CN211690597U - Water supply and sewage discharge pipeline for building - Google Patents

Abstract

The utility model discloses a water supply sewage pipes for building belongs to building engineering technical field. The pipeline comprises a main pipeline and branch pipelines, wherein the main pipeline comprises an outer wall and an inner wall, a partition plate is further arranged between the outer wall and the inner wall, a first sewage discharge pipeline is arranged on one side of the partition plate, a second sewage discharge pipeline is arranged on the other side of the partition plate, a first sewage discharge branch port is arranged at the position, corresponding to the first sewage discharge pipeline, of the front end of the outer wall in a penetrating mode, a second sewage discharge branch port is arranged at the position, corresponding to the second sewage discharge pipeline, of the front end of the outer wall in a penetrating mode, a sewage utilization port is arranged at the position, corresponding to the first sewage discharge pipeline, of the rear end of the outer wall in a penetrating mode, and; the inner side of the inner wall is provided with a water supply pipeline, the cross section of the front end of the water supply pipeline is provided with a water supply shunt port, and the cross section of the rear end of the water supply pipeline is provided with a water supply port. The utility model discloses in with water supply pipe and drainage pipe integration together, reduced the quantity and the area occupied of pipeline.

Description

Water supply and sewage discharge pipeline for building

Technical Field

The utility model relates to a building engineering technical field, in particular to water supply sewage pipes for building.

Background

With the rapid development of national economy, various buildings emerge endlessly, and water supply and sewage discharge of the buildings are indispensable to meet the living needs of people. In the prior art, a water supply pipeline is often independently arranged for supplying water for production and living to each water consumption point, and a drainage pipeline is additionally and independently arranged for discharging sewage generated in production and living. However, the above water supply and sewage discharge method requires too many pipes to be installed inside the building, which is complicated in construction, high in construction cost, and not easy to maintain, and too many pipes may destroy the bearing capacity of the building.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems of complicated construction, high construction cost and the like of building water supply and sewage discharge in the prior art, the utility model provides a water supply and sewage discharge pipeline for building, the pipeline comprises: the pipeline comprises a main pipeline and branch pipelines, wherein two ends of the main pipeline are closed ends, the main pipeline comprises an outer wall and an inner wall, and hollow structures are arranged between the outer wall and the inner wall and on the inner side of the inner wall; a partition board is further arranged between the outer wall and the inner wall, a first sewage discharge pipeline is arranged on one side of the partition board, a second sewage discharge pipeline is arranged on the other side of the partition board, a first sewage discharge branch port is arranged at the position, corresponding to the first sewage discharge pipeline, of the front end of the outer wall in a penetrating mode, a second sewage discharge branch port is arranged at the position, corresponding to the second sewage discharge pipeline, of the front end of the outer wall in a penetrating mode, a sewage utilization port is arranged at the position, corresponding to the first sewage discharge pipeline, of the rear end of the outer wall in a penetrating mode, and a sewage treatment port is arranged at the position, corresponding to the second sewage discharge pipeline, of the; the inner side of the inner wall is provided with a water supply pipeline, the cross section of the front end of the water supply pipeline is provided with a water supply shunt port, and the cross section of the rear end of the water supply pipeline is provided with a water supply port.

Optionally, the water supply branch port, the first sewage discharge branch port, the second sewage discharge branch port, the sewage utilization port and the sewage treatment port are all provided with first threads; one end of the branch pipeline is provided with a second thread, and the second thread is matched with the first thread.

Optionally, a purifier is arranged on the feed water diversion port.

Optionally, a first filter layer is disposed on the first waste diversion port.

Optionally, a second filter layer is arranged on the sewage utilization port.

Optionally, the number of the water supply diversion port, the number of the first sewage discharge diversion port and the number of the second sewage discharge diversion port are all set to be a plurality.

