JPH02139402A - Production of work glove having flexible coating film - Google Patents

Abstract

PURPOSE:To easily produce the subject work glove at a low cost by rotating a glove made of knit fabric under heating at a specific temperature, scattering and attaching powder-molding vinyl chloride compound to the rotating glove to melt the powder and curing the coating layer. CONSTITUTION:A glove made of a knit fabric is rotated under heating at about 200 deg.C. A powder-molding vinyl chloride compound composed of PVC, plasticizer, stabilizer and pigment is scattered and attached to the rotating glove without applying pressure, melted on the surface of the glove and heated at 220 deg.C for 2-10min to cure the coating film on the outer surface of the glove. The cured film is cooled to obtain the objective glove. The fallen PVC compound failed in attaching to the glove in scattering can be recovered and reused.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Field of Application) The present invention relates to a method for manufacturing work gloves made of flexible film material.

(Prior art) A patent application filed in 1983 is included in a method for manufacturing work gloves, which is conventionally made by attaching a film made of synthetic rubber or soft synthetic resin to the outer surface of a glove body made of knitted fabric such as knitted fabric. -5
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The above manufacturing method involves applying an oil-repellent treatment to the outer surface of a glove body knitted with a predetermined thread spacing, and then spraying or dropping a synthetic resin paste onto the outer surface of the glove body to apply it without pressure.
This is used to turn this into a gel. Compared to other manufacturing methods, the oil-repellent property of the outer surface of the glove prevents the paste from penetrating into the knitted fabric, making it possible to form a thin film on the outer surface of the glove, which improves the feeling of use. It has the advantage of being able to provide good work gloves.

However, in the above-mentioned Illll method, a synthetic resin paste is applied to the outer surface of the oil-repellent glove body in order to form a thin film, so the manufactured work gloves have poor adhesion of the film to the glove body. The coating itself was weak and could peel off from the glove body after a short period of use.

Further, the above manufacturing method involved many inefficient molding steps such as oil repellent treatment and pressureless application of resin paste.

(Problems to be Solved by the Invention) An object of the present invention is to prevent resin from entering the inside of the knitted fabric of the glove body, form a thin film, and reduce the adhesion of this film to the outer surface of the glove. and to make the molding process more efficient.

(Means for Solving the Problems) In order to solve the above-mentioned problems, the method for manufacturing work gloves with a flexible film of the present invention involves heating a glove body made of knitted fabric to a predetermined temperature and rotating it. holding the glove while holding it, spraying a vinyl chloride powder molding compound onto the glove body, adhering the required amount of vinyl chloride powder molding compound to the outer surface of the glove body, melting it, and then curing it. It is characterized by:

(Function) According to the above means, when the vinyl chloride powder molding compound is sprayed onto the rotating glove body, it adheres to the outer surface of the glove body evenly and under no pressure. The vinyl chloride powder molding compound adhered to the glove body is sequentially melted by the heat of the glove body, forming a thin and uniformly thick film along the outer surface of the knitted fabric.

The film is formed to a predetermined thickness by melting an amount of vinyl chloride powder molding compound on the outer surface of the glove body in proportion to the temperature of the glove body.

Therefore, the heat from the glove body is not sufficiently transferred to the excess vinyl chloride powder molding compound that is sprinkled on top of the film that has reached a predetermined thickness, so it is not melted, and as the glove body rotates, it is not melted. The powder falls from the outer surface of the film and is removed.

Then, the film formed on the outer surface of the glove body is cured and adheres to the outer surface of the glove body.

(Effects of the Invention) As described above, the present invention forms a film by attaching a vinyl chloride powder molding compound to a heated glove body and melting it. Moreover, since the above-mentioned film is formed on the outer surface of the glove body under no pressure, it does not penetrate into the inside of the knitted fabric.

Therefore, a sufficiently thin film can be formed without oil-repellent treatment on the outer surface of the glove body, and even if the film is formed in a thin film form, it will not adhere directly to the knitted fabric of the glove body. Because of this, it has strong adhesion and the film does not peel off like it does with oil-repellent treatments.

Further, since the troublesome oil repellent treatment and pressureless application process of vinyl chloride paste can be omitted, the efficiency of the molding process can be improved.

By adjusting the heating temperature of the glove body, the thickness of the film formed in a molten state on the outer surface of the glove body can be accurately controlled, so the thickness of the film formed after curing can be freely controlled. It is possible to set.

