JPS6279112A - Conveyor belt - Google Patents

Abstract

PURPOSE:To have a conveyor belt with good defoliation of objects transported and with high heat resistance and anti-elongativeness, by forming the belt in mixed texture of polytetrafluor ethylene fiber and a heat resistant fiber. CONSTITUTION:The surface course S of conveyor belt which contacts objects to be transported consists of warps in the form of sheath core, wherein filaments of polytetrafluor ethylene are arranged spirally around nomex filaments, and wefts made of filaments of polytetrafluor ethylene. The rear surface B of the conveyor belt, on the other hand, consists of warps made of nomex filaments and wefts made from metal fiber with approx. 0.19mm in dia. and nomex filaments. This conveyor belt made in such a cloth of double woven texture as described above should be provided with excellent heat resistance and anti- elongativeness.

Description

[Detailed Description of the Invention] The present invention relates to a conveyor belt made of a woven fabric.More specifically, the present invention relates to a conveyor belt made of a woven fabric. It's all about superior conveyor belts.

Conventional ■ Fabrics are joined into an endless shape as a transport device for synthetic resin materials that are heated to extremely high temperatures and become semi-fluid, such as vinyl chloride resin for flooring (commonly known as P-tile), and viscous food materials that are pasty. A conveyor belt is used. Such a conveyor belt needs to have heat resistance and peelability (shape releasability) that can adapt to the temperature and consistency of the conveyed object, and it also needs to have dimensional stability from a mechanical perspective. In order to improve this, it is also required to have low elongation. As a material that satisfies these conditions, a conhair heald is used, which is made by coating and impregnating a fluororesin on a woven fabric made of glass fiber yarn layers. Fluorine resin has extremely high durability against chemicals, is stable even at high temperatures of around 300℃, and is also highly durable against chemicals.
Since the J friction coefficient is extremely small, it is non-adhesive, and the releasability also maintains a practically satisfactory level.

However, in order to coat the surface of glass fiber yarn, glass fiber fabric, heat-resistant fiber yarn, or heat-resistant fiber fabric with fluororesin, an extremely high-temperature processing machine is usually required. This imposes significant restrictions on capital investment.

Furthermore, the glass fiber conveyor belt is made of fluororesin.
After coating the surface, that is, the surface that comes in contact with the conveyed object, the conveyor belt is wound around the rollers of a conveying machine in an end-shaped state, and the end edges are joined to form an endless conveyor belt. Therefore, it is necessary to join the edges of the conveyor belt by some means, but since no adhesive adheres to the surface of the conveyor belt after being coated with fluororesin, joining by adhesive is almost impossible. Also, since glass fiber has low bending strength, it is difficult to bend the edges of the fabric to form a joint, and it is difficult to use an endless conveyor belt unless you use other fiber threads that can form a joint. It was impossible to produce.

The main object of the present invention is to develop a mixed fiber structure of polytetrafluoroethylene fibers and heat-resistant fibers that can solve the above-mentioned problems observed in conventional conveyor belts and their manufacturing methods. The object of the present invention is to provide a conveyor belt with

In view of this purpose, the present invention arranges polytetrafluoroethylene fiber threads on the surface of the conveyor belt, and
The polytetrafluoroethylene hI1. The gist of the invention is a conveyor belt having a woven structure in which layers of fibers and/or polytetrafluoroethylene fibers are reinforced with heat-resistant fibers having low elongation.

By forming the surface of the Yuri conveyor belt with polytetrafluoroethylene fiber yarn, it forms a supporting surface for conveyed objects with excellent heat resistance, peelability [mold release property], and chemical resistance, and also provides reinforcement. By forming the inner layer and/or surface layer of the conveyor belt, which functions as a member, from heat-resistant fibers with low elongation and high strength, the lack of strength and elongation characteristics of the polytetrafluoroethylene fibers is reinforced, In addition, a joint made of warp loops is formed at the joint end of the conveyor belt.

FIG. 1 is a partial vertical sectional view illustrating a conveyor belt according to the present invention. As shown in the figure, the conveyor belt according to the present invention has polytetrafluoroethylene fiber yarn (1) disposed on the surface layer (S) of the conveyor belt that comes into contact with objects to be conveyed, and the back layer (S) of the conveyor heald. It is formed from a woven fabric having a double weave structure in which a well-known Nomex yarn (a trade name of aromatic polyamide fiber manufactured by DuPont, USA) is arranged as a heat-resistant fiber yarn (2) in B). Surface layer (S
) and the back layer part (B) are joined into an integral structure using a part of the polytetrafluoroethylene fiber yarn (1) as a binding yarn. Table 1 below shows the manufacturing conditions for a conveyor belt fabric made of the polytetrafluoroethylene fiber yarn (1) and the low elongation heat-resistant fiber yarn (2).

