CN203671049U - Water pipe of full corrosion-resistant coating structure - Google Patents
Water pipe of full corrosion-resistant coating structure Download PDFInfo
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- CN203671049U CN203671049U CN201320632508.4U CN201320632508U CN203671049U CN 203671049 U CN203671049 U CN 203671049U CN 201320632508 U CN201320632508 U CN 201320632508U CN 203671049 U CN203671049 U CN 203671049U
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- rubber
- resistant coating
- projecting part
- coating structure
- wall
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Abstract
The utility model discloses a water pipe of a full corrosion-resistant coating structure. The water pipe comprises an inner pipe, an outer wall, radial rubber bands, a packing layer, axial rubber bands, an opening component and a protrusion component. One end of the inner pipe is connected with the opening component and the other end of the inner pipe is connected with the protrusion component. Corrosion-resistant inner liner layers are arranged on the inner side of the inner pipe wall, the inner wall of the opening component and the inner wall of the protrusion component along the circumferential surfaces. The packing layer is arranged on the outer side of the inner pipe, the axial rubber bands are arranged on the outer side of the packing layer, the radial rubber bands are arranged on the outer side of the axial rubber bands, and the outer wall is arranged on the outer side of the axial rubber bands and the outer side of the radial rubber bands. An opening and a protrusion end are used so that connection can be convenient; the outer wall is used for protection and the packing layer is additionally arranged to increase the connecting strength; by the adoption of the rubber bands, the strength and the mechanics recovery capacity are improved; the inner pipe inner layer, the opening component inner layer and the protrusion component inner layer are provided with the corrosion-resistant inner liner layers, the full corrosion-resistant coating structure is formed on the inner wall of the whole pipe, and therefore the service life is prolonged.
Description
Technical field
The utility model relates to the pipeline material that engineering is used, and more particularly, relates to the conduit pipe of corrosion-resistant coating structure.
Background technique
In existing engineering construction process, often need to carry out pipeline installation, for fields such as Industrial Transport water pipeline, field irrigation, factory's plumbing.At present normally used is steel pipe, and cost is higher, causes correlation engineering cost therefore to climb to a higher point, and main cause is: the rise of (1) price of steel product causes the increase of cost; (2) reinforcement fabrication cost raises.In the time adopting artificial assembling reinforcement skeleton, manufacturing efficiency is lower, and the manufacture cycle is longer, easily produces substandard products; In the time adopting Special Equipment to carry out welding manner fixed installation, reduction in the numbers of seconds in shortening the manufacture cycle, but machinery cost can improve again; The in the situation that of a large amount of use iron and steel, easily cause the increase of overall volume and weight, and then bring more construction inconvenience; Simultaneously owing to for a long time contact with water quality, the also easily corrosion with supply pipe internal surface, for having plug in structure, not only water pipe inside has corrosion condition, and plug in structure is easier causes grafting not smooth because of corroding.
Model utility content
The purpose of this utility model is to overcome the deficiencies in the prior art, and a kind of conduit pipe with bell and spigot frame simple in structure, reasonable in design, with low cost is provided.
Technical purpose of the present utility model is achieved by following technical proposals:
The conduit pipe of full corrosion-resistant coating structure, comprises inner tube, outer wall, radially rubber reinforcement, packed layer, axial rubber muscle, opening features and projecting part, wherein:
One end of described inner tube is fixedly connected with opening features, forms opening end, and the other end is fixedly connected with projecting part, forms protruding terminus, is provided with groove at the front end edge circumferencial direction of described projecting part; Inwall at described opening features arranges anticorrosive inside liner along circumferential surface, along circumferential surface, anticorrosive inside liner is set at the inwall of described projecting part.
Along circumferential surface, anticorrosive inside liner is set in described inner pipe wall inner side, arranged outside in described inner tube has packed layer, at the arranged outside axial rubber muscle of described packed layer, its two ends are fixedly connected with projecting part with opening features respectively, at the radially rubber reinforcement of arranged outside of described axial rubber muscle, described radially rubber reinforcement is in the horizontal direction, along the round rubber that waits of circumference setting, be fixedly connected with axial rubber muscle, and be uniformly distributed along vertical direction; At axial rubber muscle and the arranged outside outer wall of rubber reinforcement radially.
