JPH056505B2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a method of forming a support piece for a conveyed object in a conveyor belt, and more specifically, in a conveyor belt that conveys the conveyed object to a high place, etc. The present invention relates to a method of forming a support piece for a conveyed object for attaching the support piece to a conveyor belt.

(Prior Art) A conveyor belt that conveys an object to a high place is provided with support pieces that support the object in the width direction of the conveyor belt. For example, the conveyor belt 2 shown in FIG.
1, the conveyed object H is supported by the support piece 22 and conveyed upward. As shown in FIG. 7, the supporting piece 22 for the conveyed object H is, for example, in the case of a belt base material 24 made of polyester carrying cloth, a pre-formed synthetic resin supporting piece 22 is high-frequency welded at its overhanging part 23. . See welded portion 22A in FIG.

(Problems to be Solved by the Invention) However, as shown in FIG.
3, a welded portion 22A is provided, and the support piece 22
Since the area directly under the belt base material 24 is not welded,
There was a problem that the support piece 22 had a weak adhesion to the conveyor belt 21, and the support piece 22 could come off or break during use of the conveyor belt 21. In addition, in the case of high frequency welding, for example, as shown in FIG. 8, in the case of the support piece 25 without an overhanging part, the welded part 25A of the high frequency welding is only at the outer peripheral part of the lower end, and the adhesion to the belt base material 24 is very weak. A problem arose.

SUMMARY OF THE INVENTION Therefore, the present invention aims to solve the above-mentioned problem of poor adhesion in the conventional art. The present invention provides a method for forming a support piece for a conveyed object in a conveyor belt.

Further, the present invention provides a method for forming a support piece in a conveyor belt, in which the support piece is fixed to the belt base material at the same time as the support piece is formed, so that the trouble of attaching the support piece can be omitted. Furthermore, when the support piece is closely attached to the belt base material by high-frequency welding, the part of the belt base material near the support piece is also melted, so there is a problem that the finished product is not beautiful, but the present invention solves this problem. This can also eliminate inconveniences.

(Means for Solving the Problems) The means of the present invention is to place an injection mold for molding a supporting piece of an object onto a resin-adhesive belt base material so that the molding part is in a sealed shape. The method is such that the molding section and the belt base material surface covered by the molding section are heated by supplying hot air into the molding section, and then the synthetic resin is injection molded into the molding section of the injection mold.

(Function) The molding part of the injection mold placed on the belt base material and the surface of the belt base material covered with the molding part are heated by hot air. The injection molding resin flows well in the heated molding part, and the heated belt base material surface improves the adhesion of the injection molding resin. In injection molding, the molded part is filled with synthetic resin, a predetermined support piece is formed, and the support piece is welded to the belt base material over the entire attachment surface.

(Example) Hereinafter, an example of the present invention will be described based on FIGS. 1 to 5.

An injection mold 4 is placed on a belt base material 1 having a predetermined length and a predetermined width. The belt base material 1 is made of a resin-adhesive material such as a cloth body, a cloth body impregnated with a thermoplastic resin, a cloth body lined with a thermoplastic resin layer, or a synthetic resin sheet. The body 2 is lined with a vinyl chloride layer 3. The injection mold 4 is made of a normal mold material, the molding part 5 is a recessed part for forming the support piece 11 in the width direction of the belt base material 1, and the molding part 5 has a resin injection hole 6. , and an appropriate number of pores 7 (one is shown in the drawings relating to this example) for venting internal air. (See Figure 1). An air supply nozzle 8 for heating air is connected to the resin injection hole 6 of the disposed injection mold 4, and heated air is supplied into the molding section 5. Note that a portion of the air and heated air within the molding section 5 is discharged from the pores 7 of the molding section 5. Molding part 5 and belt base material surface 3A covered by molding part 5
is heated by hot air. The surface of the belt base material surface 3A covered by the molding section 5 is heated by the hot air, and the synthetic resin portion of the belt base material 1 is softened or melted. After that, remove the air supply nozzle 8,
The resin injection nozzle 9 of the injection mold 4 is connected and the heated molten resin 10 is filled into the molding part 5 into which the resin is injected under pressure. Note that the air inside the molding section 5 is absorbed through the pores 7.
more excreted. Since the inside of the molding section 5 is heated in advance, the flow of the injected molten resin 10 is good, and since the belt base material surface 1 inside the molding section 5 is heated or softened and melted by heating, the injected molten resin 10 flows smoothly. The adhesiveness of the resin 10 is good (see the welded part 11A in FIG. 3). In this example, hot air at 70 to 80°C is forced into the molding part 5 to heat the molding part 5 surface of the injection mold 4 and melt the vinyl chloride layer of the belt base material 1 (belt base material surface 3A). After that,
The support piece 11 was molded by injecting vinyl chloride into the molding part 5.

