CN201259030Y - Ceramic rubber and ceramoplastic wear resistant composite pipe - Google Patents

Abstract

The utility model discloses a ceramic rubber and ceramic plastic abrasion resistant compound pipe; a rubber and/or plastic reinforcing layer is arranged on the inner surface or the outer surface of the body of the ceramic rubber (ceramic plastic) compound pipe; a metal or fiber reinforcing layer is arranged on the inner surface or the outer surface of the body of the ceramic rubber (ceramic plastic) compound pipe. The body of the ceramic plastic compound pipe comprises a straight pipe, a syphon, a pipe tee T or a special pipe. The utility model solves the defects of the complex manufacture technique and poorer abrasion resistance existed in the existing abrasion resistant ceramic pipe; the body of the ceramic rubber and ceramic plastic compound pipe is in an integral structure; the utility model has the advantages of simple technique, convenient manufacture, low cost and better abrasion resistance. The rubber and/ or plastic reinforcing layer of a pipe fitting can effectively improve the integral impact resistance of the pipe fitting, thereby being more capable of improving the service life of the pipe fitting. The integral quality of the pipe fitting is light, thus being beneficial to transportation and mounting. As the rubber or plastic has better welding and cementation performances; therefore, the field mounting and connecting is convenient.

Description

A kind of ceramic-rubber, ceramoplastic wear-resistant composite tubes

Technical field

The utility model belongs to engineering element or component technology field.Be applicable to the powder material of industries such as thermal power generation, mine, coal, metallurgy, building materials and chemical industry and the conveying of slurries body.

Background technique

In the mine, industry such as metallurgy, coal, electric power and environmental protection need be with a large amount of wear-and corrosion-resistant pipelines.Existing wear-and corrosion-resistant pipeline has the wear-proof metal ceramic pipe, and its outer wall generally adopts thick-wall metal pipes, and liner is a ceramic plate, the inorganic or organic adhesive connection of middle employing, and it has higher wear resistance and impact resistance, satisfies the service-strong requirement substantially.But it also has deficiency, at first is its complex manufacturing technology, and ceramic plate at the often very difficult smooth surface that forms of the circumferential and axial of pipeline, causes local assault power bigger in the process of pasting, and wear-resisting property reduces, thereby influences the working life of homogeneous tube; Next is that Corrosion Protection is relatively poor; The 3rd, Heavy Weight, transportation, installation cost height.

Summary of the invention

The purpose of this utility model is provide at above-mentioned deficiency a kind of simple in structure, cost is low, service-strong ceramic-rubber, ceramoplastic wear-resistant composite tubes.

Technical solution of the present utility model is: internal surface or outer surface at the compound body of ceramic-rubber have rubber and/or plastics enhancement layer.

Technical solution of the present utility model also is: the internal surface of the compound body of ceramic-rubber or outer surface have metal or fiber-reinforced layer.

Another technical solution of the present utility model is: internal surface or outer surface at the compound body of ceramoplastic have rubber and/or plastics enhancement layer.

Technical solution of the present utility model also is: the internal surface of the compound body of ceramoplastic or outer surface have metal or fiber-reinforced layer.

Ceramoplastic described in the utility model, the compound body of ceramoplastic comprise straight tube, bend pipe, three-way pipe or steel tubing in different shapes.

The utility model can be made the inside and outside enhancement mode ceramic-rubber, the pottery that satisfy industry requirement respectively and mould wear-resistant composite tubes.

Compared with prior art, the utility model is owing to adopted said structure, and the compound body of ceramic-rubber or ceramoplastic is an overall structure, and technology is simple, and is easy to make, cost is low, and the wear-and corrosion-resistant performance is better.The rubber of pipe fitting and/or plastics enhancement layer can improve the shock resistance of pipe fitting integral body effectively, thus the working life that more can improve pipe fitting.The pipe fitting total quality is light, helps transportation and installs.Because of rubber or plastics have welding, bonding capacity preferably, so easy for site installation and connection.

Description of drawings

The embodiment who provides below in conjunction with accompanying drawing further specifies the utility model.

