers S together. It is possible to prevent the fibers S from coming off or fraying from the surface of the portion 3c.
Moreover, a part of the rubber or the synthetic resin material of the reinforcing portion A forms the surface layer A2 that covers the surface of the side surface portion 3c without part of the fibers S entering between the fibers S, so that the fibers S from the surface of the side surface portion 3c. Fraying is prevented and the fibers S are less likely to fall outward.

The rubber or synthetic resin material of the reinforcing part A is applied while pressing the rubber or synthetic resin material along the side surface part 3c using a spatula or the like. It becomes an impregnated state and can be cured in a state of being filled between fibers.
For example, a sheet member such as a synthetic resin or rubber is provided along the side surface portion 3c, heated, and in some cases, pressed from the outside of the sheet member toward the side surface portion 3c to have the filling layer A1. A may be formed.
As the sheet material, for example, a seam tape of synthetic resin such as urethane used for sealing rain gear or the like can be used. In addition to covering the surface of the side surface portion 3c, the sheet material is heated and melted to enter between the fibers S and impregnate. And cured in a state filled between fibers.
The reinforcing portion A in which the rubber or the synthetic resin material is hardened is formed so as to have flexibility, and returns to its original shape when the load is removed even if it is distorted by the load.

The reinforcing portion A is formed so as to make a round along the side surface portion 3c of the felt shoe sole 3, and passes through the corner portion 3d that changes from the side surface portion 3c to the bottom surface portion 3a, and is indicated by a dotted line in FIGS. Is formed so as to reach the peripheral edge of the bottom surface portion 3a, but the bottom surface portion 3a which becomes the ground contact surface is formed with the reinforcing portion A in the vicinity of the corner portion 3d of the peripheral edge portion, but the bottom surface portion 3a. Since the reinforcing portion A is not formed except for the peripheral portion such as the center side of the surface, the fiber S (felt portion F) on the center side of the bottom surface portion 3a is exposed, so that slipping during walking can be stopped.
Furthermore, since the reinforcing part A is not only made of rubber or a synthetic resin material but also has fibers S, it is less slippery than the case where it is made entirely of rubber or a synthetic resin material.
Further, when the reinforcing portion A is provided from the side surface portion 3c to the corner portion 3d in this way, fraying of the corner portion 3d and the fibers S from the vicinity thereof that can be easily reduced immediately after use can be prevented.

The felt shoe sole 3 formed in this manner is coated with an adhesive on its upper surface 3b and bonded and fixed to the bottom member 2 provided on the lower side of the bottom portion 1a, thereby forming a shoe having a felt shoe sole.
When walking with such shoes, the felt part F and the reinforcing part A are worn together, and the side part 3c is not locally reduced, so that the durability of the felt shoe sole 3 is improved.

FIG. 5 shows a modified example of the reinforcing portion A, in which rubber or synthetic resin material forming the reinforcing portion A is dispersed on the side surface portion 3c, and fibers S are formed on the surface of the side surface portion 3c with the rubber or synthetic resin material. The reinforcing portions A cured so as to be coupled are scattered to prevent the fibers S from fraying.
In this way, the reinforcing portion A may not be provided on the entire side surface portion 3c but may be formed so that the fibers S remain on the surface thereof.
In this case, the rubber or synthetic resin material melted by heating is sprayed onto the side surface portion 3c by using a sprayer or the like and dispersed or infiltrated between the fibers, and then cured by cooling.
When the same kind of material as the fiber S of the felt shoe sole 3 is used, the familiarity with each other is good, and the reinforcing portion A can be firmly attached to the side surface portion 3c.
Further, since the reinforcing portion A is slightly filled between the fibers S in addition to connecting the fibers S, fraying of the fibers S can be prevented also in this respect.
If formed in this manner, the weight of the felt shoe sole 3 can be reduced.

FIG. 6 shows another modified example of the reinforcing portion A, in which the reinforcing portion A is not provided around the side surface portion 3c but is provided on the entire toe side and the heel side of the side surface portion 3c of the felt shoe sole 3. It is provided only on the side.
By providing a part in this way, the weight of the felt shoe sole 3 can be reduced.

FIG. 7 shows still another modified example of the reinforcing portion A, and the reinforcing portion A is provided from the side surface portion 3c to the corner portion 3d of the felt shoe sole 3.
Thus, if the reinforcement part A is provided from the side surface part 3c to the corner part 3d, fraying of the fiber 3 from the corner part 3d and its vicinity, which can be easily reduced immediately after use, can be prevented.

