CN214274922U - Pipeline that enhancement type ring rigid-ring is gentle - Google Patents

Abstract

The utility model discloses a pipeline with a rigid ring and a soft ring, which comprises a pipeline substrate, wherein the pipeline substrate is formed into a pipeline through high-temperature winding and bonding; the pipeline substrate comprises a polyethylene layer, a reinforcing layer, a steel belt and a connecting layer; the polyethylene layer comprises a vertical support part and a reinforcing part; the steel belt is molded in the vertical supporting part; the reinforcing layer is formed in the connecting layer; the reinforcing part is formed between two adjacent vertical supporting parts. The reinforcing part is a cavity supporting structure formed by a plurality of cross braces, vertical braces and vertical supporting parts; the tie layer is molded under the polyethylene layer. Has the advantages that: utilize the enhancement layer of the setting of this application, can effectual toughness and the rigidity that increases the pipeline, can increase the resistance to compression and the bending of pipeline, utilize to increase the rib between the perpendicular supporting part of pipeline base plate, can increase the resistance to compression and the bending resistance ability of pipeline, increased the life of pipeline.

Description

Pipeline that enhancement type ring rigid-ring is gentle

Technical Field

The utility model relates to a pipeline field, concretely relates to gentle pipeline of enhancement type ring rigid ring.

Background

The drain pipe mainly undertakes the drainage tasks of rainwater, sewage, farmland drainage and irrigation and drainage, etc. The drain pipe is divided into a plastic drain pipe, a concrete pipe and a reinforced concrete pipe.

The water draining pipe is a novel water permeating and draining plastic pipe which is formed by adding other additives into high-density polyethylene and has a corrugated shape, and the water permeating corrugated pipe is processed by punching holes at the groove and wrapping needle-punched geotextile outside the pipe. Can be divided into single-wall water-permeable corrugated pipes and double-wall water-permeable corrugated pipes according to the type of the corrugated pipes.

At present, the materials adopted by the water drainage pipe on the market are generally prepared by adding other additives into high-density polyethylene, the production and manufacturing method is relatively single, the steps are relatively complex, the manufacturing time is long, and the manufactured water drainage pipe has great defects in performance toughness and strength, so that the production and manufacturing method and quality can not meet the requirements, and the good economic benefit of an enterprise is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a pipeline that the rigid ring of enhancement type is gentle in order to solve above-mentioned problem.

In order to achieve the above purpose, the utility model provides a following technical scheme:

the utility model provides a pipeline with a rigid ring and a flexible ring, which comprises a pipeline substrate, wherein the pipeline substrate is formed into a pipeline through high-temperature winding and bonding;

the pipeline substrate comprises a polyethylene layer, a reinforcing layer, a steel belt and a connecting layer;

the polyethylene layer comprises a vertical support part and a reinforcing part;

the steel belt is molded in the vertical supporting part;

the reinforcing layer is formed in the connecting layer;

the reinforcing part is formed between two adjacent vertical supporting parts.

The reinforcing part is a cavity supporting structure formed by a plurality of cross braces, vertical braces and vertical supporting parts;

the tie layer is molded under the polyethylene layer.

Preferably, the device further comprises a supply layer, and the supply layer is molded below the connecting layer.

Preferably, the connection layer is provided with a connection portion; the connecting part is used for winding the pipeline substrate into a tubular connecting part through high temperature.

Preferably, the reinforcing layer is a steel wire, the number of the steel wires is multiple, and the multiple steel wires are uniformly arranged in the connecting layer at intervals.

Preferably, the reinforcing layer is a steel wire mesh, and the steel wire mesh is formed in the connecting layer.

Preferably, the reinforcing layer is a glass fiber net, and the glass fiber net is formed in the connecting layer.

Preferably, the reinforcing layers are two layers, and the two layers of reinforcing layers are respectively a steel wire mesh and a steel wire.

Preferably, the reinforcing layers are two layers, and the two layers of reinforcing layers are respectively glass fiber nets and steel wires.

Preferably, the reinforcing layers are two layers, and the two layers of reinforcing layers are respectively a glass fiber net and a steel wire net.

Preferably, the reinforced layer is three layers, and the three layers of reinforced layer are respectively glass fiber net, steel wire net and steel wire.

