CN209762461U - carbon fiber PPR (polypropylene random) antistatic pipe - Google Patents

Abstract

The utility model discloses a carbon fiber PPR antistatic pipe, which comprises a connecting pipe body, wherein the inner side of one end of the connecting pipe body is connected with an embedded connecting ring by means of intramembrane injection molding, one end of the embedded connecting ring is welded with a pipeline connecting head, the outer side of one end of the pipeline connecting head, which is far away from and is embedded with the connecting ring, is provided with the connecting ring, the static electricity can be prevented by a first carbon fiber PPR supporting layer and a second carbon fiber PPR supporting layer, the pipeline can be reinforced by a copper wire mesh layer and a reinforcing wire, the pipeline connecting head and the connecting pipe body are more firmly connected by the embedded connecting ring, the connection of the pipeline connecting head is more compact by a closed ring, the carbon fiber PPR antistatic pipe has simple structure and convenient production, not only the pipeline is more firmly connected, but also the installation is more convenient, and the, providing convenience for people.

Description

Carbon fiber PPR (polypropylene random) antistatic pipe

Technical Field

The utility model relates to an antistatic pipe technical field specifically is an antistatic pipe of carbon fiber PPR.

Background

Ships need reliable and durable auxiliary systems. The pipeline system of the ship, as one of the very important auxiliary systems, is mainly used for conveying various fluid media to meet the normal operation of the ship equipment and the system thereof, thereby ensuring the normal shipping of the ship. The vessel ballast system is used to adjust the vessel draft during normal voyage or loading and unloading. The ballast pipeline system has the main task of transmitting ballast water passing through a ballast water pump and a valve and then injecting the ballast water into each ballast tank, or discharging the ballast water out of the ship and transporting the ballast water among the ballast tanks through the ballast pipeline system, but the existing pipeline has low strength, long service life and inconvenient installation, and the joints are easy to leak water, thus bringing much inconvenience to people.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a carbon fiber PPR anti-static pipe, simple structure, production is convenient, not only makes more firm to the pipeline, makes the installation more convenient moreover to can effectually prevent that the junction of pipeline from leaking, for people provide convenience, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a carbon fiber PPR antistatic pipe comprises a connecting pipe body, wherein an embedded connecting ring is connected to the inner side of one end of the connecting pipe body in a membrane injection molding mode, a pipeline connector is welded to one end of the embedded connecting ring, a connecting ring is arranged on the outer side of one end, away from the embedded connecting ring, of the pipeline connector, and an external thread is arranged on the outer side of the connecting ring;

the connecting pipe body is equipped with the mode of moulding plastics through the membrane including first carbon fiber PPR supporting layer, the outside of first carbon fiber PPR supporting layer and is connected with the PH filling layer to the outside of PH filling layer is connected with second carbon fiber PPR supporting layer through the mode of moulding plastics in the membrane.

As a preferred technical scheme of the utility model, the go-between is connected with the pipe connection head through the mode that the membrane was moulded plastics to the go-between upper end is located the coplanar with the upper end of pipe connection head.

As an optimal technical scheme of the utility model, the go-between is equipped with the closed ring with this body coupling's of connecting pipe one end outside, and the closed ring is connected with the go-between through the mode that the membrane was moulded plastics.

As a preferred technical scheme of the utility model, the upper end of seal ring is equipped with connecting groove, and connecting groove's inside is connected with the rubber seal circle through the mode that glue was pasted to connecting groove's cross-section is the right trapezoid cross-section.

As an optimal technical scheme of the utility model, the outside of first carbon fiber PPR supporting layer is equipped with the copper wire stratum reticulare, and the copper wire stratum reticulare is lies in between first carbon fiber PPR supporting layer and the PPH filling layer.

As an optimal technical scheme of the utility model, the outside of second carbon fiber PPR supporting layer is equipped with the temperature-insulated plastic layer, and it has glass to glue to separate to fill between temperature-insulated plastic layer and the second carbon fiber PPR supporting layer.

As an optimal technical scheme of the utility model, the inside of PPH filling layer is connected with the reinforcement silk through the mode that the membrane was moulded plastics, and the reinforcement silk is helical structure.

As a preferred technical scheme of the utility model, the lower extreme of inlaying the go-between is the toper structure, and inlays the go-between and evenly is equipped with the through-hole to the outside of inlaying the go-between evenly is equipped with anti-skidding line.

As an optimal technical scheme of the utility model, the outside that separates the temperature plastic layer is equipped with the rubber protection pad, and the mode that the rubber protection pad was pasted through glue is connected with separating the temperature plastic layer.

as an optimal technical scheme of the utility model, the inboard surface of copper wire mesh layer and the outside surface of first carbon fiber PPR supporting layer laminate each other.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses on set up first carbon fiber PPR supporting layer and second carbon fiber PPR supporting layer, can prevent through first carbon fiber PPR supporting layer and second carbon fiber PPR supporting layer that static from producing to can consolidate the pipeline through copper wire mesh layer and reinforcement silk, make the pipeline durable more firm, make pipeline life longer with this.