FIG. 8 is a cross-sectional view showing an example of attaching the felt shoe sole 3 to the shoe body 1. In FIG. 8, the felt shoe sole 3 is attached to the shoe body 1 by adhesion, but as shown in FIG. Surface fasteners 4, 5 that can be engaged with each other are attached to the upper surface portion 3 b of the shoe sole 3 and the lower side of the bottom member 2 on the shoe body 1 side so that the felt shoe sole 3 can be detachably fastened to the shoe body 1. In this case, the shoe sole can be easily replaced with a felt felt shoe sole 3 '.
Further, at this time, the reinforcing portion A provided on the side surface portion 3c of the felt shoe sole 3 is formed to be harder than the portion where the reinforcing portion A is not formed (felt portion F). Inadvertent drop-off from the shoe body 1 is prevented.

  9 is a cross-sectional view of a shoe with a felt shoe sole according to a second embodiment, FIG. 10 is a top perspective view of the felt shoe sole, FIG. 11 is a bottom perspective view of the felt shoe sole, and FIG. 12 is a felt shoe. It is a partially expanded sectional view of a bottom.

In the second embodiment, the felt shoe sole 3 has a belt-like reinforcing portion A made of rubber or synthetic resin attached to and fixed to the side surface portion 3c along the side surface portion 3c.
For example, the reinforcing portion A is configured to heat and melt a surface attached to the side surface portion 3c of the member constituting the reinforcing portion A, and attach the surface to the side surface portion 3c so as to be further pressed to configure the reinforcing portion A. The melted portion of the member to be cured is inserted between the fibers S and is cured and attached in an impregnated state.
Therefore, the reinforcing part A is covered with a member constituting the reinforcing part A in which part of A3 cured after melting enters between the fibers and the periphery of the side surface part 3c is not melted.
Therefore, the reinforcing part A having a good appearance can be configured.
Since the reinforcing portion A also surrounds the side surface portion 3c, the fibers S of the bottom surface portion 3a can be prevented from falling outside, and the durability of the felt shoe sole 3 can be improved.
Further, since the reinforcing portion A of the side surface portion 3c is provided so as to reach the corner portion 3d, fraying is prevented immediately after the use of the shoe.
Other configurations are the same as those of the first embodiment.
As described above, when the reinforcing portion A is provided from the side surface portion 3c to the corner portion 3d, the corner portion 3d that tends to decrease immediately after use and the fibers S from the vicinity thereof can be prevented from falling and fraying.

  In the conventional felt shoe sole, the side surface portion 3c is tilted to the outside of the shoe sole while being used, and this causes the side surface portion 3c side to easily reduce felt (fiber S). In some cases, the thickness is still sufficient. Although the side surface portion 3c is reduced while having a taste, the shoe body is likely to be in contact with the ground and must be replaced. However, the configuration of the present application strengthens the side surface portion 3c of the felt shoe sole 3. Since the fibers are less likely to fall down and the fibers S are less likely to fall out and wear is prevented, the durability of the felt shoe sole 3 is increased, and the fibers can be used longer than before.

  In addition, as soon as the use is started, the felt (fiber S) at the corner 3d is greatly frayed, and this causes the side (3c) side to quickly lose felt (fiber S) and lack durability. The portion A is provided so as to reach the corner portion 3d between the side surface portion 3c and the bottom surface portion 3a, so that the decrease in the corner portion 3d immediately after the start of use is reduced, and the portion A is pulled by the fibers S of the corner portion 3d. As a result, the peripheral fibers S are not pulled out, so that the durability of the felt shoe sole 3 is improved and it can be used longer than before.

  When the felt shoe sole is configured as described above, the fibers S of the side surface portion 3c of the felt shoe sole 3 are not easily fallen and frayed, so that the durability of the felt shoe sole 3 is improved.

The present invention is applicable to felt shoe soles.

In the first embodiment, FIG. 1 is a sectional view of a shoe having a felt sole. It is a top surface side perspective view of the felt shoe sole. It is a lower surface side perspective view of the felt shoe sole. It is a partially expanded sectional view of the felt shoe sole. It is a partially expanded sectional side view of the modification of the same felt shoe sole. It is a lower surface side perspective view of other modifications of the felt shoe sole. It is sectional drawing of the further another modified example of the felt shoe sole. It is sectional drawing which shows the example of attachment to the shoe main body of the same shoe sole made from felt. In 2nd Example, it is sectional drawing of the shoes of a felt shoe sole. It is a top surface side perspective view of the felt shoe sole. It is a lower surface side perspective view of the felt shoe sole. It is a partially expanded sectional view of the felt shoe sole.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Shoe body 3 Felt sole 3a Bottom part 3c Side part A Reinforcement part

Claims (3)

Reinforcing parts made of rubber or synthetic resin in the bottom part that becomes the ground contact surface of the felt shoe sole, the upper part that is fixed to the shoe body on the opposite side, and all the areas that circulate around these side parts Felt shoe sole characterized by providing 2. The felt shoe sole according to claim 1 , wherein the reinforcing portion is formed by filling at least a part of rubber or synthetic resin between fibers forming the felt shoe sole. The felt shoe sole according to claim 1 or 2, wherein the reinforcing portion is formed by attaching a band-shaped reinforcing portion made of rubber or synthetic resin to a side surface portion.