CN113187027B - Double-arc flat pipeline water supply system for building - Google Patents

Abstract

The invention discloses a water supply system of a double-arc flat pipeline for a building, which comprises a pipeline, one or more water knockout drum modules, a turning module, a water outlet module and a wall penetrating module; the wall of the double-arc flat pipeline comprises a planar upper surface, a planar lower surface, a cambered left side surface and a cambered right side surface, and the lower surface is close to the building mounting surface; the water knockout drum module is arranged below the suspended ceiling or on the wall body, and the turning module, the water outlet module and the wall penetrating module are all arranged in the wall body; the inside of the turning module is provided with a bending channel, the inside of the water outlet module is provided with a conversion elbow pipe fitting, and the conversion elbow pipe fitting has the function of converting a double-arc flat pipeline into a circular pipeline; the water supply system has the function of replacing pipelines. The system has the characteristics of assembly type integration, has reasonable structural design, is quick to construct, convenient to maintain, environment-friendly and low in consumption, eliminates the problems of water leakage, difficult maintenance and secondary pollution of water quality of the pipeline, greatly improves the construction efficiency, reduces the construction waste and lightens the labor intensity.

Description

Double-arc flat pipeline water supply system for building

Priority statement

The present application claims priority from the chinese patent office, application number 2021100066808, entitled "a new construction water supply double round line pipe system", filed on day 05, 2021, 01, the entire contents of which are incorporated herein by reference.

Technical Field

The invention relates to the technical field of building water supply, in particular to a double-arc flat pipeline water supply system for a building.

Background

Tap water pipeline technology commonly adopted in the domestic building field is also the traditional technology in the last century, and commonly used pipelines are made of materials such as metal, plastic and the like, such as: rigid pipelines such as stainless steel, copper, polypropylene PPR, PE and the like, and the cross section of the pipeline is 100% round. When the rigid circular pipeline is installed and used, the circular section brings a lot of inconvenience to installation during construction, and the circular section occupies large space, because the pipeline can not be obviously installed on the surface of a wall basically due to influence on aesthetic feeling; the pipeline is buried in the wall body and the floor, which brings a plurality of problems of difficulty in installation and construction, increased construction cost, difficult maintenance, ageing of the pipeline and the like. By adopting the double-arc flat pipeline, the sectional area of the pipeline is reduced in height, the sectional area is increased compared with that of a circular pipeline, and the flow rate of water flow is obviously increased, so that the smooth flow of water is facilitated; the flat pipeline with double circular arcs is convenient to construct, the pipeline can be arranged at the positions of a building installation surface such as a wall body, a suspended ceiling and the like in a clinging manner, the thickness of the plastering layer and the leveling layer can cover the pipeline to prevent the pipeline from being exposed, and the pipeline is very convenient to maintain and replace due to the fact that the pipeline is arranged in the plastering layer and the leveling layer. The pipeline can be arranged in the room obviously without affecting the aesthetic feeling, and even can be combined with other decorative components for use; the method can be combined with different requirements of building and decoration, and forms of building components, decorative lines, designs and installation, such as assembled wallboard, presser foot lines, skirting lines and the like. In addition, the installation construction of the traditional pipeline system has higher technical dependence on constructors, and the technical level of the constructors influences the construction quality of the pipeline system. The direct-insertion type rapid connection construction mode of the integrated module has low technical dependence on constructors, and the constructors can easily complete the installation of the integrated tap water pipeline system by only constructing according to the drawing and installing other workers on the construction site and the decoration site. In a word, the traditional building tap water pipeline system has a series of unresolved problems such as low construction efficiency, material consumption, labor consumption, high energy consumption, secondary pollution, difficult maintenance and the like, and is obviously not matched with the building technology which is developed at high speed, and the invention of the patent is developed aiming at the problems.