Fig. 1 is embodiment's 1 structural representation of model utility.Fig. 2 is embodiment's 2 structural representations of model utility.Fig. 3 is the compound straight tube schematic representation of embodiment's 1 outer enhancement mode ceramic rubber wear-resisting.Fig. 4 is embodiment's 1 outer enhancement mode ceramic rubber wear-resisting composite-curve schematic representation.Fig. 5 is the compound three-way pipe schematic representation of embodiment's 1 outer enhancement mode ceramic rubber wear-resisting.Fig. 6 is the wear-resisting compound reducer pipe schematic representation of embodiment's 1 outer enhancement mode ceramoplastic.Fig. 7 is the wear-resisting compound straight tube schematic representation of embodiment's 2 internal reinforcing type ceramoplastics.Fig. 8 is the wear-resisting composite-curve schematic representation of embodiment's 2 internal reinforcing type ceramoplastics.Fig. 9 is the wear-resisting compound three-way pipe schematic representation of embodiment's 2 internal reinforcing type ceramoplastics.Figure 10 is the compound reducer pipe schematic representation of embodiment's 2 internal reinforcing type ceramic rubber wear-resistings.Figure 11 is embodiment's 3 structural representations of model utility.

Embodiment

Among Fig. 1, the compound body 1 of ceramic-rubber (or ceramoplastic) is that the ceramic particle with sinter molding is mixed in proportion in the rubber (plastics) and is composited.The compound body 1 outer surface cast of ceramic-rubber (or ceramoplastic) rubber enhancement layer 2, or, make outer enhancement mode ceramic-rubber (or ceramoplastic) wear-resistant composite tubes at the gluing rubber pipe formation of compound body 1 outer surface of ceramic-rubber (or ceramoplastic) rubber enhancement layer 2.

Among Fig. 2, the compound body 1 of ceramic-rubber (or ceramoplastic) is that the ceramic particle with sinter molding is mixed in proportion in the rubber (plastics) and is composited.The compound body 1 internal surface cast of ceramic-rubber (or ceramoplastic) rubber enhancement layer 2, or, make internal reinforcing type ceramic-rubber (or ceramoplastic) wear-resistant composite tubes at the gluing rubber pipe formation of compound body 1 internal surface of ceramic-rubber (or ceramoplastic) rubber enhancement layer 2.

Among Fig. 3, Fig. 4, Fig. 5, the compound body 1 outer surface cast of ceramic-rubber rubber enhancement layer 2 is made the compound straight tube of outer enhancement mode ceramic rubber wear-resisting (Fig. 3), outer enhancement mode ceramic rubber wear-resisting composite-curve (Fig. 4), the compound three-way pipe of outer enhancement mode ceramic rubber wear-resisting (Fig. 5).

Among Fig. 6, the gluing rubber pipe of compound body 1 outer surface of ceramoplastic forms rubber enhancement layer 2, makes the wear-resisting compound reducer pipe of outer enhancement mode ceramoplastic.

Among Fig. 7, Fig. 8, Fig. 9, compound body 1 internal surface of ceramoplastic waters injection molding composition enhancement layer 2, makes the wear-resisting compound straight tube of internal reinforcing type ceramoplastic (Fig. 7), the wear-resisting composite-curve of internal reinforcing type ceramoplastic (Fig. 8), the wear-resisting compound three-way pipe of internal reinforcing type ceramoplastic (Fig. 9).

Among Figure 10, compound body 1 internal surface of ceramic-rubber waters injection molding composition enhancement layer 2, makes the compound reducer pipe of internal reinforcing type ceramic rubber wear-resisting.

Among Figure 11, the compound body 1 of ceramic-rubber (or ceramoplastic) is that the ceramic particle with sinter molding is mixed in proportion in the rubber (plastics) and is composited.Compound body 1 outer surface of ceramic-rubber (or ceramoplastic) has metal enhancement layer 2, makes outer enhancement mode ceramic-rubber (or ceramoplastic) wear-resistant composite tubes.

Claims (6)

1, a kind of ceramic rubber wear-resisting composite pipe is characterized in that: the internal surface of the compound body of ceramic-rubber (1) or outer surface have rubber and/or plastics enhancement layer (2).

2, a kind of ceramic rubber wear-resisting composite pipe according to claim 1, it is characterized in that: the compound body of described ceramic-rubber (1) comprises straight tube, bend pipe, three-way pipe or steel tubing in different shapes.

3, a kind of ceramic rubber wear-resisting composite pipe is characterized in that: the internal surface of the compound body of ceramic-rubber (1) or outer surface have metal or fiber-reinforced layer (2).

4, a kind of ceramoplastic wear-resistant composite tubes is characterized in that: the internal surface of the compound body of ceramoplastic (1) or outer surface have rubber and/or plastics enhancement layer (2).

5, a kind of ceramoplastic wear-resistant composite tubes according to claim 4, it is characterized in that: the compound body of described ceramoplastic (1) comprises straight tube, bend pipe, three-way pipe or steel tubing in different shapes.

6, a kind of ceramoplastic wear-resistant composite tubes is characterized in that: the internal surface of the compound body of ceramoplastic (1) or outer surface have metal or fiber-reinforced layer (2).

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