CN217583518U - High-pressure steel wire pipe is woven to dacron - Google Patents

High-pressure steel wire pipe is woven to dacron Download PDF

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Publication number
CN217583518U
CN217583518U CN202221461384.3U CN202221461384U CN217583518U CN 217583518 U CN217583518 U CN 217583518U CN 202221461384 U CN202221461384 U CN 202221461384U CN 217583518 U CN217583518 U CN 217583518U
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layer
rubber layer
explosion
steel wire
proof
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曾宏
许锐
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Ningbo Beida Hose Manufacturing Co ltd
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Ningbo Beida Hose Manufacturing Co ltd
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Abstract

The utility model discloses a high-pressure steel wire pipe is woven to dacron, including a pipe body, the body is by interior glue film to outer in proper order, the explosion-proof layer, press from both sides the cloth rubber layer, anticorrosive coating and outer glue film, including the explosion-proof layer is connected between glue film and the cloth rubber layer, the anticorrosive coating is connected between pressing from both sides the cloth rubber layer between outer glue film, the dacron of this application is woven high-pressure steel wire pipe and has been possessed the anticorrosive coating in order to play the anticorrosion in humid environment, the dampproofing effect, be favorable to the reinforcing of the life of body, and the body has possessed the explosion-proof coating and has pressed from both sides the cloth rubber layer, its structural strength and the structural stability who has further strengthened the body, the while has the explosion-proof performance, make the body stable, the security performance is ensured.

Description

High-pressure steel wire pipe is woven to dacron
Technical Field
The utility model relates to a high-pressure steel wire pipe technical field especially relates to a high-pressure steel wire pipe is woven to dacron.
Background
The PVC pipe widely used in the current market is widely applied to conveying of various gases, liquids, dust, chemicals and oil products, and has the advantages of low cost, good flexibility and simple installation and splicing, but the multilayer PVC structure of the PVC pipe is easy to crack and delaminate.
The prior art can refer to Chinese patent with publication number CN210153356U, which discloses a terylene braided high-pressure steel wire pipe, comprising an inner rubber layer, a fiber layer, a middle rubber layer, a steel wire layer and an outer rubber layer from inside to outside in sequence, wherein the steel wire layer is formed by spirally surrounding a steel wire, the outer wall of the outer rubber layer is axially coated with a colored indicating band, the thickness of the inner rubber layer is three times that of the middle rubber layer, the thickness of the outer rubber layer is two times that of the inner rubber layer, and the inner rubber layer, the fiber layer, the middle rubber layer, the steel wire layer and the outer rubber layer are extruded and molded through heat treatment. The scheme solves the problem that the PVC pipe is easy to crack and delaminate, but the whole body of the pipe body is poor in corrosion resistance, and when equipment is in a humid environment for a long time, the pipe body is easy to corrode, so that the service life of the steel wire pipe is shortened.
The present application has been made by those skilled in the art after a study in view of the above-mentioned related art.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a high-pressure steel wire pipe is woven to dacron that has the corrosion protection effect, life is longer.
The utility model provides a high-pressure steel wire pipe is woven to dacron, including a pipe body, the body is by interior glue film, explosion-proof layer, double-layered cloth rubber layer, anticorrosive coating and outer glue film of including in proper order outside to, the explosion-proof layer is connected between interior glue film and the double-layered cloth rubber layer, the anticorrosive coating is connected double-layered cloth rubber layer in between the outer glue film.
Compared with the prior art, the application has the advantages that the polyester weaving high-pressure steel wire pipe is additionally provided with the anticorrosive coating, the pipe body is often corroded in a humid environment, when the pipe is used for a long time, the outer rubber layer can be corroded by the humid environment, so that liquid breaks through the protective permeation of the outer rubber layer and enters the pipe body, the anti-explosion coating in the pipe body contains metal substances, and the pipe body is extremely easy to corrode and rust by liquid, so that the pipe body is damaged. The anti-corrosion layer has good shielding effect, insulativity and water resistance, and due to the arrangement of the anti-corrosion layer, the performance of the anti-corrosion layer can effectively prevent liquid from permeating into the pipe body, so that a powerful defense line is added for the pipe body. The setting of anticorrosive coating has increased the anticorrosive effect of body, has further ensured the body, has increased the life of dacron weaving high pressure steel wire pipe effectively.