Has the advantages that: utilize the enhancement layer of the setting of this application, can effectual toughness and the rigidity that increases the pipeline, can increase the resistance to compression and the bending of pipeline, utilize to increase the rib between the perpendicular supporting part of pipeline base plate, can increase the resistance to compression and the bending resistance ability of pipeline, increased the life of pipeline.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a first embodiment of a pipe with a rigid ring and a flexible ring, according to the present invention;

fig. 2 is a schematic view of the second and third embodiments of the pipe with the reinforced rigid ring and the flexible ring according to the present invention;

fig. 3 is a schematic structural view of a fourth and fifth embodiment of the pipe with the reinforced rigid ring and the flexible ring according to the present invention;

fig. 4 is a schematic structural diagram of a sixth embodiment of a pipe with a rigid ring and a flexible ring, according to the present invention;

fig. 5 is a schematic structural diagram of a seventh embodiment of the pipe with the reinforced rigid ring and the flexible ring according to the present invention.

The reference numerals are explained below:

1. a polyethylene layer; 101. a vertical support portion; 102. a reinforcing portion; 1021. a cross brace; 1022. vertically supporting; 1023. a cavity support structure; 2. a supply layer; 3. a reinforcing layer; 4. a steel belt; 5. a connecting layer; 501. a connecting portion.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the technical solutions of the present invention will be described in detail below. It is to be understood that the embodiments described are only some embodiments of the invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, the utility model provides a pipeline with a rigid ring and a flexible ring, which comprises a pipeline substrate, wherein the pipeline substrate is formed into a pipeline by high-temperature winding and bonding;

the pipeline substrate comprises a polyethylene layer 1, a reinforcing layer 3, a steel belt 4 and a connecting layer 5;

the polyethylene layer 1 comprises a vertical support; 101 and a reinforcement 102;

the steel belt 4 is formed on the vertical supporting part; 101, in the container;

the reinforcing layer 3 is formed in the connecting layer 5;

the reinforcing part 102 is formed on two adjacent vertical supporting parts; 101.

The reinforcing part 102 is a plurality of cross braces 1021, vertical braces 1022 and vertical supporting parts; 101, cavity support structure 1023;

the tie layer 5 is formed under the polyethylene layer 1.

Preferably, the device further comprises a supply layer 2, wherein the supply layer 2 is molded below the connecting layer 5.

Preferably, the connection layer 5 is provided with a connection portion 501; the connecting portion 501 is used for winding the pipe substrate at a high temperature to form the tubular connecting portion 501.

Preferably, the reinforcing layer 3 is a plurality of steel wires, and the plurality of steel wires are uniformly arranged in the connecting layer 5 at intervals.

Example two

Referring to fig. 2, the utility model provides a pipeline with a rigid ring and a flexible ring, which comprises a pipeline substrate, wherein the pipeline substrate is formed into a pipeline by high-temperature winding and bonding;

the pipeline substrate comprises a polyethylene layer 1, a reinforcing layer 3, a steel belt 4 and a connecting layer 5;

the polyethylene layer 1 comprises a vertical support; 101 and a reinforcement 102;

the steel belt 4 is formed on the vertical supporting part; 101, in the container;

the reinforcing layer 3 is formed in the connecting layer 5;

the reinforcing part 102 is formed on two adjacent vertical supporting parts; 101.

The reinforcing part 102 is a plurality of cross braces 1021, vertical braces 1022 and vertical supporting parts; 101, cavity support structure 1023;

the tie layer 5 is formed under the polyethylene layer 1.

Preferably, the device further comprises a supply layer 2, wherein the supply layer 2 is molded below the connecting layer 5.

Preferably, the connection layer 5 is provided with a connection portion 501; the connecting part 501 is used for winding the pipeline substrate into a tubular connecting part 501 through high temperature;

preferably, the reinforcing layer 3 is a steel wire mesh, and the steel wire mesh is formed in the connecting layer 5.

EXAMPLE III

Referring to fig. 2, the utility model provides a pipeline with a rigid ring and a flexible ring, which comprises a pipeline substrate, wherein the pipeline substrate is formed into a pipeline by high-temperature winding and bonding;

the pipeline substrate comprises a polyethylene layer 1, a reinforcing layer 3, a steel belt 4 and a connecting layer 5;

the polyethylene layer 1 comprises a vertical support; 101 and a reinforcement 102;

the steel belt 4 is formed on the vertical supporting part; 101, in the container;

the reinforcing layer 3 is formed in the connecting layer 5;

the reinforcing part 102 is formed on two adjacent vertical supporting parts; 101.