The moldability of the support piece 11 was good, and the adhesion to the belt base material 1 was also strong. Similarly, support pieces 11 to 11 are placed on the base belt 1 at predetermined intervals.
is formed. Although the supporting pieces 11 to 11 were sequentially formed one by one on the belt base material 1 in the above-described embodiment, the supporting pieces 11 were formed using an injection mold (not shown) having a plurality of molding parts at predetermined intervals. . A plurality of support pieces can be molded at the same time.

A belt base material 1 on which support pieces 11 to 11 are formed,
That is, the conveyor belt 12 is used in exactly the same way as usual.

The support piece 11 in this example has a shape that does not have an overhang at the attachment part and is fixed to the belt base material 1 by molding. However, the shape of the support piece 11 is not limited to this example, and for example, as shown in FIG. As shown, a support piece 15 having projecting parts 14 to 14 at the attachment part
can be molded in the same manner as in the above embodiment. In addition, in FIG. 5, 16 is an injection mold,
17 is a molding part, 18 is a belt base material made of cloth,
15A is a bonding part, and 20 is a cooling hole (cooling pulp). The mold shown in FIG. 5 has cooling holes 20 on the side in contact with the belt base material 18, so when continuous molding is performed, cooling water flows through the cooling holes 20, and the belt base material 18 is heated with hot air in the molding section 17. It is possible to prevent the surface from being heated and melted.

(Effects of the Invention) In the present invention, an injection molding die is placed on the belt base material, and a synthetic resin is injected into the molding part of the injection molding die, so that molding of the support piece and fixing to the belt base material can be performed at the same time. possible, and the operation of attaching the support piece is easy. In the present invention, hot air is supplied to the molding part of the injection mold to heat the molding part prior to injection molding, so the moldability of the resin is good, and the mounting surface of the support piece of the molded resin is attached to the belt base. It is fully adhered to the material and can provide strong adhesion of the support piece.

In addition, since the present invention uses injection molding to adhere the support piece to the belt base material, unlike the case where the support piece is adhered to the belt base material using conventional high-frequency welding, there is no welding trace formed on the outer periphery of the support piece, resulting in a beautiful appearance. It has the advantage of finishing.

[Brief explanation of the drawing]

Figures 1 to 5 show examples of the present invention, in which Figure 1 is a layout diagram of an injection mold, Figure 2 is a diagram of an injection molding process, and Figure 3 is a diagram showing how a support piece is molded. FIG. 4 is a side sectional view of the belt base material, FIG. 4 is a perspective view of the conveyor belt, and FIG. 5 is a diagram of the forming process of the separate support pieces. Fig. 6 to Fig. 8 show conventional examples, Fig. 6 is a schematic diagram of a conveyor belt, Fig. 7 is a welding state diagram of a support piece and a belt base material, and Fig. 8 is a diagram showing a welding state of a support piece and a belt base material. It is a welding state diagram of a belt base material. 1, 18... Belt base material, 4, 16... Injection mold, 5, 17... Molding part, 6... Resin injection hole,
8...Air supply nozzle, 9...Resin injection nozzle,
10... Molten resin, 11, 15... Support piece, 12
...Transportation belt.

Claims (1)

[Claims] 1. An injection mold for molding the supporting piece of the transported object,
The molded part is placed on a resin-adhesive belt base material in a sealed manner, and hot air is supplied into the molded part to heat the molded part and the surface of the belt base material covered by the molded part, and then A method for forming a support piece for a conveyed object in a conveyor belt, the method comprising subsequently injection molding a synthetic resin into a molding part of an injection mold.