Further, the anticorrosive coating is polyethylene anticorrosive coating, and polyethylene anticorrosive coating has advantages such as water resistance permeability, insulating nature is strong, chemical stability, and this application is often used for liquid transport, and polyethylene anticorrosive coating has protected the body well, strengthens its life.
Furthermore, the inner rubber layer and the outer rubber layer are made of ethylene propylene diene monomer, the ethylene propylene diene monomer has the advantages of good aging resistance, excellent electrical insulation performance, good chemical corrosion resistance and good impact elasticity, and the stability of the pipe body is enhanced to a certain extent.
Further, the explosion-proof layer is sequentially divided into a galvanized steel layer, a PVC layer and a stainless steel mesh grid from inside to outside; the PVC layer is connected between the galvanized steel layer and the stainless steel woven mesh. The explosion-proof layer has explosion-proof performance, is favorable to stabilizing the stability of steel wire pipe, increases the security performance.
Furthermore, be connected with the strengthening rib on the outer wall on explosion-proof layer, be provided with on the inner wall on double-layered cloth rubber layer with strengthening rib complex cooperation groove, the strengthening rib is on a parallel with the axis of body, the structural strength of body is do benefit to the better increase of being provided with of strengthening rib, avoids causing the condition of breaking to take place because of the bending.
Furthermore, be connected with the sand grip on the outer wall on explosion-proof layer, be provided with on the inner wall on the double-layered cloth rubber layer with sand grip complex recess, the sand grip is on a parallel with the axis of body, the setting of sand grip do benefit to the holistic structural stability who increases the body, avoid the condition emergence that appears the layering in the long-term use.
Furthermore, a reinforcing rib and a convex strip are arranged on the outer wall of the explosion-proof layer, and the convex strip and the reinforcing rib are parallel to the axis of the pipe body; be provided with on the inner wall on double-layered cloth rubber layer with strengthening rib complex cooperation groove, with sand grip complex recess, be provided with of sand grip and strengthening rib does benefit to and increases holistic structural stability of body and structural strength.
Furthermore, the two ends of the pipe body are connected with the joints, so that the pipe body can be spliced and used conveniently.
Further, the outer side of the pipe body is sleeved with an outer sheath, the outer sheath is made of PVC, and the pipe body is further protected.
Furthermore, the outside cover of body is equipped with the sliding ring, the outside of sliding ring is provided with the spacing ring, is favorable to adjusting the position and the location of body, convenient to use.
Additional features and advantages of the application will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by the practice of the application.
Drawings
FIG. 1 is a schematic view of the external structure of a terylene braided high-pressure steel wire tube of the utility model;
FIG. 2 is a cross-sectional view showing the internal structure of one embodiment of the high-pressure steel wire tube knitted with polyester according to the present invention;
FIG. 3 is a schematic structural view of a cloth-sandwiched rubber layer of a terylene knitted high-pressure steel wire tube of the utility model;
FIG. 4 is a sectional view showing the internal structure of the explosion-proof layer of the high-pressure steel wire tube knitted with polyester according to the present invention;
FIG. 5 is a matching view of the explosion-proof layer and the cloth-sandwiched rubber layer of the high-pressure steel wire tube knitted with terylene;
fig. 6 is a sectional view showing the internal structure of another embodiment of the high-pressure steel wire pipe knitted with polyester according to the present invention.
