JPS5943144A - Light weight heald - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to the fabrication of belts for looms.

Conventionally, a wire belt 1 as shown in Figure 1 was used as a belt made of wire, but with the invention of innovative looms such as water jets and air jets, the speed of looms has increased, and the number of woven fabrics using synthetic filament yarns has increased. As a result, the tensile force applied to the wire belt has increased, and the warp density has also increased, making it necessary to reduce the thickness of the belt.

Furthermore, due to the increase in the number of ITr11 retractors, there is a rapid shift to flat belts.

However, the flat belt 2 as shown in FIG.
Since it is made of j 8a, stainless steel wire, or stainless steel thin plate, its thickness is less than '5-0.25- in terms of sag.
It is difficult to reduce the length of the belt to less than 1.8, which makes it heavier than a wire belt, and when replacing the belt frame with the 9 machines, it cannot be done by one person like the wire belt, and it takes 2 men to replace the belt frame. It has the disadvantage of requiring people.

Furthermore, it is becoming increasingly difficult to increase the speed of the loom even further.

In order to solve these problems, II developed a light H,4 belt made of composite materials.The embodiments of the present invention will be explained below with drawings. 1 is a plan view, a front view, and a side 1riI view of a light belt showing one embodiment of the invention. FIG.

A large number of filament-like inorganic or organic FA fibers 3 are bundled and injected into a mold forming the shape of the belt as a reinforcing filler, and the synthetic resin 4 is poured into a mold in the form of liquid, slime, mud, or granules. A lightweight belt 5 made of a composite material of fiber 1F and synthetic resin is constructed by injecting it into a mold in powder form, billet form, etc., or putting it into a mold while heating.
b.

Incidentally, the above fibers may be arranged or twisted, and the fiber bundles may be bent or holes may be formed in the eye portions 6 and ear portions 7 according to their shapes. Further, in the eye portion, the eye may be surrounded by fibers 11i f-1ii. Further, a hole may be provided in the portion between the eye portion and the ear ff1s&, or the portion may be bent or bulged.

Fibers used as reinforcing fillers include carbon fiber, glass fiber, boron fiber, silicon carbide fiber, alumina fiber, silicon nitride paper,
i, +1:, tantalum fiber, silica alumina fiber, t(1
The synthetic resin is one or a mixture of two or more synthetic resins such as polycarbonate resin, polyoxymethylene resin, polyamide resin, polyethylene resin, and polyester resin. Use.

In addition to the above-mentioned fibers, as a reinforcing filler, one type of organic or inorganic powder such as carbon black, mica, tar, asbestos, pigment, dye, or extremely short woven material or granular material may be used. Alternatively, two or more types may be mixed and used.

In addition, Fin-based fillers include Al, Mg, re, and N1.
゜Ti, Mn, Cr, Be, Zr, Cu, W, Mn, G
Metals such as o may also be present in II+.

Example 2 FIG. 4 shows another embodiment of the uninvented lightweight belt.

In the belt-shaped mold, fiber-shaped (7) No a W
Or organic fiber 8! ? The lightweight belt 9 made of the composite phase r1 is constructed by inserting it randomly or in the form of a web or sliver, and coloring the synthetic resin 4 in the same manner as in Example 1.

Example 6 FIG. 5 shows l! of the present invention. 11! ) FIG. 3 is a plan view showing another embodiment of the π belt.

Example 4 A lightweight belt 11 made of a composite material is constructed by placing four threads 10 made of inorganic or organic material into a belt-shaped mold and molding the synthetic resin 4 in the same manner as in Example 1. FIG. 6 shows another embodiment of the lightweight belt of the present invention.

A woven or knitted fabric 12 made of yarn made of inorganic or organic fibers is inserted into a belt-shaped mold, and the synthetic resin 4 is molded in the same manner as in Example 1 to form a composite material. A light and heavy belt 157i'-consisting of the following.

Embodiment 5 FIG. 7 shows another embodiment of the uninvented lightweight belt, in which a nonwoven fabric 14 made of inorganic or organic fibers is inserted into a belt-shaped mold, A lightweight belt 15 made of a composite material is formed by molding in the same manner as in Example 1.The composite material of the above example can be punched from a flat plate of an appropriate shape, instead of being made using a wire belt or flat belt mold. It may also be formed by cutting, cutting, etc.Also, a large number of pieces may be produced at the same time using an injection machine, or the belt may be formed by arranging, pasting, or twisting linear or thin plate-shaped composite materials. Since the belt of the present invention is constructed as described above, the specific gravity is lower and lighter than steel or stainless steel, the strength is much greater than that of rope, and the shape can be made thinner. , or it is possible to make it thinner, and by using a lightweight belt, the speed of the loom can be increased,
The wider the belt, the more energy it takes to move the belt up and down is significantly reduced, and the higher the speed and width, the easier it is to transport, prevents rust, and reduces loss of feet. , % L 1lIt, so the replacement cycle can be greatly extended, making this an extremely effective invention.

[Brief explanation of drawings]

FIG. 1 is a plan view of a conventional wire belt, No. 2111-r
) r mouth] is a plane view of a conventional 7 rat belt, and a front view, Fig. 3. 51, 61Z, and 71G are plan views showing other embodiments of the lightweight belt of the present invention. 1.6. Wire belt 2+8. Flat belt 311. Filamentary fiber body 4010 synthetic resin 5.9.11.13,15. , lightweight belt 600. Eye part 70.8 Ear part 81.0m Fiber 106. , Yarn 12 , Woven fabrics and silk fabrics 14 , Non-woven fabric Patent applicant Hiroshi Kanai Agent Hayashi
Qing 1 Ming 1 24

Claims (7)

[Claims] (1) A lightweight belt characterized by being formed from a synthetic resin containing a reinforcing filler, (2) The reinforcing filler is carbon fiber, glass fiber,
Boron lu&le, silicon carbide fiber, aluminum→“fiber,
Silicon nitride rim! rlf, one type of inorganic fiber such as tantal fiber, silica gelmina fiber, or chemical fiber,
The light belt according to claim 1, characterized in that the belt is made of two or more types of fibers. (3) The above-mentioned synthetic resins include polycarbonate resin, poly(3-xylene) resin, polyamide aJ 11, polyethylene resin, polyester resin 11W 11 (7)
The lightweight belt according to claim 1, characterized in that it is made of one or more types. (4) The lightweight belt according to claim 1, wherein the reinforcing filler is made by bundling or twisting a large number of yarns such as filament yarns and spun yarns. (5) The lightweight belt according to claim 1, wherein the reinforcing filler is made of woven fabric, knitted fabric, or nonwoven fabric. (6) The above-mentioned reinforcing filler is carbon braz, "taillight",
11. The lightweight belt according to item 1 of the claimed scope of patent dfj, characterized in that it is made of powder or granules, or two or more kinds of powder, such as asbestos, iron, pigment, dye, etc. (7) The above reinforcing filler is AI, Mg, Fe, N1
-Tx. M n , (:r, Be, Zr, Cu, WlMo, Go
Claim F'f11 Item 1 Item 11&σ) Lightweight belt made of metal such as F'f11.