Disclosure of Invention

In order to overcome the defects in the background art, the technical scheme adopted by the invention for solving the technical problems is as follows:

the invention provides a water supply system of a double-arc flat pipeline for a building, which comprises one or more turning modules, one or more water outlet modules, one or more path pipes and a plurality of double-arc flat pipelines, wherein the double-arc flat pipeline comprises a flexible double-arc flat pipeline, and the water supply system comprises the following components:

the pipe wall of each double-arc flat pipe comprises a planar upper surface, a planar lower surface, an arc-shaped left side surface and an arc-shaped right side surface;

a bending channel is arranged in the turning module, two ends of the bending channel extend to two side surfaces of the turning module respectively, and the bending channel is matched with the flexible double-arc flat pipeline so as to enable the flexible double-arc flat pipeline to pass through the bending channel;

the inside of the water outlet module is provided with a pipe fitting clamping seat and a conversion elbow pipe fitting for converting the flat pipeline with a threaded wire port into a round pipeline, the conversion elbow pipe fitting is fixed on the pipe fitting clamping seat, one end of the conversion elbow pipe fitting extends to a double-arc flat pipeline shortcut socket on one side surface of the water outlet module, the other end of the conversion elbow pipe fitting extends to the other side surface of the water outlet module and is used for being connected with water equipment, and the double-arc flat pipeline is communicated with the conversion elbow pipe fitting in a sealing way through the double-arc flat pipeline shortcut socket;

The turning module and the water outlet module are arranged in the wall body, and the planar lower surface of the double-arc flat pipeline connected with the turning module and/or the water outlet module is parallel to the surface of the building installation surface;

the path pipe is arranged between the inlet of the turning module and the outlet of the turning module and the inlet of the water outlet module, and is sleeved outside the double-arc flat pipeline, and the path pipe is used for separating the double-arc flat pipeline from a wall body or a floor slab, so that the double-arc flat pipeline can be drawn for replacement.

Further, the water supply system of the double-arc flat pipeline for the building further comprises a water separator module, wherein the water separator module comprises a box body and a water separator arranged in the box body; the water knockout drum module includes single-tube type water knockout drum module and double-tube type water knockout drum module, wherein:

the water separator of the single-tube water separator module comprises a water inlet and a plurality of water outlets, a water collecting tank is arranged in the water separator, and the water inlet and the water outlets are communicated with the water collecting tank; the side surface of the box body is also provided with double-arc flat pipeline shortcut sockets corresponding to the water inlets and the water outlets one by one, and the double-arc flat pipeline is communicated with the water inlets and the water outlets in a sealing way through the double-arc flat pipeline shortcut sockets;

The number of the water separators of the double-pipe type water separator module is two, one water separator is used for distributing a cold water pipeline, and a double-arc flat pipeline quick socket of a water inlet of the double-arc flat pipeline quick socket is in sealing connection with a cold water source pipeline; the other water separator is used for distributing a hot water pipeline, and a double-arc flat pipeline shortcut socket of the water inlet is connected with a hot water source pipeline in a sealing way;

the water separator module is arranged below a ceiling or on a wall body, and the double-arc flat pipeline communicated with the water outlet of the water separator module changes the pipeline circulation direction through the turning module and/or the elbow pipe fitting.

Further, the double-arc flat pipeline water supply system for the building further comprises a wall penetrating module, a straight pipeline or an S-shaped pipeline is arranged in the wall penetrating module, two ends of the straight pipeline extend to double-arc flat pipeline quick sockets on two opposite side surfaces of the wall penetrating module respectively, the double-arc flat pipeline further comprises a rigid double-arc flat pipeline, and the rigid double-arc flat pipeline or the flexible double-arc flat pipeline is in sealed communication with the straight pipeline or the S-shaped pipeline through the double-arc flat pipeline quick sockets;

the wall penetrating module is arranged in the wall body and provides a wall penetrating passage for the double-arc flat pipeline, wherein the wall penetrating module provided with the straight-through pipeline provides a wall penetrating passage with equal height, and the wall penetrating module provided with the S-shaped pipeline provides wall penetrating passages with different heights.

