JPH04136205A - Production of resinous glove - Google Patents

Abstract

PURPOSE:To obtain the title patterned glove of good waterproofness through such processes that a mold with unevennesses on the surface of a molding cavity is heated and thermoplastic synthetic resin powder is injected onto the unevennesses and fused, and the resulting fusion bonded product is gelled and released. CONSTITUTION:A mold 1 with specified unevennesses 3 on the surface of a molding cavity 2 of outer glove shape is heated and synthetic resin powder is injected onto the unevennesses to form a glove-shaped hollow fusion bonded product on the cavity surface. When the fusion bonded product is then gelled and released, the uneven shape on the molding cavity is produced on the glove surface, thus obtaining the objective resinous glove with a desired pattern of uneven surface.

Description

DETAILED DESCRIPTION OF THE INVENTION INDUSTRIAL APPLICATION J Field of the Invention The present invention relates to a method for manufacturing resin gloves, which involves molding the gloves from a synthetic resin material.

``Prior Art'' 41M Gloves are widely used and manufactured by the following means. That is, a flat mold shaped like a hand wearing a resin glove is preheated and immersed in a resin paste tank such as vinyl chloride, and the resin paste is deposited on the surface of the flat mold in the form of a film and then pulled out.

After heat treatment, it is cooled, and the film attached to the flat mold is peeled off by inversion to release the mold, and it is made into a resin glove! Alternatively, a sewing method is used in which PVC leather is sewn together to make gloves.

``Problems to be Solved by the Invention'' The resin gloves manufactured by the former manufacturing method of the above-mentioned conventional means have a seamless integral coating shape, so they have excellent waterproof properties and can be usefully used for sports such as water work. 1. It is not possible to form non-slip jagged edges or various uneven shapes on the surface of the gloves.

In addition to poor anti-slip properties and poor glove function, the dipping method makes it difficult to form a uniform film thickness or thin film.Furthermore, it is complicated to manage the dipping paste's viscosity, prevent air bubbles, etc., and change colors. There is a problem with poor workability.

On the other hand, the latter sewing gloves are made of PVC leather that has been made with U.
Although it is possible to provide anti-slip properties to the glove surface by forming uneven shapes such as anti-slip jagged edges, the presence of seams makes the gloves poor in waterproofness, making them unsuitable for use in sports such as water work. There is.

The present invention provides a method for manufacturing resin gloves that overcomes the problems of the conventional methods described above.

``Means for Solving the Problems J'' The method for manufacturing a resin glove of the present invention which solves the above technical problems has a molding cavity having the outer shape of a glove, "Uneven shape formed on the surface"
A thermoplastic synthetic resin powder is injected into the molding cavity of the heated molding mold, and the synthetic resin powder is fused to the surface of the molding cavity to form a glove-shaped fused product. A method for producing a resin glove, which comprises producing a resin glove, taking out the non-fused synthetic resin powder from the molding cavity, and gelling and releasing the fused material to form a resin glove. ``It has a molded cavity in the shape of a glove.

A thermoplastic synthetic resin powder is injected into the molding cavity of the heated mold using a mold having an uneven shape to be formed on the surface of the glove on the surface of the molding cavity. The synthetic resin powder is fused to the surface of the fused material to form a glove-shaped fused material, and then the unfused synthetic resin powder is taken out of the molding cavity and the hollow part of the fused material in the molding cavity is removed. Injecting a foaming agent-added synthetic resin powder to fuse and form a foamed resin layer on the inner surface of the hollow fused product,
The second invention of method J for manufacturing a resin glove is characterized in that the non-fused synthetic resin powder added with a foaming agent is taken out, and the fused product is gelled and released to form a resin glove.

The above-mentioned irregularities provided in the mold of the present invention include various irregularities formed on the surface of the glove for the anti-slip function of the glove, and various embossed patterns, stitched patterns, and pleats formed for aesthetic purposes on the surface of the glove. This includes things such as irregularities.

"Function J" The above method for manufacturing a resin glove of the present invention uses a mold having a desired uneven shape on the surface of a molding cavity having an outer shape of a glove, and injects synthetic resin powder into the molding cavity. A glove-like hollow fused material is generated on the surface, and the hollow fused material is released from the mold to form a resin glove, so the uneven shape of the molding cavity of the molding mold is formed on the glove surface, resulting in "non-slip jaggedness" and other various types. A pattern consisting of an uneven surface can be formed. Since the molded resin glove forms a continuous integral coating layer, complete waterproofness is ensured.

According to the second invention, it is possible to mold a two-layered resin glove in which a foam layer of synthetic resin is provided on the inside of the resin glove.

Furthermore, according to the manufacturing method of the present invention, it is possible to make the film thickness uniform and thin, and there is no need to take measures to control viscosity or prevent air bubbles during AT manufacturing, and it is easy to change colors, etc. Since it can be done quickly, work management and molding workability are simplified.

“Example J Hereinafter, a detailed explanation will be given based on examples. first.

Referring to FIG. 1, which shows an embodiment of the first invention.

The mold 1 used in the manufacturing method of the present invention has a molding cavity 2 having a full-size outer shape of a glove as shown in FIG. Anti-slip uneven parts and female uneven parts 3 with various uneven patterns are formed at arbitrary positions and in arbitrary sizes. This is a known electroforming mold that is formed by adhering.

Then, it is manufactured using one or more molds 1 according to the following procedure. That is, FIGS. 1(B) to (B) showing the processing procedure.
G), first place the mold 1 in the heating furnace 4 (approximately 25
0° C.) and heated for 10 to 15 minutes, and a thermoplastic synthetic resin powder is mixed and produced using a known super mixer (not shown). The synthetic resin powder used is a copolymer of nylon, vinyl chloride, olefin powder, vinyl urethane, etc. In this example, 50 to 50 parts of plasticizer was added to 100 parts by weight of vinyl chloride resin.
A mixed powder of 120 g, 3 g of stabilizer, and 1 g of pigment was used.