Description of the reference numerals:
1. a pipe body; 2. an outer sheath; 3. a joint; 4. a slip ring; 11. an inner glue layer; 12. an explosion-proof layer; 13. a cloth sandwiched rubber layer; 14. an anticorrosive layer; 15. an outer adhesive layer; 41. a limiting ring; 121. stainless steel mesh grid; 122. a PVC layer; 123. a galvanized steel layer; 124. reinforcing ribs; 125. a convex strip; 131. a mating groove; 132. and (4) a groove.
Detailed Description
In order to make the technical solutions of the present disclosure better understood by those skilled in the art, the present disclosure will be described in detail, clearly and completely with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the disclosure and are not intended to limit the disclosure.
In the description of the present invention, if there are first and second descriptions for distinguishing technical features, they are not interpreted as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features.
It will be understood by those skilled in the art that in the disclosure of the present invention, the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships that are based on those shown in the drawings, which are merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore the terms described above should not be considered limiting to the present invention.
The present invention will be described in further detail with reference to the accompanying drawings, which are shown in fig. 1 to 6.
A terylene woven high-pressure steel wire pipe comprises a pipe body 1, wherein the pipe body 1 sequentially comprises an inner rubber layer 11, an explosion-proof layer 12, a cloth-sandwiched rubber layer 13, an anticorrosive layer 14 and an outer rubber layer 15 from inside to outside, the explosion-proof layer 12 is connected between the inner rubber layer 11 and the cloth-sandwiched rubber layer 13, and the anticorrosive layer 14 is connected between the cloth-sandwiched rubber layer 13 and the outer rubber layer 15; the thicknesses of the inner rubber layer 11, the anticorrosive layer 14 and the outer rubber layer 15 are all smaller than that of the cloth-sandwiched rubber layer 13, and the thickness of the cloth-sandwiched rubber layer 13 is smaller than that of the explosion-proof layer 12; the inner rubber layer 11, the explosion-proof layer 12, the cloth sandwiched rubber layer 13, the anticorrosive layer 14 and the outer rubber layer 15 are formed into the pipe body 1 through hot extrusion molding. The utility model provides a body 1 has possessed anticorrosive coating 14 in order to play anticorrosive, the dampproofing effect in humid environment, is favorable to the reinforcing of body 1's life, and body 1 has possessed explosion-proof layer 12 and double-layered cloth rubber layer 13, and it has further strengthened body 1's structural strength and structural stability, has the explosion-proof performance simultaneously for body 1 is stable, the security performance is ensured.
As shown in fig. 2, the inner rubber layer 11 of the pipe body 1 needs to be directly contacted with the conveying material, the material for manufacturing the inner rubber layer 11 needs to have good chemical stability, and has corrosion resistance and aging resistance, while the outer rubber layer 15 directly contacts with the external environment, and the outer rubber layer 15 also needs to have the characteristics of aging resistance, chemical corrosion resistance and the like. The PVC plastic is one of widely used plastic materials, has the advantages of corrosion resistance, firmness, durability and the like, meets the use requirements of the inner rubber layer 11 and the outer rubber layer 15, and can be used for manufacturing the inner rubber layer 11 and the outer rubber layer 15.
In another embodiment of the present application, the CPVC resin is prepared by modifying PVC resin through chlorination, and is a novel engineering plastic, which has the advantages of good heat resistance, chemical corrosion resistance, anti-aging performance, flame retardancy, and high thermal deformation temperature, and can be used for manufacturing the inner adhesive layer 11 and the outer adhesive layer 15.
In the embodiment of the present application, the ethylene propylene diene monomer has the advantages of aging resistance, corrosion resistance, steam resistance, hot water resistance, good elasticity, and the like, and can be used for manufacturing the inner rubber layer 11 and the outer rubber layer 15, and in the present application, both the inner rubber layer 11 and the outer rubber layer 15 are made of ethylene propylene diene monomer.
