JP4878798B2 - 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, boots, socks, sandals, and waders having felt soles are used.
These shoes have a plate-like felt shoe sole formed in a shape that matches the shape of the shoe sole, and can be attached to the shoe body or attached and removed for replacement. Shoe soles are also sold.
When such a felt shoe sole is used, slipping during walking is eliminated, but there is a problem that the felt is reduced quickly.

For example, especially at the beginning of use, the heel fiber is pulled out from the back end of the heel and decreases quickly. It may decrease as you touch.
Therefore, the following proposals have been made.

Japanese Patent Application Laid-Open No. 2005-228561 describes that metal staples are stuck on a felt shoe sole.
However, when the staple is provided, even if the wear of the felt is reduced due to the contact with the staple, the felt of the felt is rapidly reduced because the felt of the surrounding area is frayed leaving the metallic staple.
Japanese Utility Model Publication No. 1-1121401

  The problem to be solved is that the sole made of felt in which metal staples are pierced is less likely to decrease due to wear of the felt, but the fibers tend to fray more quickly.

  In view of the above-mentioned drawbacks, an object of the present invention is to provide a felt shoe sole having improved durability by reducing fraying of the sole fiber.

To solve the above problem,
The present invention according to claim 1 is formed with an inclined portion that is inclined to the upper surface side as the corner portion of the rear end portion of the felt shoe sole including the synthetic resin fiber is chamfered and becomes rearward, and the surface of the inclined portion. The gist is that the part is covered with the melt-cured part .

According to the first aspect of the present invention, the inclined portion provided at the rear end portion of the heel portion makes it difficult for the rear end portion of the heel portion to come into contact with the ground during walking, and the melt-hardened portion covering the surface of the inclined portion is easily maintained. For this reason, it is prevented that the fibers are frayed immediately after the start of use, and breakage of the melt-cured portion is prevented.

  Embodiments of the present invention will be described below with reference to the drawings. FIGS. 1 to 3 are first examples, FIG. 1 is a cross-sectional view of a shoe made of felt sole, and FIG. 2 is a perspective view of the bottom side of the felt shoe sole. FIG. 3 is an enlarged sectional view of the rear end of the felt shoe sole.

The felt shoe sole of FIG. 1 is formed integrally with a flexible material such as a synthetic resin such as cloth or urethane, or rubber such as neoprene (registered trademark) (chloroprene). The bottom member 2 is fixed to the lower side, and the 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 pressurizing the plate-like felt material formed by randomly intertwining the fibers into a shoe sole shape. A shoe sole made of cut felt is formed with 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 along the periphery.

The fiber has a fineness of 2 to 40 denier, a fiber length of 10 to 100 mm, and a pressure of 200 to 1000 N / 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, at the surface portion of the bottom surface portion 3a of the felt shoe sole 3 cut from the felt material, the rear end portion of the heel portion is heated and melted at a temperature higher than the melting point of the synthetic resin constituting the fiber, A melt-cured portion A formed by curing is formed.
The melt-cured portion A is a synthetic resin layer having a higher density than the felt portion where the fibers are laminated.

In order to form the melt-cured part A, for example, if the fiber S is polypropylene or polyethylene, the fiber S is heated at 160 to 180 degrees to melt the surface of the bottom part 3a of the felt shoe sole 3 and then cooled or at room temperature. fibers by standing is cured in a state of being welded, fibers from the fibers becomes a holding portion welded portion to hold the fibers restrict the movement of fibers, the surface of the bottom face portion 3a from the state before heating Will not fray. Further, even if the melt-cured portion A is not cured in a state where the fibers are welded, the melted fibers are deformed and cured, whereby the fibers are easily entangled and the mutual movement is restricted.

As shown in FIG. 2, the melt-hardened portion A is formed continuously along the curved portion W formed at the rear end portion of the heel portion at the surface portion of the bottom surface portion 3a of the felt shoe sole 3. Up to the corner 3d, which is a boundary that shifts toward the side surface 3c at the end, is provided.
In this way, by forming along the peripheral edge of the bottom surface portion 3a (region close to the corner 3d), it is possible to efficiently reinforce the portion where the fibers are most likely to fray, and the fiber portion can be left wide at the center side. Slip can be prevented.

  The melt-hardened portion A is formed on the rear end side of the rear end portion of the heel portion, that is, the portion P where the curved portion W connecting the left and right side surfaces of the side surface portion 3c of the shoe sole starts. The felt is most likely to be worn and frayed because it faces toward the side, and it is most effective to provide the melt-hardened portion A in the rear end side region from the portion P where the curved portion W starts.

The above melting is performed by applying hot air to the felt shoe sole 3 with a heating device 4 as shown in FIG. 3, but in addition to this, it may be performed by applying a flame or bringing a heated iron close to or in contact with it. . In addition, the melt-curing part A is attached by applying or spraying synthetic resin of the same or different type as rubber or felt melted by heating, thereby heating and melting the fibers of the sole 3 made of felt, and then may be formed by melting portions of the fiber both felt and the rubber or synthetic resins are cured. At this time, the cured rubber or synthetic resin is flexible, and the felt shoe sole 3 is distorted by the load. This makes it difficult for the fibers to separate even if the fibers move.

Further, the rubber or the synthetic resin adhered to the fibers penetrates into the gaps between the fibers and hardens in the impregnated state to form a holding portion that holds and holds the fibers.
When the amount of rubber or synthetic resin adhered to the fiber is increased, the holding portion forms a layer of rubber or synthetic resin.
Moreover, if the said holding | maintenance part is formed, adhesives, such as a synthetic resin, can be made to adhere and harden | cure to a fiber.