The utility model discloses on set up and separated the temperature plastic layer, can protect the pipeline through separating the temperature plastic layer to this prevents that the inside water of pipeline from freezing and frostbite the pipeline, protects the pipeline with this, provides convenience for people, can protect the pipeline through the rubber protection pad that separates the temperature plastic layer outside moreover, with this anticollision to the pipeline, makes the pipeline more durable.

The utility model discloses on set up the pipe connection head, can be with the pipe connection through the go-between on the pipe connection head for it is more convenient to connect, and makes pipe connection head and this body coupling of connecting pipe more firm through inlaying the go-between, provides convenience for people, and makes the pipe connection head connect inseparabler through the closed loop.

The utility model discloses on set up the rubber seal circle, can prevent through the rubber seal circle that the junction of pipeline from leaking, this carbon fiber PPR antistatic pipe simple structure, production is convenient, not only makes more firm to the pipeline, makes the installation more convenient moreover to can effectually prevent that the junction of pipeline from leaking, provide convenient for people.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the cross-sectional structure of the present invention

Fig. 3 is a schematic view of the cross-sectional structure of the end portion of the present invention.

In the figure: the pipe comprises a connecting groove 1, a connecting pipe body 2, a first carbon fiber PPR supporting layer 21, a copper wire mesh layer 22, a reinforcing wire 23, a 24PPH filling layer, a second carbon fiber PPR supporting layer 25, a thermal insulation plastic layer 26, a closed ring 3, a connecting ring 4, a rubber closed ring 5, an embedded connecting ring 6 and a pipe connector 7.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a carbon fiber PPR antistatic pipe comprises a connecting pipe body 2, the inner side of one end of the connecting pipe body 2 is connected with an embedded connecting ring 6 through a mode of intramembrane injection molding, one end of the embedded connecting ring 6 is welded with a pipeline connector 7, the lower end of the embedded connecting ring 6 is of a conical structure, the embedded connecting ring 6 is uniformly provided with through holes, the outer side of the embedded connecting ring 6 is uniformly provided with anti-skid grains, the pipeline connector 7 and the connecting pipe body 2 are more firmly connected through the embedded connecting ring 6, convenience is provided for people, the outer side of one end, away from the embedded connecting ring 6, of the pipeline connector 7 is provided with a connecting ring 4, the outer side of the connecting ring 4 is provided with external threads, the connecting ring 4 is connected with the pipeline connector 7 through a mode of intramembrane injection molding, the upper end of the connecting ring 4 and the upper end of, the pipeline connection is more compact, a closed ring 3 is arranged on the outer side of one end, connected with the connecting pipe body 2, of the connecting ring 4, the closed ring 3 is connected with the connecting ring 4 in a membrane injection molding mode, a connecting groove 1 is formed in the upper end of the closed ring 3, a rubber closed ring 5 is connected inside the connecting groove 1 in a glue pasting mode, the cross section of the connecting groove 1 is a right-angled trapezoid cross section, and the pipeline connector 7 is connected more closely through the closed ring 3, so that water leakage at the connection position of the pipeline can be prevented through the rubber closed ring 5;

The connecting pipe body 2 comprises a first carbon fiber PPR supporting layer 21, a PH filling layer 24 connected with the outer side of the first carbon fiber PPR supporting layer 21 in a mode of in-film injection molding is arranged on the outer side of the first carbon fiber PPR supporting layer 21, a second carbon fiber PPR supporting layer 25 connected with the outer side of the PH filling layer 24 in a mode of in-film injection molding is arranged on the outer side of the first carbon fiber PPR supporting layer 21, a copper wire mesh layer 22 is arranged on the outer side of the first carbon fiber PPR supporting layer 21 and the PPH filling layer 24, a heat insulation plastic layer 26 is arranged on the outer side of the second carbon fiber PPR supporting layer 25, glass cement is filled between the heat insulation plastic layer 26 and the second carbon fiber PPR supporting layer 25, reinforcing wires 23 are connected with the inner side of the PPH filling layer 24 in a mode of in-film injection molding, the reinforcing wires 23 are of a spiral structure, a rubber protective pad, the first carbon fiber PPR supporting layer 21 and the second carbon fiber PPR supporting layer 25 can prevent static electricity from generating, the pipeline can be reinforced through the copper wire mesh layer 22 and the reinforcing wire 23, the pipeline is firmer and firmer, the service life of the pipeline is longer, the pipeline can be protected through the heat insulation plastic layer 26, the pipeline is prevented from being frozen by water in the pipeline, the pipeline is protected, convenience is provided for people, the pipeline can be protected through the rubber protective pad on the outer side of the heat insulation plastic layer 26, the pipeline is prevented from being collided, the pipeline is more durable, the inner side surface of the copper wire mesh layer 22 is mutually attached to the outer side surface of the first carbon fiber PPR supporting layer 21, the carbon fiber PPR antistatic pipe is simple in structure, production is convenient, the pipeline is firmer, installation is more convenient, and water leakage at the joint of the pipeline can be effectively prevented, providing convenience for people.