When carrying all kinds of gas, liquid, chemicals, the body 1 produces static easily, and the intraductal plunger that can take place, can explode when serious, so this application is considered this factor when the design, has set up explosion-proof layer 12 in the body 1, and it possesses explosion-proof can to guarantee the stability ability and the security performance of steel wire pipe. The explosion-proof layer 12 is made of a PVC layer 122 and a stainless steel woven mesh 121, the PVC layer 122 is connected to the outer wall of the inner rubber layer 11, and the stainless steel woven mesh 121 is connected to the outer wall of the PVC layer 122; stainless steel mesh grid 121 is woven by two-layer winding steel wire and is formed, and stainless steel mesh grid 121 has good toughness, and body 1 may have the crooked condition in the use, and the toughness and the tensile strength of stainless steel mesh grid 121 have effectively avoided body 1 to take place the condition of rupture when crooked.
In the embodiment of the application, as shown in fig. 4, a galvanized steel layer 123 is further added into the explosion-proof layer 12, and a pvc layer 122 is connected between the galvanized steel layer 123 and the stainless steel mesh grid 121. The galvanized steel layer 123 is good in reliability, the coating construction process is fast, comprehensive protection can be achieved, toughness is strong, the galvanized steel layer 123 has good corrosion resistance, and when liquid is filled in the pipe body 1, the galvanized steel layer 123 can further effectively prevent the liquid from penetrating through the galvanized steel layer 123 to corrode the stainless steel mesh grid 121, so that the pipe body 1 is damaged; the galvanized steel layer 123 can adopt a cold plating method and a hot plating method, in the application, the galvanized layer adopts the hot plating method, and the galvanized steel layer 123 of the hot plating method is not easy to rust. During manufacturing, the galvanized steel layer 123 is manufactured first, and then the inner adhesive layer 11 is extruded into the galvanized steel layer 123, so that the inner adhesive layer 11 is attached to the galvanized steel layer 123 under the action of air pressure. The explosion-proof layer 12 made of the galvanized steel layer 123, the PVC layer 122 and the stainless steel woven mesh 121 in the application can resist positive pressure and negative pressure so as to ensure that the original shape can be kept in the suction and discharge process, and the anti-corrosion performance is realized after the galvanized steel layer 123 is added, so that the anti-corrosion performance of the pipe body 1 can be further enhanced to prolong the service life.
As shown in fig. 6, the pipe body 1 is provided with a cloth sandwiched rubber layer 13, the inner wall of the cloth sandwiched rubber layer 13 is connected with the outer wall of the explosion-proof layer 12, the cloth sandwiched rubber layer 13 is made by sandwiching cloth between rubbers, and the sandwiched cloth has a reinforcing effect on the skeleton of the rubbers, so that the rubber product has higher strength and definite elongation. The rubber tube made of the cloth-sandwiched rubber has the excellent performances of pressure resistance, oil resistance, heat resistance and the like, and is light, flexible and durable.
As shown in fig. 6, the explosion-proof layer 12 is located between the inner rubber layer 11 and the fabric rubber layer 13.
As shown in fig. 2, the pipe body 1 is provided with an anticorrosive layer 14, and the anticorrosive layer 14 is connected between the cloth sandwiched rubber layer 13 and the outer rubber layer 15. Because body 1 is used for carrying liquid more, cause the corruption of body 1 easily in this kind of humid environment for a long time, it is ageing to accelerate, the outer glue film 15 of body 1 can be corroded because of humid environment, thereby make liquid break through outer glue film 15 and get into explosion-proof layer 12, stainless steel mesh grid 121 in explosion-proof layer 12 is corroded the back, rust easily, then body 1 is easy by the rupture when using, body 1 damages, the explosion-proof performance of body 1 also can not explode, the easy explosion accident that takes place. The anticorrosive layer 14 has a shielding effect, a corrosion inhibition effect and an electrochemical effect, has good electrical insulation and water resistance, has strong adhesive force with the surface of the pipeline, can resist chemical damage and has certain mechanical strength. Therefore, the anti-corrosion layer 14 is arranged to enhance the anti-corrosion effect of the pipe body 1, so that liquid is effectively prevented from permeating into the pipe body 1, and the service life of the pipe body 1 is prolonged. In the present application, the corrosion protection layer 14 is a polyethylene corrosion protection coating.