In above-mentioned model utility scheme, described inner tube is selected pvc pipe material, and caliber is 850-900mm; The anticorrosive inside liner arranging in described opening features, projecting part and inner tube is that thickness is the fluorine carbon enamelled coating of 1-3mm or the epoxy resin layer that thickness is 1-3mm; Described packed layer is selected concrete layer or cement layer; Described outer wall is selected concrete layer or cement layer; Described axial rubber muscle is the rubber that vertical direction arranges, and its vertical direction length is consistent with interior length of tube; Described radially rubber reinforcement, in the horizontal direction, along the round rubber that waits of circumference setting, is fixedly connected with axial rubber muscle, and is uniformly distributed along vertical direction, for example 5-10/meters; Described axial rubber muscle is selected ethylene propylene rubber; The diameter of described overall conduit pipe is 1000mm; The internal diameter of described opening features and the external diameter of projecting part match, and to realize socket connection, are 2-5 at the groove of described projecting part front end setting.
Compared with prior art, advantage of the present utility model is as follows with beneficial effect: use opening with protruding terminus so that adjacent lines is convenient to be connected; In using outer wall to protect, increase packed layer to reinforce inner join strength; Adopt vertical direction and substantially horizontal that the mode of rubber reinforcement is set simultaneously, to promote intensity and the mechanics recovery capability of total, play better protective action; Adopt macromolecule resistant material, at interior inner tube layer, opening features internal layer and projecting part internal layer, anticorrosive inside liner is all set, after being connected and fixed, so that the anticorrosive inner lining structure that the inwall of whole pipeline has formed, to increase working life.
Brief description of the drawings
Fig. 1 is structural representation of the present utility model, wherein 1 is that opening end, 2 is that opening features, 3 is that outer wall, 4 is that inner tube, 5 is that radially rubber reinforcement, 6 is that packed layer, 7 is that axial rubber muscle, 8 is that protruding terminus, 9 is that groove, 10 is the anticorrosive inside liners that projecting part, 11 is inner tube, 12 is the anticorrosive inside liner of opening features, the 13 anticorrosive inside liners that are projecting part.
Embodiment
Further illustrate the technical solution of the utility model below in conjunction with specific embodiment.
As shown in Figure 1, structural representation of the present utility model, wherein 1 is that opening end, 2 is that opening features, 3 is that outer wall, 4 is that inner tube, 5 is that radially rubber reinforcement, 6 is that packed layer, 7 is that axial rubber muscle, 8 is that protruding terminus, 9 is that groove, 10 is the anticorrosive inside liners that projecting part, 11 is inner tube, 12 is the anticorrosive inside liner of opening features, the 13 anticorrosive inside liners that are projecting part.
One end of inner tube is fixedly connected with opening features, forms opening end, and the other end is fixedly connected with projecting part, forms protruding terminus, is provided with groove at the front end edge circumferencial direction of projecting part; Inwall at opening features arranges anticorrosive inside liner along circumferential surface, along circumferential surface, anticorrosive inside liner is set at the inwall of projecting part.
Along circumferential surface, anticorrosive inside liner is set in inner pipe wall inner side, arranged outside in inner tube has packed layer, at the arranged outside axial rubber muscle of described packed layer, its two ends are fixedly connected with projecting part with opening features respectively, at the radially rubber reinforcement of arranged outside of described axial rubber muscle, described radially rubber reinforcement is in the horizontal direction, along the round rubber that waits of circumference setting, be fixedly connected with axial rubber muscle, and be uniformly distributed along vertical direction; At axial rubber muscle and the arranged outside outer wall of rubber reinforcement radially.
In the above-described embodiment, described inner tube is selected pvc pipe material, and caliber is 900mm, and the diameter of overall conduit pipe is 1000mm; Be that thickness is the fluorine carbon enamelled coating of 1mm, is that thickness is the fluorine carbon enamelled coating of 1mm, is that thickness is the fluorine carbon enamelled coating of 1mm at the anticorrosive inside liner of inner tube setting at the anticorrosive inside liner of projecting part setting at the anticorrosive inside liner of opening features setting; Described packed layer is cement; Described outer wall is selected cement; Described axial rubber muscle is the rubber that vertical direction arranges, and its vertical direction length is consistent with interior length of tube; Described radially rubber reinforcement is uniformly distributed 5/meter along vertical direction; Described axial rubber muscle is selected ethylene propylene rubber; The internal diameter of described opening features and the external diameter of projecting part match, and to realize socket connection, are 4 at the groove of described projecting part front end setting.
