AU2021104233A4 - Cuttable and magnetically-adsorbable mesh sheet - Google Patents

Abstract

The present invention provides a cuttable and magnetically-adsorbable mesh sheet and relates to the technical field of mesh sheets. The cuttable and magnetically-adsorbable mesh sheet comprises fiber reinforced plastic bodies and core bodies. The fiber reinforced plastic bodies are connected in a lashing manner; the core bodies are arranged on the inner walls of the fiber reinforced plastic bodies; and a temperature resistant layer is sleeved on the surface of each core body and fixedly connected with the surface of each core body. In the present invention, by arranging protective layers made of an anticorrosive material, interior metals can be protected; by arranging the temperature resistant layers made of an organic polymer material, the present invention has the advantages of fire protection and high temperature resistance and has the characteristic of good ageing resistance; and by arranging the core bodies formed by staggering and winding multiple strands of fiberglass, equipment has the advantage of difficulty in deformation. In the solution, iron wires are added in the fiber reinforced plastic bodies, and are magnetically adsorbable so that the fiber reinforced plastic bodies also have the characteristic of magnetically adsorbable performance.

Description

Description

CUTTABLE AND MAGNETICALLY-ADSORBABLE MESH SHEET

Technical Field

The present invention relates to the technical field of mesh sheets, in particular to a cuttable and magnetically-adsorbable mesh sheet.

Background

Fiber reinforced plastics are also glass fiber reinforced plastics, generally refer to reinforced plastics by using glass fibers to reinforce unsaturated polyester, epoxy resin and a phenolic resin matrix and taking the glass fibers or products thereof as a reinforcing material and is called glassfiber reinforced plastics or fiber reinforce plastic. A great amount of cuttable glass fiber reinforced plastics, including anchor cables, anchor rods, mesh sheets, bolts and nuts, need to be applied in mining operation, and these materials are used for supporting work in earlier stage and may be crushed and brought out together by a mining machine in the mining process. There is a coal washing procedure in the mining flow, aiming to remove impurities and garbage contained in coal mines which are coarsely mined. The bottom of a coal washing pool is magnetic and may adsorb metal impurities in the coal mines, while the fiber reinforced plastic material cannot be adsorbed by a magnet and is difficult to be screened through a coal washing method as the density of the fiber reinforced plastic material is about the same as that of the coal mines. The traditional mesh sheet has the cutting phenomenon so that the usability of the equipment is weakened and normal use of the equipment is not facilitated, and needs to be improved.

Summary

Description

The purpose of the present invention is to provide a cuttable and magnetically-adsorbable mesh sheet for solving the disadvantages in the prior art that there is a coal washing procedure in the mining flow to remove impurities and garbage contained in coal mines which are coarsely mined, the bottom of a coal washing pool is magnetic and may adsorb metal impurities in the coal mines, the fiber reinforced plastic material cannot be adsorbed by a magnet and is difficult to be screened through a coal washing method as the density of the fiber reinforced plastic material is about the same as that of the coals and the traditional mesh sheet has the cutting phenomenon so that the usability of the equipment is weakened and normal use of the equipment is not facilitated. In order to achieve the above purpose, the present invention employs the following technical solution: the cuttable and magnetically-adsorbable mesh sheet comprises fiber reinforced plastic bodies and core bodies. Metal wires are added in the fiber reinforced plastic bodies, wherein the metal wires are magnetically-adsorbable metals, such as iron wires and steel wires; the fiber reinforced plastic bodies are connected in a lashing manner; the core bodies are arranged on the inner walls of the fiber reinforced plastic bodies; a temperature resistant layer is sleeved on the surface of each core body and fixedly connected with the surface of each core body; a compression resistant layer is sleeved on one side, far away from each core body, of each temperature resistant layer and fixedly connected with each temperature resistant layer; and a protective layer is sleeved on one side, far away from each temperature resistant layer, of each compression resistant layer and fixedly connected with each compression resistant layer. Preferably, each protective layer is an anticorrosion material prepared by mixing anticorrosive materials. Preferably, each compression resistant layer is a compression resistant material prepared from a pressure-resistant material. Preferably, each temperature resistant layer is a temperature resistant and fireproof blockage prepared from an organic polymer material.

Description

Preferably, each core body is a material prepared by stacking the metal wires and fiberglass. Compared with the prior art, the present invention has the advantages and positive effects that: In the present invention, the fiber reinforced plastic bodies may be magnetically attracted by magnetic force because the iron wires are added in the fiber reinforced plastic bodies; by arranging the protective layers made of the anticorrosive material, interior metals can be protected; by arranging the compression resistant layers made of the pressure-resistant material, pressure in equipment may be effectively weakened, and the equipment is more durable; by arranging the temperature resistant layers made of the organic polymer material, the present invention has the advantages of fire protection and high temperature resistance and has the characteristic of good ageing resistance; and by arranging the core bodies formed by staggering and winding multiple strands of fiberglass, the equipment has the advantage of difficulty in deformation. In the solution, the fiber reinforced plastic material is adopted and can be easily cut by the equipment; the traditional mesh sheet is relatively difficult to be cut and is inconvenient to be cut, so that the usability of the equipment is improved and normal use of the equipment is facilitated.

