JPH0698045B2 - Method for manufacturing abrasion resistant soles - Google Patents

Description

Detailed Description of the Invention [Industrial applications]

The present invention relates to a method for manufacturing a wear resistant sole, and more particularly to a method for manufacturing a wear resistant sole in a very simple manner.

[Prior art]

Shoe soles made of general-purpose rubber or plastic, for example, tend to wear out due to the walking behavior of the wearer, etc. Often comes to present. Therefore, generally, a metal piece and a fine ceramic piece, which are hard to wear, are attached to the places where the pieces are easily worn.

[Problems to be Solved by the Invention]

The metal pieces, fine ceramic pieces, etc. have poor adhesiveness, and are devised such as hitting them with nails, etc., or making them reverse taper so as not to come off, and the places to be attached are limited or the process becomes complicated. It had a shortcoming. The present invention aims to produce wear-resistant shoe soles by a method which does not have the abovementioned disadvantages.

[Means for Solving the Problems]

According to the present invention, in order to solve the above-mentioned object, a porous fine ceramic piece is fixed to a predetermined portion of the lower mold cavity by an appropriate method, the shoe sole material is filled, and the upper mold is combined with an appropriate condition. It is a manufactured wear-resistant shoe sole characterized by being cured by. The lower mold cavity portion includes not only a single body but also a combination body with a side mold. Natural rubber, synthetic resin, etc. are appropriately used for the sole material. The number of cells in the three-dimensional mesh structure of alumina, zirconia, zirconia armlite, etc. An average value of 6 to 40 and a cell range of 4 to 44 are optimal.

[Action]

Since the fine ceramic piece used in the present invention is the porous body as described above, when the shoe sole material is hardened in the lower mold cavity, the shoe sole material penetrates into the cell, so-called Anchoring effect occurs and the fine ceramic pieces adhere firmly to the sole.

【Example】

Prepare a sock bottom mold (temperature: 40 ° C) that has an approximately oval-shaped bulkhead (height: 3 mm, thickness: 0.7 mm) of about 20 mm x 10 mm on the outside of the heel of the cavity. Inside this partition, the same shape as the partition and the thickness
Fit a 5 mm porous fine ceramic piece, put a predetermined amount of liquid mixture containing bretine adipate-based polyester polyol, 1.4-butanediol, and methylene diisocyanate as the main components and cover with the upper mold (temperature 40 ° C). It was pressed and compressed for 0.5 minutes at 0.5 kg / cm ² , cooled and taken out to obtain a foam-hardened wear-resistant shoe sole.

【effect】

It was a very simple method that did not require any bonding process, and a shoe sole that was much more wear resistant than metal, and was hard to slip even during rainfall, was obtained. By the way, an actual footwear test was conducted in which the person walked on average for about 2 hours a day and continued for 3 months, but there was almost no wear, and of course, the fine ceramic pieces did not fall off from the heel portion of the sole.

Claims (1)

[Claims] 1. A method in which a porous fine ceramic piece is fixed to a predetermined portion of a cavity of a lower mold by an appropriate method, a shoe sole material is filled, the shoe is combined with an upper mold, and cured under appropriate conditions. Method for manufacturing wear resistant soles.