The utility model provides a technical scheme's beneficial effect is:

the utility model integrates the water supply pipeline and the drainage pipeline, thus reducing the quantity and the occupied area of the pipelines; secondly, in the utility model, the drainage pipeline is divided into the first drainage pipeline and the second drainage pipeline through the partition plate, not all the sewage is directly treated in a centralized way to a sewage treatment plant, but the sewage with light pollution degree is filtered in two layers and recycled, and the sewage with different pollution degrees is treated in different ways, so that the water resource is greatly saved; in addition, the branch pipeline and the main pipeline can be connected through threads to convey the production and living water or sewage, the connection mode is simple and convenient, the operation is easy, the branch pipeline and the main pipeline are detachably connected, when a certain pipeline is damaged, only the damaged pipeline needs to be replaced correspondingly, all the pipelines do not need to be replaced, the maintenance is convenient, and the maintenance cost is reduced; moreover, the water supply diversion port is provided with the purifier, so that the production and living water delivered by a water supply plant can be purified and then delivered to each water consumption point, and the quality of the production and living water is ensured.

Drawings

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

FIG. 1 is a schematic structural view of a water supply and sewerage pipeline for building provided by the present invention;

reference numerals: 1-a main pipeline; 2-branch pipes; 3-outer wall; 4-inner wall; 5-a separator; 6-a first sewerage pipeline; 7-a second sewerage pipeline; 8-a first sewage draining split-flow port; 9-a second blowdown diverging port; 10-sewage utilization port; 11-sewage treatment port; 12-a water supply pipeline; 13-a water supply shunt port; 14-water supply port; 15-a first thread; 16-a second thread; 17-a purifier; 18-a first filter layer; 19-a second filter layer.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

It is to be understood that the terms "front", "back", "inner", "outer" and the like are used herein for descriptive purposes only. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Fig. 1 is a schematic structural view of a water supply and sewage pipeline for buildings provided by the utility model. Referring to fig. 1, the pipeline comprises a main pipeline 1 and branch pipelines 2, two ends of the main pipeline 1 are closed ends, the main pipeline 1 comprises an outer wall 3 and an inner wall 4, and the inner sides of the outer wall 3 and the inner wall 4 are both hollow structures; a partition plate 5 is further arranged between the outer wall 3 and the inner wall 4, one side of the partition plate 5 is provided with a first sewage discharge pipeline 6, the other side of the partition plate 5 is provided with a second sewage discharge pipeline 7, a first sewage discharge branch port 8 is arranged at the position, corresponding to the first sewage discharge pipeline 6, of the front end of the outer wall 3 in a penetrating manner, a second sewage discharge branch port 9 is arranged at the position, corresponding to the second sewage discharge pipeline 7, of the front end of the outer wall 3 in a penetrating manner, a sewage utilization port 10 is arranged at the position, corresponding to the first sewage discharge pipeline 6, of the rear end of the outer wall 3 in a penetrating manner, and a sewage treatment port 11 is arranged at the position, corresponding to the; the inner side of the inner wall 4 is provided with a water supply pipeline 12, the cross section of the front end of the water supply pipeline 12 is provided with a water supply branch opening 13, and the cross section of the rear end of the water supply pipeline 12 is provided with a water supply opening 14.

It should be noted that, the main pipe 1 is formed by nesting two hollow cylinders with different diameters and closing two ends, at this time, the surface of the hollow cylinder with a larger diameter is the outer wall 3, the surface of the hollow cylinder with a smaller diameter is the inner wall 4, and the space between the outer wall 3 and the inner wall 4 is hollow, so that a first sewage discharge pipeline 6 and a second sewage discharge pipeline 7 are formed and can be used for conveying sewage; the hollow part of the inner side of the inner wall 4 forms a water supply pipeline 12 which can be used for conveying production and living water, so that the water supply pipeline and a sewage pipeline can be integrated together, and the number and the occupied area of the pipelines are reduced.

The production and living water can be reclaimed water, the reclaimed water refers to water which can be beneficially used after wastewater or rainwater is properly treated and reaches a certain water quality index, certain use requirements are met, the reclaimed water is conveyed to each water consumption point for production and living, the ecological environment can be improved, the virtuous cycle of water ecology is realized, and the water consumption cost can be reduced.

Secondly, still be provided with baffle 5 between outer wall 3 and the inner wall 4, baffle 5 has divided into 2 parts with the space between outer wall 3 and the inner wall 4, and partly is first sewage pipes 6, and another part is second sewage pipes 7. Because the pollution degree of the sewage that the user production life produced is different, sewage can be retrieved through simple filtration and recycle a bit, and sewage then must be retrieved sewage treatment plant and handle a bit, therefore the utility model discloses with sewage pipes divide for first sewage pipes 6 and second sewage pipes 7, sewage that the pollution degree is lighter can be retrieved and recycled through first sewage pipes 6, like kitchen water, sewage that the pollution degree is heavier can be handled to sewage treatment plant through second sewage pipes 7.