1. Surface Striking In the above embodiment, as can be understood from FIG. It is composed of a sheath/core warp arranged in a wound shape and a weft made of polytetrafluoroethylene filament yarn, and the back layer part (I3) of the conveyor belt is composed of a warp made of Nomex filament yarn and a weft yarn made of polytetrafluoroethylene filament yarn. A conveyor belt is manufactured from a fabric having a double weave structure composed of metal fibers having a diameter of 0.19 fins and weft yarns made of Nomex filament threads.

FIG. 2 is a diagram showing the strength and elongation characteristics of the fiber yarn used in this example. It is seen that the high elongation of polytetrafluoroethylene fiber yarns is improved by co-twisting with Nomex filament yarns, and that the Nomex fiber system has low elongation and high strength.

However, the gist of the present invention should not be construed as being limited by such illustrative description, and the present invention can include various embodiments as described below.

■A conveyor belt with a fabric layer that has a single weave structure of sheath/core yarn made by covering a core component made of heat-resistant fiber with low elongation with polytetrafluoroethylene fiber.

■Kobe 7 belt with a fabric layer having a double weave structure, with a surface layer made of polytetrafluoroethylene fiber yarn (l and f) and a surface layer made of low elongation heat-resistant fiber yarn.

■A fabric layer conveyor belt with a three-m weave structure, which has a surface layer made of polytetrafluoroethylene fiber yarn, and a middle layer and back layer made of low elongation heat-resistant fiber yarn.

In addition to the above-mentioned Nomex, heat-resistant fibers include
Kevlar (trade name of aromatic polyamide fiber manufactured by DuPont φJ, USA), Conex (trade name of aromatic polyamide fiber manufactured by Tijin), polyimide fiber, polyether ether Kent fiber, etc. can also be used.

According to the present invention, without using special processing equipment,
A conveyor heald having a surface layer with excellent non-adhesiveness (peelability), heat resistance, and chemical resistance is provided. Also,
The disadvantages of high elongation and low strength of polytetrafluoroethylene fibers can be overcome by using heat-resistant fibers with low elongation and high strength, and the dimensional stability and durability of conveyor belts can be greatly improved. It has become possible. The con hair belt according to the present invention can be woven using a general-purpose wide loom, and after weaving, it can be weaved using a weaving machine.
As described in Publication No. 483, a method such as pulling out the weft at the edge of the woven fabric, extending the warp at the core, folding it back, and tucking it into the interior of the woven fabric is adopted as a method for forming the joint. This allows you to create a strong joint.

Thus, the conveyor belt according to the present invention can be used in various industrial fields as it maintains stable conveyance conditions for viscous synthetic resin materials, food materials, and the like.

[Brief explanation of drawings]

FIG. 1 is a partial longitudinal sectional view along the warp direction illustrating a conveyor belt according to the present invention, and FIG. 2 is a diagram showing the strength and elongation characteristics of the fiber yarn used in Example B6. (S)...-Front surface NH1 of conveyor belt (1) - Polytetrafluoroethylene fiber yarn, (B)...- Back layer portion of conveyor belt, (2) - Heat-resistant fiber yarn. Patent applicant: Shikishima Canvas Co., Ltd.
Professor Shogo Ebara ・
-1, -・1) 4 Mutual Figure 2 Procedural Amendment 1, Indication of Case Patent Application 1985-218913
No. 2, Name of the device Conveyor belt 3, Relationship to the case of the person making the amendment Patent applicant address 3-35 Bingo-cho, Higashi-ku, Osaka-shi, Osaka Prefecture
Address Name Shikishima Canvas Co., Ltd. Representative Hisashi Takagi

Claims (4)

[Claims] (1) A polytetrafluoroethylene fiber yarn is arranged on the surface of the conveyor belt, and a layer of the polytetrafluoroethylene fiber yarn and/or polytetrafluoroethylene fiber yarn is formed by a heat-resistant fiber yarn with low elongation. A conveyor belt characterized by having a reinforced woven structure. (2) The conveyor belt according to claim 1, which has a single weave structure of a sheath core yarn in which a core component made of low elongation heat-resistant fibers is covered with polytetrafluoroethylene fibers. . (3) The conveyor belt according to claim 1, which has a double weave structure of a surface layer made of polytetrafluoroethylene fiber yarn and a back layer made of low elongation heat-resistant fiber yarn. . (4) A sheath/core made of a core component made of heat-resistant fiber with low elongation and covered with polytetrafluoroethylene fiber.
The conveyor belt according to claim 1, which has a double weave structure including a surface layer made of yarn and a back layer made of low elongation heat-resistant fiber yarn.