The reinforcing part 102 is a plurality of cross braces 1021, vertical braces 1022 and vertical supporting parts; 101, cavity support structure 1023;

the tie layer 5 is formed under the polyethylene layer 1.

Preferably, the device further comprises a supply layer 2, wherein the supply layer 2 is molded below the connecting layer 5.

Preferably, the connection layer 5 is provided with a connection portion 501; the connecting part 501 is used for winding the pipeline substrate into a tubular connecting part 501 through high temperature;

preferably, the reinforcing layer 3 is a glass fiber mesh molded into the connecting layer 5.

Example 4

Referring to fig. 3, the utility model provides a pipeline with a rigid ring and a flexible ring, which comprises a pipeline substrate, wherein the pipeline substrate is formed into a pipeline by high-temperature winding and bonding;

the pipeline substrate comprises a polyethylene layer 1, a reinforcing layer 3, a steel belt 4 and a connecting layer 5;

the polyethylene layer 1 comprises a vertical support; 101 and a reinforcement 102;

the steel belt 4 is formed on the vertical supporting part; 101, in the container;

the reinforcing layer 3 is formed in the connecting layer 5;

the reinforcing part 102 is formed on two adjacent vertical supporting parts; 101.

The reinforcing part 102 is a plurality of cross braces 1021, vertical braces 1022 and vertical supporting parts; 101, cavity support structure 1023;

the tie layer 5 is formed under the polyethylene layer 1.

Preferably, the device further comprises a supply layer 2, wherein the supply layer 2 is molded below the connecting layer 5.

Preferably, the connection layer 5 is provided with a connection portion 501; the connecting part 501 is used for winding the pipeline substrate into a tubular connecting part 501 through high temperature;

preferably, the reinforcing layer 3 is two layers, and the two layers of the reinforcing layer 3 are respectively a steel wire mesh and a steel wire.

Example 5

Referring to fig. 3, the utility model provides a pipeline with a rigid ring and a flexible ring, which comprises a pipeline substrate, wherein the pipeline substrate is formed into a pipeline by high-temperature winding and bonding;

the pipeline substrate comprises a polyethylene layer 1, a reinforcing layer 3, a steel belt 4 and a connecting layer 5;

the polyethylene layer 1 comprises a vertical support; 101 and a reinforcement 102;

the steel belt 4 is formed on the vertical supporting part; 101, in the container;

the reinforcing layer 3 is formed in the connecting layer 5;

the reinforcing part 102 is formed on two adjacent vertical supporting parts; 101.

The reinforcing part 102 is a plurality of cross braces 1021, vertical braces 1022 and vertical supporting parts; 101, cavity support structure 1023;

the tie layer 5 is formed under the polyethylene layer 1.

Preferably, the device further comprises a supply layer 2, wherein the supply layer 2 is molded below the connecting layer 5.

Preferably, the connection layer 5 is provided with a connection portion 501; the connecting part 501 is used for winding the pipeline substrate into a tubular connecting part 501 through high temperature;

preferably, the reinforcing layer 3 is formed by two layers, and the two layers of the reinforcing layer 3 are respectively a glass fiber net and a steel wire.

Example 6

Referring to fig. 4, the utility model provides a pipeline with a rigid ring and a flexible ring, which comprises a pipeline substrate, wherein the pipeline substrate is formed into a pipeline by high-temperature winding and bonding;

the pipeline substrate comprises a polyethylene layer 1, a reinforcing layer 3, a steel belt 4 and a connecting layer 5;

the polyethylene layer 1 comprises a vertical support; 101 and a reinforcement 102;

the steel belt 4 is formed on the vertical supporting part; 101, in the container;

the reinforcing layer 3 is formed in the connecting layer 5;

the reinforcing part 102 is formed on two adjacent vertical supporting parts; 101.

The reinforcing part 102 is a plurality of cross braces 1021, vertical braces 1022 and vertical supporting parts; 101, cavity support structure 1023;

the tie layer 5 is formed under the polyethylene layer 1.

Preferably, the device further comprises a supply layer 2, wherein the supply layer 2 is molded below the connecting layer 5.

Preferably, the connection layer 5 is provided with a connection portion 501; the connecting portion 501 is used for winding the pipe substrate at a high temperature to form the tubular connecting portion 501.