In addition, since the main pipe 1 is a pipe with both ends closed, it is necessary to provide a water inlet and outlet for inflow and outflow of water for production and domestic use and sewage. In the utility model, a first sewage discharge branch port 8 is arranged at the front end of the outer wall 3 and corresponding to the first sewage discharge pipeline 6 in a penetrating way and is used for connecting the branch pipeline 2, so that sewage with light pollution degree flows into the first sewage discharge pipeline 6 through the first sewage discharge branch port 8; a second sewage discharge branch port 9 is arranged at the front end of the outer wall 3 and corresponds to the second sewage discharge pipeline 7 in a penetrating manner and is used for connecting the branch pipeline 2 so as to enable sewage with a heavy pollution degree to flow into the second sewage discharge pipeline 7 through the second sewage discharge branch port 9; a sewage utilization port 10 is arranged at the rear end of the outer wall 3 and penetrates through the position corresponding to the first sewage discharge pipeline 6 and is used for connecting the branch pipeline 2 so as to recycle sewage with a light pollution degree in the first sewage discharge pipeline 6 through the sewage utilization port 10; the sewage treatment mouth 11 that sets up is run through with the position department that second sewage pipes 7 correspond in 3 rear ends of outer wall for connect lateral conduit 2, handle the sewage in the second sewage pipes 7 through sewage treatment mouth 11 row to the sewage treatment plant. The utility model is provided with a water supply port 14 on the cross section of the rear end of the water supply pipeline 12, which is used for connecting the branch pipeline 2, so that the water for production and living provided by the water supply plant flows into the water supply pipeline 12 through the water supply port 14; a water supply branch opening 13 arranged on the cross section of the front end of the water supply pipeline 12 is used for connecting the branch pipeline 2 so as to lead the water for production and living in the water supply pipeline 12 to flow to each water using point through the water supply branch opening 13 for use.

Furthermore, trunk line 1 and lateral conduit 2's size can be set up according to actual conditions by the constructor, and lateral conduit 2's number and length also can be set up according to actual conditions by the constructor, the utility model discloses do not do the restriction to this.

Furthermore, a water supply branch port 13, a first sewage discharge branch port 8, a second sewage discharge branch port 9, a sewage utilization port 10 and a sewage treatment port 11 are all provided with first threads 15; one end of the branch pipe 2 is provided with a second thread 16, the second thread 16 matching the first thread 15.

It should be noted that the matching of the second thread 16 and the first thread 15 means that one end of the branch pipe 2 is screwed into the water supply branch port 13 (or the first sewage discharge branch port 8, the second sewage discharge branch port 9, the sewage utilization port 10, or the sewage treatment port 11) and then is screwed tightly, so that water leakage is avoided. Therefore, the branch pipeline 2 and the main pipeline 1 can be connected in a simple rotating mode to convey the production and living water or sewage, and the connecting mode is simple and convenient and easy to operate; in addition, because the connection can be dismantled between lateral conduit 2 and trunk line 1, when certain pipeline damages, only need to correspond the pipeline of changing the damage, need not change whole pipelines, convenient maintenance has reduced cost of maintenance.

In addition, the structure of the branch pipe 2 for transporting sewage and the structure of the branch pipe 2 for transporting the process water are not identical. The branch pipeline 2 one end of carrying sewage to first sewage pipes 6 and second sewage pipes 7 is provided with the second screw thread for screw in first sewage branch outlet 8 (or second sewage branch outlet 9) to connect first sewage pipes 6 (or second sewage pipes 7), the other end is provided with the buckle (not shown in the figure), a drain for connecting the sewage recovery point, in order to arrange the sewage that user's production life produced to first sewage pipes 6 (or second sewage pipes 7). 2 one ends of lateral conduit to sewage treatment plant transport sewage are provided with the second screw thread for screw in sewage treatment mouth 11 to be connected with second sewage pipes 7, the other end is irritated with sewage treatment plant's collection sewage and is connected, be used for carrying sewage among the second sewage pipes 7 to sewage treatment plant, as for the concrete connection mode that lateral conduit 2's the other end and sewage treatment plant's collection sewage irritated can irritate according to sewage treatment plant's collection and set up, like welding, bonding, threaded connection etc, the utility model discloses do not restrict.

