CN105114721A - High-molecular modified fast joint for downhole steel wire skeleton clad pipe - Google Patents

Abstract

The invention discloses a high-molecular modified fast joint for a downhole steel wire skeleton clad pipe. The fast joint includes two clad pipes, a rubber ring and two clamp tabs. The external side of each clad pipe is provided with a plastic lining layer. The rubber ring is an annular rubber ring. The two clad pipes are connected via the rubber ring. Each clamp tab assumes a semi-annular shape and is provided a through hole in each of the two ends. The two clamp tabs sleeve the rubber ring and form a ring shape after being in secured connection. After each clad pipe and a pipeline are connected, the external side of the pipeline is provided with a lock ring. The clad pipes extend into the pipeline and are connected via the rubber ring and the clamp tabs are adopted to fix the connection part of the two clad pipes. After the connection of each clad pipe and the pipeline, the pipeline and each clad pipe are fixed via a lock ring on the external side of the pipeline. The fixing performance and the sealing performance of the fast joint are improved.

Description

The macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under mine

Technical field

The present invention relates to the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under pipe-line equipment interconnection technique field, particularly a kind of mine.

Background technique

Along with the development of science and technology, under mine, steel wire mesh frame pipeline Placement is varied, under mine, steel wire mesh frame pipeline great majority adopt sleeve pipe Placement, although adopt sleeve pipe Placement installation cost low, adopt the stationarity of sleeve pipe Placement poor, poor connectivity, sealing is poor, and the personnel that need repairing often safeguard, not only increases the workload of maintenance man, and adding maintenance cost, the equipment that affects works normally.

Summary of the invention

The object of the present invention is to provide the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under the mine that a kind of structure is simple, easy to use, stationarity is good.

The technical solution realizing the object of the invention is: the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under a kind of mine, is characterized in that, comprises two composite pipes, cushion rubber and two snibs; The outside of described each composite pipe is provided with plastic lining layer, and cushion rubber is ring apron, and two composite pipes are connected by cushion rubber; Described each snib is semicircle, and the two ends of each snib are provided with through hole, and two snibs are all enclosed within cushion rubber, and two snibs are fixedly connected with rear formation annular; After described each composite pipe is connected with pipeline, the outside of pipeline is provided with lock ring.

Preferably, described plastic lining layer arranged outside has anticorrosive coat.

Preferably, described plastic lining layer adopts line plastic-steel tube.

Preferably, described two snibs adopt bolt to be fixedly connected with rear formation annular by through hole.

Preferably, described composite pipe adopts macromolecule modified material to make.

The present invention compared with prior art, its remarkable advantage: under mine of the present invention, composite pipe stretches in pipeline by the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube, by cushion rubber, two composite pipes are connected, and adopt snib to be fixed two composite pipe joints, after each composite pipe is connected with pipeline, pipeline and composite pipe are fixed by lock ring by the outside of pipeline, not only increase the stationarity of rapid pipe joint, and substantially increase the sealing of rapid pipe joint; And steel wire mesh framework composite tube has with macromolecule modified rapid pipe joint that structure is simple, easy to use, stationarity is good, the feature of good airproof performance under mine of the present invention.

Below in conjunction with accompanying drawing, the present invention is described in further detail.

Accompanying drawing explanation

Fig. 1 is the structural representation of the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under mine of the present invention.

Embodiment

Embodiment 1: as shown in Figure 1, the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under a kind of mine, comprises two composite pipes 1, cushion rubber 2 and two snibs 3; The outside of described each composite pipe 1 is provided with plastic lining layer 4, and plastic lining layer 4 arranged outside has anticorrosive coat, and composite pipe 1 adopts macromolecule modified material to make, and plastic lining layer 4 adopts line plastic-steel tube; Described cushion rubber 2 is ring apron, and two composite pipes 1 are connected by cushion rubber 2; Described each snib 3 is semicircle, and the two ends of each snib 3 are provided with through hole 5, and two snibs 3 are all enclosed within cushion rubber 2, and two snibs 3 adopt bolt to be fixedly connected with rear formation annular by through hole 5; After described each composite pipe 1 is connected with pipeline 6, the outside of pipeline 6 is provided with lock ring 7.

Embodiment 2: the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under a kind of mine, comprise two composite pipes 1, cushion rubber 2 and two snibs 3; The outside of described each composite pipe 1 is provided with plastic lining layer 4, and plastic lining layer 4 arranged outside has anticorrosive coat, and composite pipe 1 adopts macromolecule modified material to make, and plastic lining layer 4 adopts line plastic-steel tube; Described cushion rubber 2 is ring apron, and two composite pipes 1 are connected by cushion rubber 2; Described each snib 3 is semicircle, and the two ends of each snib 3 are provided with through hole 5, and two snibs 3 are all enclosed within cushion rubber 2, and two snibs 3 adopt riveted joint to be fixedly connected with rear formation annular by through hole 5; After described each composite pipe 1 is connected with pipeline 6, the outside of pipeline 6 is provided with lock ring 7.

In sum, under mine of the present invention, composite pipe stretches in pipeline by the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube, by cushion rubber, two composite pipes are connected, and adopt snib to be fixed two composite pipe joints, after each composite pipe is connected with pipeline, pipeline and composite pipe are fixed by lock ring by the outside of pipeline, not only increase the stationarity of rapid pipe joint, and substantially increase the sealing of rapid pipe joint; And steel wire mesh framework composite tube has with macromolecule modified rapid pipe joint that structure is simple, easy to use, stationarity is good, the feature of good airproof performance under mine of the present invention.

Except the above embodiments, other mode of executions do not stated also should within protection scope of the present invention.Specific embodiment as herein described is only to the explanation for example of the present invention's spirit, those skilled in the art can make various amendment or supplement or adopt similar mode to substitute to described specific embodiment, but can't depart from spirit of the present invention or surmount the scope that appended claims defines.Although be described through specific term herein, but do not get rid of the possibility using other terms, use these terms to be only used to describe and explain essence of the present invention easily, the restriction that they are construed to any one additional is all contrary with spirit of the present invention.

Claims (5)

1. the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under mine, is characterized in that, comprises two composite pipes (1), cushion rubber (2) and two snibs (3); The outside of described each composite pipe (1) is provided with plastic lining layer (4), and cushion rubber (2) is ring apron, and two composite pipes (1) are connected by cushion rubber (2); Described each snib (3) is semicircle, and the two ends of each snib (3) are provided with through hole (5), and two snibs (3) are all enclosed within cushion rubber (2), and two snibs (3) are fixedly connected with rear formation annular; After described each composite pipe (1) is connected with pipeline (6), the outside of pipeline (6) is provided with lock ring (7).

2. the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under mine according to claim 1, is characterized in that, described plastic lining layer (4) arranged outside has anticorrosive coat.

3. the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under mine according to claim 1 and 2, is characterized in that, described plastic lining layer (4) adopts line plastic-steel tube.

4. the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under mine according to claim 1, is characterized in that, described two snibs (3) adopt bolt to be fixedly connected with rear formation annular by through hole (5).

5. the macromolecule modified rapid pipe joint of steel wire mesh framework composite tube under mine according to claim 1, is characterized in that, described composite pipe (1) adopts macromolecule modified material to make.