Furthermore, the vinyl chloride powder molding powder that was removed from the glove body without forming a film during film formation was
Since it can be reused many times, there is less loss of raw materials.
In general, since the vinyl chloride powder molding compound that is the raw material for the coating is in powder form, it is much easier to handle during collection and cleaning operations than the vinyl chloride base used in conventional manufacturing methods.

Furthermore, by adding a foaming agent to the powder molding compound, foam gloves can be made and gloves with high heat retention can be obtained.

(Example) Hereinafter, one embodiment of the present invention will be described based on the drawings.

The method for manufacturing the flexible film-equipped work gloves (A) of the present invention includes:
Holding type (B) with glove body (1) made of knitted fabric (1゛)
The glove body (1) is held while being rotated, and the polyvinyl chloride powder molding compound (a'') is sprinkled on the glove body (1), and the required amount of vinyl chloride powder molding compound is applied to the outer surface of the glove body (1). (a'') is deposited and melted, and then cured.

The glove holding mold (B) is formed into a glove shape as shown in FIG. 1, and is rotatably supported by a support shaft (1). On the other hand, the glove body is constructed using a knitted fabric (1') made by knitting 1llllI threads of arbitrary thickness at a desired density, and is attached to the outside of the holding mold (B) and rotates together with the same mold (B). At the same time, the vinyl chloride powder molding compound (a'') is uniformly sprayed from the spraying port (C1) provided above while being heated to about 200° C. by a heat source such as a heating furnace (not shown).

Vinyl chloride powder molding compound (a”) is PVC,
It is a powdered compound containing a plasticizer, stabilizer, and pigment in the ratio shown in the table below, and melts when heated.

The above-mentioned polyvinyl chloride powder molding powder bound (a'') is spread evenly over the glove body (1) while rotating the holding mold (B), so that it covers the entire outer surface of the glove body (1). The vinyl chloride powder molding compound (
a'') is melted by the heat of the outer surface of the glove body (↓) and forms a thin film (a') on the outer surface of the knitted fabric (1') of the glove body (1) (Fig. 2).

Upper skin 11! Since (a') is in a molten state, it becomes thicker as the vinyl chloride powder molding compound adheres to it, but once it reaches a certain thickness, the heat from the glove body (1) is no longer transmitted upward to the outside. Even when the vinyl chloride powder molding compound is sprinkled on the skin FJ (a'), it no longer melts, and as the mold (B) rotates, it falls from the top of the film (a') and is removed. Ru.

Thus, the film (a) formed on the outer surface of the glove body (1)
') is determined by the heating temperature of the glove body (1), and therefore, depending on the temperature setting of the glove body (1), the desired thickness of the film (a) formed on the outer surface of the glove body (1) is determined by the temperature setting of the glove body (1). It becomes possible to accurately form the film to a thickness of .

Skin 1 mentioned above! (a') is the knitted fabric (1') of the glove body (1)
Since it is formed by gradually melting the vinyl chloride powder molding compound that adheres to the knitted fabric, the raw material does not adhere excessively or penetrate into the inside of the knitted fabric.
This prevents sagging or shrinkage and keeps the thickness thin and uniform.

The above-mentioned glove body (1) is heated in an atmosphere of 220°C for 2 minutes or more.
After heating for 10 minutes to cure the outer surface film (a') and cooling, the molded work glove (A>) is demolded.

The molded work glove (A) is composed of a thin and uniformly thick film (a), which provides a flexible feel and is highly durable (Figure 3).

In addition, in the process of dispersing the vinyl chloride powder molding compound (a''), the vinyl chloride powder molding compound (a'') that falls without adhering to the glove body (1) is collected by the receiving tank (C2). It is meant to be reused. In addition, the raw material vinyl chloride powder molding compound (a'
) is in powder form, so it is easier to collect and clean than the PVC paste used in dip molding, and the production equipment and factory interiors are not heavily contaminated by the PVC paste.

[Brief explanation of the drawing]

Figure 1 is a perspective view showing the state in which the vinyl chloride powder molding compound is being sprayed onto the glove body, Figure 2 is an enlarged sectional view showing the film formed on the outer surface of the glove body, and Figure 3 is molding. FIG. In the figure, A: Working gloves a: Film (after curing) a': Film (before curing) a'': Vinyl chloride powder molding compound B: Holding type 1: Glove body 1' Two-knit fabric

Claims (1)

[Claims] A glove body made of knitted fabric is heated to a predetermined temperature and held while rotating, and a vinyl chloride powder molding compound is sprinkled on the glove body to coat the outer surface of the glove body with the required amount of vinyl chloride. A method for manufacturing work gloves with a flexible film, characterized by applying a powder molding compound, melting it, and then curing it.