Then, as shown in FIGS. 1(C) and 1(D), a synthetic resin powder tank 6 containing the synthetic resin powder is connected to the lower end opening 5 of the mold 1, and the powder is injected into the molding cavity 2. At the same time, the mold 1 is rotated two to three times to melt the injected powder by the heat retained in the mold 1, thereby forming a uniform and integral film layer on the inner surface of the mold cavity 2. A fused material 7 of the shape is produced.

Subsequently, as shown in FIG. 1(E), the unfused powder in the molding cavity 2 is returned to the synthetic resin powder tank 6, and the synthetic resin powder tank 6 is cut off.

The fused material 7 adhering to the inside of the molding cavity 2 is made hollow.

Next, see FIG. 1(F), the mold 1 is placed in a heating furnace 4 (
(approximately 250° C.) and heated again for approximately 30 to 60 seconds to gel the fused material 7, and then.

After cooling the mold 1 as shown in FIG. 1 (G), the fused material 7
is released from the mold 1 and becomes a resin glove 8.

The embodiment shown in FIG. 1 has the above-mentioned effect, and the resin glove 8 has a film layer of the required thickness that is seamless and continuous, and has "anti-slip unevenness" and various unevenness at the desired positions on the glove surface. Section 9 is formed.

Next, an embodiment of the second invention will be described with reference to FIG. In the embodiment shown in FIG. 2, a foamed resin layer 10 is adhered to the inside of the resin glove 8 of the embodiment shown in FIG. The process of welding thermoplastic synthetic resin powder to the molding cavity 2 of the mold 1 shown in FIG. Same as process.

Then, as shown in FIGS. 2(E) and 2(F), a blowing agent is mixed in advance with a known super mixer in the opening 5 of the mold 1 from which the fused material 7 has been generated and the synthetic resin powder tank 6 has been removed. The foaming agent-added synthetic resin powder tank 11 containing the added synthetic resin powder is connected to inject the powder into the hollow part of the fused material 7, and the mold 1 is rotated two to three times to generate the powder by the residual heat of the mold 1. , the powder is foamed and fused to form a foamed resin layer 10 on the inner surface of the hollow fused object 7. Then, the excess powder is returned to the foaming agent-added synthetic resin powder tank 11, and the synthetic resin powder tank 11 is removed.

Subsequently, the mold 1 having the fused material 7 with the resin foam layer 10 attached to the inner surface core 1 is again placed in the heating furnace 4 (approximately 250° C.) and heated for approximately 60 to 120 seconds to remove the melt in the molding cavity 2. After the kimono 7 is gelatinized and the mold 1 is cooled, the hollow fused article 7 with the foamed resin layer [0] formed on its inner surface is released from the mold to form a resin glove 8.

Note that the blowing agent-added resin powder in this example was
100 parts by weight of vinyl chloride resin, 50 to 100 parts of plasticizer
A mixed powder of 3 g of stabilizer, 1 g of pigment, and 3 to 5 g of blowing agent (azocica-bonamide) is used.

This embodiment in FIG. 2 has the above-mentioned effect, and the surface has uneven portions
A two-layered resin glove having a resin foam layer 10 inside the resin glove 8 having an integral film layer is manufactured. This double-layered resin glove has better cold protection, cushioning, shock resistance, and texture than conventional single-layered resin gloves, improving the performance of the resin glove and allowing it to be applied to new applications.

"Effects of the Invention" As explained above, the method for manufacturing resin gloves of the present invention is as follows:
Resin gloves have anti-slip surface textures and various textured patterns.
It can be freely applied to a base that is completely waterproof, improving performance such as "slip resistance" and improving design value.
This improved performance has many benefits, such as opening up new uses for resin gloves and improving work management and workability compared to conventional resin glove manufacturing methods.

[Brief explanation of drawings]

Figure 1: Shows a method for manufacturing resin gloves according to an embodiment of the first invention, (A) is a conceptual diagram of the mold used therein, (B) to (G
) is a front view showing the processing procedure and processing contents, and Fig. 2 (A
) to (H): Second invention - Front view showing the processing procedure and processing details of the method for manufacturing resin gloves of the example.

Claims (2)

[Claims] (1) Using a mold having a molding cavity shaped like a glove and having an "uneven shape to be formed on the surface of the glove" on the surface of the molding cavity, the molding cavity of the heated molding mold is heated. , by injecting thermoplastic synthetic resin powder,
The synthetic resin powder is fused to the surface of the molding cavity to form a glove-shaped fused material, and the unfused synthetic resin powder is taken out from the molding cavity, and the fused material is gelatinized and released from the mold. , a method for manufacturing a resin glove, characterized in that it is a resin glove. (2) Using a mold having a molding cavity shaped like a glove and having an "uneven shape formed on the surface of the glove" on the surface of the molding cavity, the molding cavity of the heated molding mold is heated. , by injecting thermoplastic synthetic resin powder,
The synthetic resin powder is fused to the surface of the molding cavity to form a glove-shaped fused substance, and then the unfused synthetic resin powder is taken out of the molding cavity and the fused substance in the molding cavity is fused. Injecting a foaming agent-added synthetic resin powder into the hollow part of the kimono to fuse and form a foamed resin layer on the inner surface of the hollow fused product,
A method for producing a resin glove, which comprises taking out the unfused synthetic resin powder added with a foaming agent, and releasing the fused material by gelling it to form a resin glove.