In the first embodiment, the melt-cured portion A is provided on the bottom surface portion 3a of the shoe sole 3, but preferably reaches the corner portion 3d, and extends beyond the corner portion 3d to the side surface portion 3c. Also good.
The melt-cured portion A may be melted so that the fibers remain instead of melting all of the formed range, or a space may be formed in the melt-cured portion A.
If formed in this manner, the melt-cured portion A itself has flexibility, and even if the felt shoe sole 3 is distorted, the melt-cured portion 3 is deformed corresponding to the strain, and the melt-cured portion A (holding portion) can be prevented from being damaged.

Since the melt-hardening part A (holding part) is provided on the surface part side of the bottom part 3a of the shoe sole 3, it wears out during use of the shoe. Large fraying is prevented and wears little by little.
When the melt-cured portion A (holding portion) is worn away, the felt fiber in the portion close to the upper surface portion 3b is grounded to become the bottom surface portion 3a. In this portion, the fiber length of the felt is shortened, Comrade has been pressed by walking so far, making it difficult to fray even if the felt fibers are grounded directly.
Therefore, the melt-curing portion A (holding portion) is not provided on the surface portion of the bottom surface portion 3a of the shoe sole 3, and is not provided so as to reach the upper surface portion 3b side on the opposite side. If it becomes the state pressed by walking, the melt-hardened part A (holding part) becomes unnecessary, so that the felt fibers that can prevent slipping can be directly grounded.

Further, the melt-cured part A may be formed in a recessed part from the other part of the bottom surface part 3a, and may be formed in the recessed part. In this way, the melt-cured part A becomes difficult to be grounded. A is hard to wear out and slipping is prevented.

In the conventional felt shoe sole, the side part 3c on the rear end side of the buttock is tilted to the outside (rear side) during use, and at this time, the corners of the side part 3c on the rear end side of the heel part and the bottom surface part 3a are used. Fraying starts from the felt of the part 3d, and the felt on the front side gradually loosens as a result of this, so the rear end side of the buttock is easy to reduce the felt (fiber) easily. In some cases, the side surface is still thick enough Since the portion 3c is reduced, the shoe body is likely to be in contact with the ground and must be replaced. However, the rear end portion of the bottom portion 3a of the felt shoe sole 3 is reinforced by the structure of the present application, so that the fibers Since it is difficult to fall down and the fibers are difficult to come out and wear is prevented, the durability of the felt shoe sole 3 is improved and it can be used longer than before.
In addition, the melt-cured portion A is formed on the bottom surface portion 3a on the rear end side from the portion P where the curved portion W connecting the left side and the right side of the side surface portion 3c starts, and is not formed on the front end side. The felt (fiber) part is grounded to prevent slipping.

  FIG. 4 is a bottom side perspective view of a felt shoe sole according to the second embodiment.

In the second embodiment, a plurality of melt-hardened portions A1 are formed on the surface portion of the bottom surface portion 3a of the felt shoe sole 3, as shown in FIG. The melt-hardened portion A1 is provided at a slight distance to the corner portion 3d that shifts toward the side surface portion 3c of the rear end portion of the collar portion, but the rear end portion of the collar portion, that is, like the first embodiment, that is, , Formed on the rear end side from the portion P where the curved portion connecting the left and right side surfaces of the side surface portion 3c of the shoe sole starts.
Other configurations are the same as those of the first embodiment.

  5 and 6 show a third embodiment. FIG. 5 is a sectional view of a shoe having a felt shoe sole. FIG. 6 is a perspective view of the bottom side of the felt shoe sole.

  In the third embodiment, a portion corresponding to the corner of the rear end of the felt shoe sole 3 is chamfered to form an inclined portion 3e that is inclined to the upper surface side (the shoe body 1 side) as it becomes rearward. A melt-hardened portion A2 is provided on the surface portion of the portion 3e.

When the corner portion 3d is chamfered and melted and hardened in this manner, it is difficult for the portion to come into contact with the ground during walking, so that the fibers are prevented from fraying immediately after the start of use. Further, when the melt-cured portion A2 is provided in the inclined portion 3e, the inclined portion 3e is difficult to be grounded, and the melt-hardened portion A2 is prevented from being damaged, so that the felt at the rear end of the collar portion is hardly frayed. The inclined portion 3e is provided in the rear end side region from the portion P where the bending portion W starts.

  In the above description, the example in which the felt shoe sole 3 is bonded and fixed to the lower side of the bottom member 2 attached to the lower side of the bottom portion 1a of the shoe body 1 is described. However, both the bottom member 2 and the felt shoe sole 3 are velvet type. Fasteners may be provided to be detachable (replaceable).

The present application can be used for felt shoe soles.

In 1st Example, it is sectional drawing of the shoes of a felt shoe sole. It is a perspective view of the bottom face side of the same felt shoe sole. It is a rear-end part expanded sectional view of the same felt shoe sole. It is a bottom part side perspective view of a felt shoe sole in the 2nd example. It is sectional drawing of the shoes of the sole made from felt in 3rd Example. It is a bottom side perspective view of the felt shoe sole.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Shoe body 3 Felt-made shoe sole 3a Bottom part 3c Side part 3e Inclined part A, A1, A2 Melt hardening part

Claims (1)

A corner of the rear end portion of the felt shoe sole including the synthetic resin fiber is chamfered to form an inclined portion that is inclined to the upper surface side as it becomes rearward, and the surface portion of the inclined portion is covered with a melt-cured portion. felt shoe bottom, characterized in that there.