Optionally, the water outlet module comprises a double hole form and/or a single hole form, wherein:

the water outlet module in the form of double holes is provided with two conversion elbow pipe fittings and two double-arc flat pipeline shortcut sockets in one-to-one correspondence, wherein one conversion elbow pipe fitting is communicated with a cold water pipeline through the corresponding double-arc flat pipeline shortcut socket, and the other conversion elbow pipe fitting is communicated with a hot water pipeline through the corresponding double-arc flat pipeline shortcut socket;

the single-hole water outlet module is provided with a conversion elbow pipe fitting and a corresponding double-arc flat pipeline shortcut socket, and the conversion elbow pipe fitting is communicated with a cold water pipeline or a hot water pipeline through the corresponding double-arc flat pipeline shortcut socket;

the sleeve between the turning module and the water outlet module forms an inserting path of a double-arc flat pipeline, and the sleeve is directly embedded in a wall or a floor slab in the civil engineering construction stage or is embedded in a wall grooving mode in the decoration reconstruction stage; the inlet and the outlet of the turning module and the inlet of the water outlet module are respectively provided with a path pipe quick socket, the path pipe quick sockets are arranged on the periphery of the double-arc flat pipeline quick sockets, and the path pipe quick sockets are used for being inserted into the sleeve.

Further, the water supply system is installed in a manner comprising:

A. the double-arc flat pipeline is directly buried in a wall plastering layer or a floor leveling layer in a hidden manner; the double-arc flat pipeline cannot be replaced;

B. the double-arc flat pipeline is arranged on the surface of a wall body or the surface of a floor leveling layer in an exposed mode, so that the double-arc flat pipeline can be replaced;

C. the flexible double-arc flat pipeline is inserted in the path pipe, so that the replacement of the pipeline is realized;

D. the double-arc flat pipeline adopts a flexible double-arc flat pipeline, a path pipe, a turning module and a water outlet module to be buried in a wall locally; the double-arc flat pipeline of the part in the suspended ceiling is arranged under the ceiling; the double-arc flat pipeline can be replaced;

E. the double-arc flat pipeline is arranged in the decorating line, the skirting line, the integrated wallboard and/or the ceiling so that the double-arc flat pipeline can be replaced;

F. the double-arc flat pipeline is arranged on the surface of a wall body and/or a ceiling, and if a pipeline branching condition occurs, the double-arc flat pipeline is connected through one or more straight-through joints, bent joints, tee joints and/or four-way joints, so that the double-arc flat pipeline can be replaced.

Optionally, the double-arc flat pipeline is a rigid pipeline or a flexible pipeline, and the material of the double-arc flat pipeline is one of metal, plastic and composite material; if the double-arc flat pipeline turns, one of the following modes is adopted:

in the first mode, the double-arc flat pipeline is a flexible pipeline, the flexible pipeline is directly bent, and the turning angle range of the flexible pipeline is 15-170 degrees;

in a second mode, the double-arc flat pipeline is a rigid pipeline, an elbow pipe fitting is used as a turning connecting piece of the two double-arc flat pipelines, and the turning angle range of the elbow pipe fitting is 15-170 degrees;

in a third mode, the double-arc flat pipeline is formed by butt joint of a rigid pipeline and a flexible pipeline, a turning module and an elbow pipe fitting are used as turning connecting pieces of the two double-arc flat pipelines, and the turning angle range of the turning module is 55-110 degrees; the angle of turning using the elbow pipe fitting ranges from 15 deg. to 170 deg..

Optionally, the double-arc flat pipeline adopts a fastening mode and/or an adhesive mode to fix the pipeline, wherein:

the buckling mode is to fix the double-arc flat pipeline on a wall body, the ground or a ceiling surface by buckles at intervals;

The gluing mode is to fix the pipeline on the wall, the ground or the ceiling by adopting a double-sided adhesive tape, wherein the double-sided adhesive tape is directly adhered to one side of the pipeline when the double-arc flat pipeline is produced or adhered to one side of the pipeline in the construction stage.