As shown in figure 1, the both ends of body 1 are connected with and connect 3, connect 3 and can select lug connection 3, elbow joint 3, three way connection 3 or union 3 as required, in this application, connect 3 and adopt spiral lug connection 3, be convenient for use body 1's concatenation, in this application, can be according to concrete operation requirement whether the selection needs the access to connect 3.
In another embodiment of the present application, as shown in fig. 2, a reinforcing rib 124 is connected to the explosion-proof layer 12, the number of the reinforcing ribs 124 is at least one, and the reinforcing ribs 124 are arranged parallel to the axis of the pipe body 1; the inner wall of the cloth clamping rubber layer 13 is provided with a matching groove 131 which is just matched with the reinforcing rib 124, and the reinforcing rib 124 is fully attached to the matching groove 131 and fixedly connected with the matching groove 131. The arrangement of the reinforcing rib 124 and the matching groove 131 is beneficial to increasing the structural strength of the pipe body 1 and avoiding the pipe body 1 from being broken due to bending.
In the above embodiment, the cross section of the reinforcing rib 124 is semicircular, and may be in other regular patterns, which facilitates reducing the manufacturing cost in the manufacturing process. In the present application, the cross-sectional shape of the reinforcing ribs 124 is a convex rectangle, each reinforcing rib 124 is disposed at an equal distance along the radial direction of the pipe body 1, and the reinforcing ribs 124 are parallel to the axial direction of the pipe body 1.
In another embodiment of the present application, the explosion-proof layer 12 is connected with at least one rib 125, and the number of the ribs 125 is at least one, and the ribs 125 are arranged parallel to the axis of the pipe body 1; the inner wall of the fabric sandwiched rubber layer 13 is provided with a groove 132 matched with the convex strip 125, and the groove 132 is fully attached to the convex strip 125 and fixedly connected with the convex strip 125. The cross-sectional shape of the convex strip 125 is an inverted T shape, so that the contact area between the explosion-proof layer 12 and the cloth clamping rubber layer 13 is increased, the structural stability of the pipe body 1 is increased, and the layering situation in long-term use is avoided.
In the embodiment of the present application, the explosion-proof layer 12 is provided with the reinforcing ribs 124 and the convex ribs 125, the number of the reinforcing ribs 124 and the convex ribs 125 is at least one, the spacing distance between the convex ribs 125 and the adjacent reinforcing ribs 124 is equal, and the convex ribs 125 and the reinforcing ribs 124 are parallel to the axis of the pipe body 1; the inner wall of the cloth rubber layer 13 is provided with a matching groove 131 matched with the reinforcing rib 124 and a groove 132 matched with the convex strip 125. The reinforcing rib 124 and the convex strip 125 are used together in a matching manner, so that the contact area between the explosion-proof layer 12 and the cloth clamping rubber layer 13 is increased, the overall tensile and compressive capacity of the pipe body 1 is further increased, and the overall structural strength and the structural stability of the pipe body 1 are increased.
In the above embodiment, the protruding strips 125 and the reinforcing ribs 124 are arranged at intervals, and the distance between the protruding strips 125 and the adjacent reinforcing ribs 124 is equal, so that the stress is uniform, and the risk of local damage of the pipe body 1 caused by nonuniform stress is reduced. The ribs 124 and the ridges 125 are made of the same material as the explosion-proof layer 12, and are formed by heat treatment and extrusion molding.
In the above-mentioned embodiment, the thickness of explosion-proof layer 12 is greater than the thickness of interior glue film 11, conveniently sets up strengthening rib 124 and sand grip 125, increases the contact stability with double-layered cloth rubber layer 13, is favorable to the overall stability of body 1, is difficult to the condition of bending rupture appearing in the use, has increased body 1 tensile compressive strength, increase of service life.