Preferably, the reinforcing layers 3 are two layers, and the two layers of the reinforcing layers 3 are respectively a glass fiber net and a steel wire net.

Example 7

Referring to fig. 5, the utility model provides a pipeline with a rigid ring and a flexible ring, which comprises a pipeline substrate, wherein the pipeline substrate is formed into a pipeline by high-temperature winding and bonding;

the pipeline substrate comprises a polyethylene layer 1, a reinforcing layer 3, a steel belt 4 and a connecting layer 5;

the polyethylene layer 1 comprises a vertical support; 101 and a reinforcement 102;

the steel belt 4 is formed on the vertical supporting part; 101, in the container;

the reinforcing layer 3 is formed in the connecting layer 5;

the reinforcing part 102 is formed on two adjacent vertical supporting parts; 101.

The reinforcing part 102 is a plurality of cross braces 1021, vertical braces 1022 and vertical supporting parts; 101, cavity support structure 1023;

the tie layer 5 is formed under the polyethylene layer 1.

Preferably, the device further comprises a supply layer 2, wherein the supply layer 2 is molded below the connecting layer 5.

Preferably, the connection layer 5 is provided with a connection portion 501; the connecting portion 501 is used for winding the pipe substrate at a high temperature to form the tubular connecting portion 501.

The reinforced layer 3 is three layers, and the three layers of reinforced layer 3 are respectively glass fiber net, steel wire net and steel wire.

The reinforcing layer 3 can effectively increase the toughness and rigidity of the pipeline, increase the compression resistance and bending resistance of the pipeline, and utilize the vertical supporting part on the pipeline substrate; the reinforcing parts 102 are added between the pipes 101, so that the pressure resistance and the bending resistance of the pipes can be improved, and the service life of the pipes is prolonged.

In addition, the material of the supply layer 2 may be a corrosion-resistant material, and the connection portion 501 may have a convex-concave structure.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A kind of pipe that the rigid ring of the reinforcement type is soft, characterized by: the pipeline comprises a pipeline substrate, wherein the pipeline substrate is formed into a pipeline through high-temperature winding and bonding;

the pipeline substrate comprises a polyethylene layer, a reinforcing layer, a steel belt and a connecting layer;

the polyethylene layer comprises a vertical support part and a reinforcing part;

the steel belt is molded in the vertical supporting part;

the reinforcing layer is formed in the connecting layer;

the reinforcing part is formed between two adjacent vertical supporting parts;

the reinforcing part is a cavity supporting structure formed by a plurality of cross braces, vertical braces and vertical supporting parts;

the tie layer is molded under the polyethylene layer.

2. A reinforced-ring rigid-ring flexible pipe as recited in claim 1, wherein: also included is a supply layer molded under the tie layer.

3. A reinforced-ring rigid-ring flexible pipe as claimed in claim 2, wherein: the connecting layer is provided with a connecting part; the connecting part is used for winding the pipeline substrate into a tubular connecting part through high temperature.

4. A reinforced-ring rigid-ring flexible pipe as recited in claim 3, wherein: the reinforcing layer is a plurality of steel wires which are arranged in the connecting layer at even intervals.

5. A reinforced-ring rigid-ring flexible pipe as recited in claim 3, wherein: the reinforcing layer is a steel wire mesh, and the steel wire mesh is formed in the connecting layer.

6. A reinforced-ring rigid-ring flexible pipe as recited in claim 3, wherein: the reinforcing layer is a glass fiber net which is formed in the connecting layer.

7. A reinforced-ring rigid-ring flexible pipe as recited in claim 3, wherein: the reinforced layer is two layers, and the two layers of reinforced layer are respectively steel wire net and steel wire.

8. A reinforced-ring rigid-ring flexible pipe as recited in claim 3, wherein: the reinforced layer is composed of two layers, wherein the two layers are respectively a glass fiber net and a steel wire.

9. A reinforced-ring rigid-ring flexible pipe as recited in claim 3, wherein: the reinforced layer is two layers, and the two layers of reinforced layer are respectively glass fiber net and steel wire net.

10. A reinforced-ring rigid-ring flexible pipe as recited in claim 3, wherein: the reinforced layer is three layers, and the three layers of reinforced layer are glass fiber net, steel wire net and steel wire respectively.

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