Optionally, the double-arc flat pipeline comprises rigid pipelines and/or flexible pipelines, and the rigid pipelines, the flexible pipelines and the rigid pipelines and the flexible pipelines are connected in a direct insertion, welding, clamping, threading or gluing way;

the double-arc flat pipeline quick socket for directly inserting and connecting the double-arc flat pipeline is provided with a double-arc flat opening matched with the double-arc flat pipeline, and a sealing ring matched with the double-arc flat pipeline is arranged inside the double-arc flat opening.

Further, the water supply system of the double-arc flat pipeline for the building further comprises an adapter, wherein one end of the adapter is provided with a circular pipe connector, and the other end of the adapter is provided with a flat quick-connection connector, the circular pipe connector is used for connecting a circular pipeline, and the flat quick-connection connector is used for connecting the double-arc flat pipeline; the adapter is in the form of a joint or elbow.

In another aspect, the present invention provides a second type of building bi-circular arc flat conduit watering system comprising a bi-circular arc flat conduit, a functional module, and a connecting tube, wherein:

the connecting pipe fitting comprises one or more of a straight-through joint, an elbow, a tee joint and a four-way joint, wherein the elbow, the tee joint and the four-way joint comprise a plane and/or vertical surface connecting form;

the functional module comprises one or more of a water separator module, a turning module, a water outlet module and a wall penetrating module, wherein:

the water separator module comprises a water separator, the water separator comprises a water inlet and a plurality of water outlets, a water collecting tank is arranged in the water separator, the water inlet and the water outlets are communicated with the water collecting tank, and double-arc flat pipeline quick sockets are respectively arranged in one-to-one correspondence with the water inlet and the water outlets;

a bending channel is arranged in the turning module, two ends of the bending channel extend to two side surfaces of the turning module respectively, and the bending channel is matched with the double-arc flat pipeline so as to pass through the bending channel;

the inside of the water outlet module is provided with a conversion elbow pipe fitting for converting a flat pipeline with a threaded wire port into a circular pipeline, one end of the conversion elbow pipe fitting extends to a double-arc flat pipeline shortcut socket on one side surface of the water outlet module, the other end of the conversion elbow pipe fitting extends to the other side surface of the water outlet module and is used for being connected with water equipment, and the double-arc flat pipeline is communicated with the conversion elbow pipe fitting in a sealing way through the double-arc flat pipeline shortcut socket;

The interior of the wall penetrating module is provided with a straight-through pipeline or an S-shaped pipeline, two ends of the straight-through pipeline respectively extend to double-arc flat pipeline quick sockets on two opposite side surfaces of the wall penetrating module, the double-arc flat pipeline further comprises a rigid double-arc flat pipeline, and the rigid double-arc flat pipeline or the flexible double-arc flat pipeline is in sealed communication with the straight-through pipeline or the S-shaped pipeline through the double-arc flat pipeline quick sockets; the wall penetrating module is arranged in the wall body and provides a wall penetrating passage for the double-arc flat pipeline;

the double-arc flat pipeline and the path pipe of the water supply system are communicated through any combined functional modules and/or any combined connecting pipe fittings to form a water supply pipeline, and the double-arc flat pipeline and the path pipe are provided with various installation modes for meeting various requirements of a building site.

The invention designs a double-arc flat pipeline water supply system for a building, which has the following beneficial effects:

in the construction, installation and use processes, the traditional circular pipeline is flattened, and scattered accessories of the traditional pipeline system are integrated and optimally designed, so that a finished product is a plug-in module, a large number of field operation processes of the traditional pipeline are thoroughly eliminated, the construction of the building tap water pipeline system is simplified into simple plug-in of the module, the pipeline and the module, and the installation can be completed without carrying out a large number of assembly works on site, and the system is particularly suitable for requirements of various modern building technologies, such as assembly type buildings;

Besides high integration degree, the double-arc flat pipeline system can realize the function of pipeline replacement, and is the key point of the patent: the traditional pipeline system can not realize the replacement of the quick pipeline all the time, so that the maintenance cost and the time cost are very high, the pipeline can be replaced, the difficult problem is thoroughly solved, and the difficult problems that the pipeline cannot be replaced after aging and secondary pollution of the pipeline are solved.