As shown in fig. 5, in the present application, the explosion-proof layer 12 is made of a galvanized steel layer 123, a PVC layer 122 and a stainless steel mesh grid 121, a rib 125 and a rib 124 are extruded out of the PVC layer 122 of the explosion-proof layer 12, the extending direction of the rib 125 and the rib 124 is parallel to the axis of the pipe body 1, and the rib 125 and the rib 124 are arranged at equal intervals; the stainless steel mesh grid 121 surrounds the outer ring of the convex strips 125 due to the properties of the stainless steel mesh grid 121, and the rubber of the cloth sandwiched rubber layer 13 is extruded into the stainless steel mesh grid 121 to form grooves 132 and matching grooves 131 which are matched with the convex strips 125 and the reinforcing ribs 124.
As shown in fig. 3, the fabric sandwiching rubber layer 13 is provided with a groove 132 engaged with the convex strip 125 of the explosion-proof layer 12 and an engagement groove 131 engaged with the reinforcing rib 124, and the thickness of the fabric sandwiching rubber layer 13 is larger than that of the outer rubber layer 15. The higher thickness of the cloth clamping rubber layer 13 ensures that the cloth clamping rubber layer is more stable when being connected with the explosion-proof layer 12; the higher bearing capacity of the cloth clamping rubber layer 13 can further ensure that the matching between the cloth clamping rubber layer and the explosion-proof layer 12 is firmer, and the structural stability of the pipe body 1 is stronger.
In the embodiment of the application, the outer sheath 2 is sleeved on the outer side of the pipe body 1, the outer sheath 2 is made of transparent PVC plastic materials, the length of the outer sheath 2 is smaller than that of the pipe body 1, the thickness of the outer sheath 2 is larger than that of the outer adhesive layer 15 of the pipe body 1, and the PVC material is cheap and can be used as the outer sheath 2 to further protect the pipe body 1. In the present application, the outer sheath 2 may be optionally provided or not according to a specific use environment, and the outer sheath 2 may be removable.
In the embodiment of the application, the outer side of the pipe body 1 is sleeved with the sliding ring 4, the outer side of the sliding ring 4 is provided with the limiting ring 41, and the limiting ring 41 is connected to the sliding ring 4; when the device is used, the sliding ring 4 is sleeved on the pipe body 1, the limiting ring 41 can penetrate through a fixing object such as a hook, the position of the pipe body 1 can be fixed and adjusted through the sliding ring 4 and the limiting ring 41, and the device is convenient to use. In the application, whether the slip ring 4 needs to be sleeved or not can be selected according to specific use requirements.
In practical use, the inner rubber layer 11 and the outer rubber layer 15 are made of ethylene propylene diene monomer rubber, the ethylene propylene diene monomer rubber is good in ageing resistance, corrosion resistance, steam resistance, hot water resistance and elasticity, and the service life of the pipe body 1 is prolonged; the tensile and compressive properties of the explosion-proof layer 12 not only ensure the stability of the main structure of the tube body 1, but also increase the explosion-proof property of the tube body 1, and the reinforcing ribs 124 and the convex strips 125 arranged on the explosion-proof layer 12 are beneficial to increasing the structural stability and the structural strength of the whole tube body 1; the cloth clamping rubber layer 13 is provided with the groove 132 and the matching groove 131, the matching between the cloth clamping rubber layer and the explosion-proof layer 12 is firmer due to higher pressure bearing capacity, the structural stability of the pipe body 1 is stronger, and the condition of surface layering caused by long-time use is avoided; the addition of the anti-corrosion layer 14 further prolongs the service life of the pipe body 1, and the joint 3 is convenient for splicing the pipe body 1; the outer sheath 2 can protect the pipe body 1, the service life of the pipe body 1 is prolonged, and the outer sheath 2 is made of transparent PVC materials, is low in price and has an attractive effect; the slip ring 4 and the spacing ring 41 that establish of cover on the body 1, the convenient fixed body 1 position of adjusting, along with equipment removes or when using, can not influence the use because of the body 1 is too long.