when in use: can prevent static through first carbon fiber PPR supporting layer 21 and second carbon fiber PPR supporting layer 25 and produce, and can consolidate the pipeline through copper wire mesh layer 22 and reinforcement silk 23, make the pipeline more durable firm, protect the pipeline through separating temperature plastic layer 26, can protect the pipeline through the rubber protection pad that separates the temperature plastic layer 26 outside, can be with the pipe connection through go-between 4 on the pipe connection head 7, and make pipe connection head 7 and connecting pipe body 2 connect more firmly through inlaying go-between 6, and make pipe connection head 7 connect inseparabler through seal ring 3.

The utility model discloses a first carbon fiber PPR supporting layer 21 and second carbon fiber PPR supporting layer 25 can prevent static and produce, and can consolidate the pipeline through copper wire mesh layer 22 and reinforcement silk 23, make the pipeline more durable firm, make pipeline life longer with this, go-between 4 through on the pipe connection head 7 can be with the pipe connection, it is more convenient to make the connection, and make pipe connection head 7 and connecting pipe body 2 connect more firmly through inlaying go-between 6, for people provide convenience, and make pipe connection head 7 connect inseparabler through closed ring 3, this carbon fiber PPR antistatic pipe simple structure, the production is convenient, not only make the pipeline more firm, and make the installation more convenient, and can effectually prevent that the junction of pipeline from leaking, for people provide convenience.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a carbon fiber PPR anti-static pipe, includes connecting pipe body (2), its characterized in that: the inner side of one end of the connecting pipe body (2) is connected with an embedded connecting ring (6) in a membrane injection molding mode, one end of the embedded connecting ring (6) is welded with a pipeline connector (7), the outer side of one end, far away from the embedded connecting ring (6), of the pipeline connector (7) is provided with a connecting ring (4), and the outer side of the connecting ring (4) is provided with external threads;

Connecting pipe body (2) are equipped with the mode of moulding plastics through the membrane including first carbon fiber PPR supporting layer (21) in the outside of first carbon fiber PPR supporting layer (21) and are connected with PH filling layer (24) to the mode of moulding plastics through the membrane in the outside of PH filling layer (24) is connected with second carbon fiber PPR supporting layer (25).

2. The carbon fiber PPR antistatic pipe according to claim 1, characterized in that: the connecting ring (4) is connected with the pipeline connector (7) in a mode of in-film injection molding, and the upper end of the connecting ring (4) and the upper end of the pipeline connector (7) are located on the same plane.

3. The carbon fiber PPR antistatic pipe according to claim 1, characterized in that: the outer side of one end, connected with the connecting pipe body (2), of the connecting ring (4) is provided with a closed ring (3), and the closed ring (3) is connected with the connecting ring (4) in a membrane injection molding mode.

4. The carbon fiber PPR antistatic pipe according to claim 3, characterized in that: the upper end of the closed ring (3) is provided with a connecting groove (1), the inside of the connecting groove (1) is connected with a rubber closed ring (5) in a glue pasting mode, and the cross section of the connecting groove (1) is a right-angled trapezoid cross section.

5. The carbon fiber PPR antistatic pipe according to claim 1, characterized in that: the outer side of the first carbon fiber PPR supporting layer (21) is provided with a copper wire mesh layer (22), and the copper wire mesh layer (22) is located between the first carbon fiber PPR supporting layer (21) and the PPH filling layer (24).

6. The carbon fiber PPR antistatic pipe according to claim 1, characterized in that: the outside of second carbon fiber PPR supporting layer (25) is equipped with thermal-insulated plastic layer (26), and it has glass to glue to fill between thermal-insulated plastic layer (26) and second carbon fiber PPR supporting layer (25).

7. The carbon fiber PPR antistatic pipe of claim 5, wherein: the PPH filling layer (24) is internally connected with reinforcing wires (23) in an in-film injection molding mode, and the reinforcing wires (23) are of a spiral structure.

8. The carbon fiber PPR antistatic pipe according to claim 1, characterized in that: the lower end of the embedded connecting ring (6) is of a conical structure, through holes are uniformly formed in the embedded connecting ring (6), and anti-skid grains are uniformly arranged on the outer side of the embedded connecting ring (6).

9. The carbon fiber PPR antistatic pipe of claim 6, wherein: the outer side of the thermal insulation plastic layer (26) is provided with a rubber protection pad, and the rubber protection pad is connected with the thermal insulation plastic layer (26) in a glue pasting mode.

10. The carbon fiber PPR antistatic pipe of claim 5, wherein: the inner side surface of the copper wire mesh layer (22) is attached to the outer side surface of the first carbon fiber PPR supporting layer (21).