2 one ends of lateral conduit to recycle equipment transport sewage are provided with the second screw thread for screw in sewage utilizes mouth 10, with first sewage pipe 6 connection, the other end is connected with recycle equipment, be arranged in carrying the sewage in first sewage pipe 6 to recycle equipment (watering equipment, cleaning equipment), retrieve and recycle, can set up according to recycle equipment's particular case as to the other end of lateral conduit 2 and recycle equipment's concrete connection mode, like threaded connection, buckle connection etc, the utility model discloses do not restrict.

One end of a branch pipeline 2 for conveying the production and living water to the water consumption point is provided with a second thread which is screwed into the water supply branch port 13 to be connected with the water supply pipeline 12, and the other end of the branch pipeline is provided with a thread matched with the water tap connector to be connected with the water tap to convey the production and living water to each water tap. A2 one ends of lateral conduit for carrying production domestic water to water supply pipe 12 is provided with the second screw thread for screw in supply water mouth 14 to be connected with water supply pipe 12, the other end is connected with the water supply equipment of water supply plant, in order to carry the production domestic water that the water supply plant provided to water supply pipe 12, as for the concrete connection mode of the other end of lateral conduit 2 and water supply equipment can set up according to water supply equipment's particular case, like threaded connection, buckle connection etc, the utility model discloses do not restrict.

Optionally, a purifier 17 is arranged on the water supply branch opening 13, so that the production and living water delivered by the water supply plant can be purified and then delivered to each water consumption point, and the quality of the production and living water is ensured.

Optionally, a first filtering layer 18 is disposed on the first sewage diversion port 8, and a second filtering layer 19 is disposed on the sewage utilization port 10. It should be noted that, the filter screen density of first filter layer 18 is less than the filter screen density of second filter layer 19, first filter layer 18 can carry out prefilter to great impurity in the sewage, second filter layer 19 can carry out secondary filter to less impurity in the sewage, through twice filtration, can filter most impurity in the sewage, the sewage after the filtration can carry out certain degree of recycling, for example watering vegetation such as flowers and plants trees, wash the soil etc., the water resource has greatly been practiced thrift.

Optionally, the number of feedwater diffluence mouth 13, first blowdown diffluence mouth 8, second blowdown diffluence mouth 9 all sets up to a plurality of, the utility model discloses in use feedwater diffluence mouth 13 to be 6, first blowdown diffluence mouth 8 and second blowdown diffluence mouth 9 and be 3 to explain as the example. It should be noted that, to a house, can not only have a water point, also can not only have a sewage recovery point, therefore the utility model discloses in can all set up the number of feedwater branch outlet 13, first blowdown branch outlet 8, second blowdown branch outlet 9 into a plurality ofly to the production domestic water to in the water supply line 12 shunts, carries to each water point, also can collect the sewage of a plurality of sewage recovery points in first blowdown pipeline 6 and second blowdown pipeline 7.

The utility model discloses in the complete working process who provides a water supply sewage pipes for building can be for: one end of 1 branch pipeline 2 is connected with water supply equipment of a water supply plant, and the other end is connected with a water supply port 14; one end of each of 6 branch pipelines 2 is respectively connected with 6 water supply branch ports 13, and the other end of each branch pipeline is connected with 6 different water taps; one end of each of the 3 branch pipelines 2 is respectively connected with 3 first sewage discharge branch ports 8, and the other end of each branch pipeline is respectively connected with sewage discharge ports of 3 different sewage recovery points; one end of each of the 3 branch pipelines 2 is respectively connected with 3 second sewage discharge branch ports 9, and the other end of each branch pipeline is respectively connected with the sewage discharge ports of the other 3 different sewage recovery points; connecting 1 branch pipeline 2 with a sewage utilization port 10, and connecting the other end with irrigation equipment; 1 branch pipeline 2 is connected with a sewage treatment port 11, and the other end is connected with a sewage collecting tank of a sewage treatment plant.