Compared with prior art, advantage of the present utility model is as follows with beneficial effect: use opening with protruding terminus so that adjacent lines is convenient to be connected; In using outer wall to protect, increase packed layer to reinforce inner join strength; Adopt vertical direction and substantially horizontal that the mode of rubber reinforcement is set simultaneously, to promote intensity and the mechanics recovery capability of total, play better protective action; Adopt macromolecule resistant material, at interior inner tube layer, opening features internal layer and projecting part internal layer, anticorrosive inside liner is all set, after being connected and fixed, so that the anticorrosive inner lining structure that the inwall of whole pipeline has formed, to increase working life.
Above the utility model is done to exemplary description; should be noted that; in the situation that not departing from core of the present utility model, the replacement that is equal to that any simple distortion, amendment or other those skilled in the art can not spend creative work all falls into protection domain of the present utility model.
Claims (8)
1. the conduit pipe of full corrosion-resistant coating structure, it is characterized in that, comprise inner tube, outer wall, radially rubber reinforcement, packed layer, axial rubber muscle, opening features and projecting part, one end of wherein said inner tube is fixedly connected with opening features, the other end is fixedly connected with projecting part, is provided with groove at the front end edge circumferencial direction of described projecting part; Inwall at described opening features arranges anticorrosive inside liner along circumferential surface, along circumferential surface, anticorrosive inside liner is set at the inwall of described projecting part; Along circumferential surface, anticorrosive inside liner is set in described inner pipe wall inner side, arranged outside in described inner tube has packed layer, at the arranged outside axial rubber muscle of described packed layer, its two ends are fixedly connected with projecting part with opening features respectively, at the radially rubber reinforcement of arranged outside of described axial rubber muscle, described radially rubber reinforcement is in the horizontal direction, along the round rubber that waits of circumference setting, be fixedly connected with axial rubber muscle, and be uniformly distributed along vertical direction; At axial rubber muscle and the arranged outside outer wall of rubber reinforcement radially.
2. the conduit pipe of full corrosion-resistant coating structure according to claim 1, is characterized in that, described inner tube is pvc pipe material, and caliber is 850-900mm, and the diameter of described overall conduit pipe is 1000mm.
3. the conduit pipe of full corrosion-resistant coating structure according to claim 1, is characterized in that, described packed layer is concrete layer or cement layer; Described outer wall is concrete layer or cement layer.
4. the conduit pipe of full corrosion-resistant coating structure according to claim 1, is characterized in that, described axial rubber muscle is the rubber that vertical direction arranges, and its vertical direction length is consistent with interior length of tube.
5. the conduit pipe of full corrosion-resistant coating structure according to claim 1, is characterized in that, described radially rubber reinforcement is uniformly distributed 5-10/meters along vertical direction.
6. the conduit pipe of full corrosion-resistant coating structure according to claim 1, is characterized in that, the internal diameter of described opening features and the external diameter of projecting part match, and is 2-5 at the groove of described projecting part front end setting.
7. the conduit pipe of full corrosion-resistant coating structure according to claim 1, is characterized in that, described axial rubber muscle is ethylene propylene rubber.
8. the conduit pipe of full corrosion-resistant coating structure according to claim 1, it is characterized in that, the anticorrosive inside liner arranging in described opening features, projecting part and inner tube is that thickness is the fluorine carbon enamelled coating of 1-3mm or the epoxy resin layer that thickness is 1-3mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320632508.4U CN203671049U (en) | 2013-10-14 | 2013-10-14 | Water pipe of full corrosion-resistant coating structure |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201320632508.4U CN203671049U (en) | 2013-10-14 | 2013-10-14 | Water pipe of full corrosion-resistant coating structure |
Publications (1)
Publication Number | Publication Date |
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CN203671049U true CN203671049U (en) | 2014-06-25 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201320632508.4U Expired - Fee Related CN203671049U (en) | 2013-10-14 | 2013-10-14 | Water pipe of full corrosion-resistant coating structure |
Country Status (1)
Country | Link |
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CN (1) | CN203671049U (en) |
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2013
- 2013-10-14 CN CN201320632508.4U patent/CN203671049U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140625 Termination date: 20211014 |