The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (10)

1. The high-pressure polyester woven steel wire pipe is characterized by comprising a pipe body (1), wherein the pipe body (1) sequentially comprises an inner rubber layer (11), an explosion-proof layer (12), a cloth clamping rubber layer (13), an anticorrosive layer (14) and an outer rubber layer (15) from inside to outside, the explosion-proof layer (12) is connected between the inner rubber layer (11) and the cloth clamping rubber layer (13), and the anticorrosive layer (14) is connected between the cloth clamping rubber layer (13) and the outer rubber layer (15).
2. The terylene woven high-pressure steel wire tube according to claim 1, wherein the corrosion-resistant layer (14) is a polyethylene corrosion-resistant coating.
3. The terylene woven high-pressure steel wire tube according to claim 1, wherein the inner rubber layer (11) and the outer rubber layer (15) are made of ethylene propylene diene monomer.
4. The terylene woven high-pressure steel wire pipe according to claim 1, wherein the explosion-proof layer (12) is sequentially divided into a galvanized steel layer (123), a PVC layer (122) and a stainless steel woven mesh (121) from inside to outside; the PVC layer (122) is connected between the galvanized steel layer (123) and the stainless steel woven mesh (121).
5. The terylene woven high-pressure steel wire pipe according to claim 1, wherein the outer wall of the explosion-proof layer (12) is connected with a reinforcing rib (124), and the inner wall of the cloth sandwiched rubber layer (13) is provided with a matching groove (131) matched with the reinforcing rib (124); the extending direction of the reinforcing ribs (124) is parallel to the axis of the pipe body (1).
6. The terylene woven high-pressure steel wire pipe according to claim 1, wherein the outer wall of the explosion-proof layer (12) is connected with a convex strip (125), and the inner wall of the cloth-sandwiched rubber layer (13) is provided with a groove (132) matched with the convex strip (125); the extending direction of the convex strips (125) is parallel to the axis of the pipe body (1).
7. The terylene woven high-pressure steel wire pipe according to claim 1, wherein the outer wall of the explosion-proof layer (12) is provided with a rib (124) and a rib (125), and the extending directions of the rib (125) and the rib (124) are parallel to the axis of the pipe body (1); the inner wall of the cloth clamping rubber layer (13) is provided with a matching groove (131) matched with the reinforcing rib (124) and a groove (132) matched with the convex strip (125).
8. The terylene woven high-pressure steel wire tube according to claim 1, wherein the two ends of the tube body (1) are connected with connectors (3).
9. The terylene-woven high-pressure steel wire tube according to claim 1, wherein an outer sheath (2) is sleeved outside the tube body (1), and the outer sheath (2) is made of PVC.
10. The terylene woven high-pressure steel wire tube according to claim 1, wherein a slip ring (4) is sleeved outside the tube body (1), and a limit ring (41) is arranged outside the slip ring (4).
CN202221461384.3U 2022-06-10 2022-06-10 High-pressure steel wire pipe is woven to dacron Active CN217583518U (en)

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Application Number Priority Date Filing Date Title
CN202221461384.3U CN217583518U (en) 2022-06-10 2022-06-10 High-pressure steel wire pipe is woven to dacron

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Application Number Priority Date Filing Date Title
CN202221461384.3U CN217583518U (en) 2022-06-10 2022-06-10 High-pressure steel wire pipe is woven to dacron

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116379230A (en) * 2023-05-27 2023-07-04 中金液压胶管股份有限公司 Steel wire braiding reinforced hydraulic rubber hose

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116379230A (en) * 2023-05-27 2023-07-04 中金液压胶管股份有限公司 Steel wire braiding reinforced hydraulic rubber hose
CN116379230B (en) * 2023-05-27 2023-09-08 中金液压胶管股份有限公司 Steel wire braiding reinforced hydraulic rubber hose

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