In this way, the domestic and industrial water provided by the water supply plant can be delivered to the water supply pipe 12 through the branch pipes 2, and then delivered to the plurality of taps for use through the plurality of branch pipes 2. The sewage generated by the production and the living of the user can flow into the plurality of branch pipelines 2 through the sewage outlets of the sewage recovery points and finally is collected into the first sewage discharge pipeline 6 or the second sewage discharge pipeline 7. The sewage filtered by the 2 layers in the first sewage discharge pipeline 6 can be conveyed to irrigation equipment through the branch pipeline 2 for recycling; the sewage in the second sewage discharge pipeline 7 can be conveyed to a sewage collecting tank of a sewage treatment plant through the branch pipeline 2 for centralized treatment.

It is worth explaining that the water supply pipeline and the drainage pipeline are integrated together, so that the quantity and the occupied area of the pipelines are reduced; secondly, in the utility model, the drainage pipeline is divided into the first drainage pipeline and the second drainage pipeline through the partition plate, not all the sewage is directly treated in a centralized way to a sewage treatment plant, but the sewage with light pollution degree is filtered in two layers and recycled, and the sewage with different pollution degrees is treated in different ways, so that the water resource is greatly saved; in addition, the branch pipeline and the main pipeline can be connected through threads to convey the production and living water or sewage, the connection mode is simple and convenient, the operation is easy, the branch pipeline and the main pipeline are detachably connected, when a certain pipeline is damaged, only the damaged pipeline needs to be replaced correspondingly, all the pipelines do not need to be replaced, the maintenance is convenient, and the maintenance cost is reduced; moreover, the water supply diversion port is provided with the purifier, so that the production and living water delivered by a water supply plant can be purified and then delivered to each water consumption point, and the quality of the production and living water is ensured.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (6)

1. The water supply and sewage discharge pipeline for the building is characterized by comprising a main pipeline (1) and branch pipelines (2), wherein two ends of the main pipeline (1) are closed ends, the main pipeline (1) comprises an outer wall (3) and an inner wall (4), and hollow structures are arranged between the outer wall (3) and the inner wall (4) and on the inner side of the inner wall (4); a partition plate (5) is further arranged between the outer wall (3) and the inner wall (4), a first sewage discharge pipeline (6) is arranged on one side of the partition plate (5), a second sewage discharge pipeline (7) is arranged on the other side of the partition plate, a first sewage discharge branch opening (8) penetrates through the position, corresponding to the first sewage discharge pipeline (6), of the front end of the outer wall (3), a second sewage discharge branch opening (9) penetrates through the position, corresponding to the second sewage discharge pipeline (7), of the front end of the outer wall (3), a sewage utilization opening (10) penetrates through the position, corresponding to the first sewage discharge pipeline (6), of the rear end of the outer wall (3), and a sewage treatment opening (11) penetrates through the position, corresponding to the second sewage discharge pipeline (7), of the rear end of the outer wall (3); the inner wall (4) is inboard to be water supply pipe (12), be provided with on the front end cross section of water supply pipe (12) and feed water reposition of redundant personnel mouth (13), be provided with on the water supply pipe (12) rear end cross section and supply water mouth (14).

2. The water supply and sewage pipeline for the building as claimed in claim 1, wherein the water supply branch port (13), the first sewage discharge branch port (8), the second sewage discharge branch port (9), the sewage utilization port (10) and the sewage treatment port (11) are all provided with a first thread (15); one end of the branch pipeline (2) is provided with a second thread (16), and the second thread (16) is matched with the first thread (15).

3. The water supply and sewage pipeline for the building as claimed in claim 1, characterized in that the water supply branch port (13) is provided with a purifier (17).

4. A water and sewage pipeline for building according to claim 1, characterized in that the first sewage diversion port (8) is provided with a first filter layer (18).

5. The water supply and sewage pipeline for building as claimed in claim 4, characterized in that a second filter layer (19) is arranged on the sewage utilization port (10).

6. The water supply and sewage pipeline for the building as claimed in claim 1, wherein the number of the water supply branch port (13), the first sewage branch port (8) and the second sewage branch port (9) is set to be plural.

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