Description of Drawings

Fig. 1 is a stereoscopic structural schematic diagram of a cuttable and magnetically-adsorbable mesh sheet proposed by the present invention; Fig. 2 is a partial plane structural schematic diagram of a cuttable and magnetically-adsorbable mesh sheet proposed by the present invention; and Fig. 3 is an interior structural schematic diagram of a cuttable and magnetically-adsorbable mesh sheet proposed by the present invention. Reference signs: 1. fiber reinforced plastic body; 2. protective layer; 3. compression resistant layer; 4. temperature resistant layer; 5. core body.

Description

Detailed Description To understand above purposes, features and advantages of the present invention more clearly, the present invention is further illustrated below in combination with drawings and embodiments. It should be explained that if there is no conflict, embodiments in the present application and the features in the embodiments can be mutually combined. Many specific details are elaborated in the following description for convenience of fully understanding the present invention. However, the present invention can also be implemented in other modes different from those described herein. Therefore, the present invention is not limited by specific embodiments disclosed below in the description. Embodiment 1: as shown in Figs. 1-3, a cuttable and magnetically-adsorbable mesh sheet comprises fiber reinforced plastic bodies 1 and core bodies 5. The fiber reinforced plastic bodies 1 are connected in a lashing manner; iron wires are added in the fiber reinforced plastic bodies 1; the core bodies 5 are arranged on the inner walls of the fiber reinforced plastic bodies 1; a temperature resistant layer 4 is sleeved on the surface of each core body 5 and fixedly connected with the surface of each core body; a compression resistant layer 3 is sleeved on one side, far away from each core body 5, of each temperature resistant layer 4 and fixedly connected with each temperature resistant layer; and a protective layer 2 is sleeved on one side, far away from each temperature resistant layer 4, of each compression resistant layer 3 and fixedly connected with each compression resistant layer. Each protective layer 2 is an anticorrosion material prepared by mixing anticorrosive materials. Each compression resistant layer 3 is a compression resistant material prepared from a pressure-resistant material. Each temperature resistant layer 4 is a temperature resistant and fireproof blockage prepared from an organic polymer material. Each core body 5 is a material prepared by stacking the metal wires and fiberglass.

Description

The whole effects are: by arranging the protective layers 2 made of the anticorrosive material, interior metals can be protected; by arranging the compression resistant layers 3 made of the pressure-resistant material, pressure in equipment may be effectively weakened, and the equipment is more durable; by arranging the temperature resistant layers 4 made of the organic polymer material, the present invention has the advantages of fire protection and high temperature resistance and has the characteristic of good ageing resistance; and by arranging the core bodies 5 formed by staggering and winding multiple strands of fiberglass, the equipment has the advantage of difficulty in deformation. In the solution, the fiber reinforced plastic material is adopted and can be easily cut by the equipment; the traditional mesh sheet is relatively difficult to be cut and is inconvenient to be cut, so that the usability of the equipment is improved and normal use of the equipment is facilitated. The fiber reinforced plastic bodies 1 may be magnetically attracted by magnetic force because the iron wires are added in the fiber reinforced plastic bodies 1. The above only describes preferred embodiments of the present invention, not intended to limit the present invention in other forms. Any of those skilled in the art familiar with the field may change or vary the embodiments through the technical contents disclosed above into equivalent embodiments with equivalent modification for application in other fields. However, any simple amendment, equivalent change and variation made to the above embodiments according to the technical essence of the present invention without departing from contents of technical solutions of the present invention shall still belong to the protection scope of the technical solutions of the present invention.

Claims (5)

Claims

1. A cuttable and magnetically-adsorbable mesh sheet, comprising fiber reinforced plastic bodies (1) and core bodies (5), wherein the fiber reinforced plastic bodies (1) are connected in a lashing manner; metal wires are added in the fiber reinforced plastic bodies (1); the core bodies (5) are arranged on the inner walls of the fiber reinforced plastic bodies (1); a temperature resistant layer (4) is sleeved on the surface of each core body (5) and fixedly connected with the surface of each core body; a compression resistant layer (3) is sleeved on one side, far away from each core body (5), of each temperature resistant layer (4) and fixedly connected with each temperature resistant layer; and a protective layer (2) is sleeved on one side, far away from each temperature resistant layer (4), of each compression resistant layer (3) and fixedly connected with each compression resistant layer.

2. The cuttable and magnetically-adsorbable mesh sheet according to claim 1, wherein each protective layer (2) is an anticorrosion material prepared by mixing anticorrosive materials.

3. The cuttable and magnetically-adsorbable mesh sheet according to claim 1, wherein each compression resistant layer (3) is a compression resistant material prepared from a pressure-resistant material.

4. The cuttable and magnetically-adsorbable mesh sheet according to claim 1, wherein each temperature resistant layer (4) is a temperature resistant and fireproof blockage prepared from an organic polymer material.

5. The cuttable and magnetically-adsorbable mesh sheet according to claim 1, wherein each core body (5) is a material prepared by stacking the metal wires and fiberglass.