Besides being used in building rooms, the double-arc flat pipeline system can also be applied to places where running water pipelines are designed and installed in vehicles such as automobiles, ships, trains, airplanes and the like.

In addition, the double-arc flat pipeline has double planes, so that the double-arc flat pipeline has more advantages than a circular pipeline when being used as a water, fertilizer irrigation and drip irrigation pipeline buried underground in agricultural production.

Drawings

FIG. 1 is a schematic structural view of a water supply system with double circular arc flat pipes for construction according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a turning module with a single turning channel according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a turning module with multiple turning channels according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of a connection state of a flat pipeline and a path pipe connected to a turning module according to an embodiment of the present invention;

FIG. 5 (a) is a schematic structural diagram of a water outlet module with a single water outlet channel according to an embodiment of the present invention;

FIG. 5 (b) is a schematic structural diagram of a water outlet module with dual water outlet channels according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an adapter with turning function according to an embodiment of the present invention;

fig. 7 (a) is a schematic structural diagram of a tiled composite double-pipe water separator module according to an embodiment of the present invention;

FIG. 7 (b) is a schematic view of the internal structure of the diverter module of FIG. 7 (a);

fig. 7 (c) is a schematic structural view of a single-tube-type water separator module according to an embodiment of the present invention;

fig. 8 (a) is a schematic structural view of a laminated composite double-pipe type double water separator according to an embodiment of the present invention;

FIG. 8 (b) is a schematic view of the internal structure of the diverter module of FIG. 8 (a);

FIG. 8 (c) is a schematic view of the quick connector for the added path tube of the diverter module of FIG. 8 (a);

FIG. 9 is a schematic view of a wall-through module with through-pipes according to an embodiment of the present invention;

FIG. 10 is a schematic view of a wall-penetrating module with S-shaped pipes according to an embodiment of the present invention;

FIG. 11 is a schematic structural diagram of an adapter under a side view according to an embodiment of the present invention;

FIG. 12 is a schematic view of an adapter at another side view according to an embodiment of the present invention;

FIG. 13 is a schematic view of a structure for installing a path pipe between a turning module and a water outlet module according to an embodiment of the present invention;

fig. 14 is a schematic structural view of a through-connection pipe provided in an embodiment of the present invention;

FIG. 15 is a schematic view of a planar elbow connection pipe provided in an embodiment of the present invention;

FIG. 16 is a schematic view of a pipe fitting for elbow joint in elevation according to an embodiment of the present invention;

FIG. 17 is a schematic view of a planar three-way connection pipe provided by an embodiment of the present invention;

FIG. 18 is a schematic view of an elevation tee connection pipe provided by an embodiment of the present invention;

FIG. 19 is a schematic view of a structure of a planar four-way connection pipe fitting according to an embodiment of the present invention;

fig. 20 is a schematic structural view of an elevation four-way connection pipe according to an embodiment of the present invention.

Wherein, the reference numerals include: 1-double circular arc flat pipeline, 11-flat pipeline shortcut socket, 2-water separator module, 21-water inlet, 22-water outlet, 23-water separator, 24-box, 3-turning module, 31-bending channel, 4-water outlet module, 41-conversion elbow pipe fitting, 42-pipe fitting clamping seat, 43-decoration panel, 5-through wall module, 51-through pipeline, 52-S-shaped pipeline, 6-path pipe, 61-path pipe shortcut socket, 7-conversion joint, 71-circular pipe joint, 72-flat quick-connect joint, 8-connection pipe fitting, 81-through, 82-elbow, 83-tee joint, 84-four-way joint.

Detailed Description

In order that those skilled in the art will better understand the present invention, a technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in which it is apparent that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the present invention without making any inventive effort, shall fall within the scope of the present invention.

It should be noted that the terms "first," "second," and the like in the description and the claims of the present invention and the above figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate such that the embodiments of the invention described herein may be implemented in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.

The invention will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic views illustrating the basic structure of the present invention by way of illustration only, and thus illustrate only the constitution related to the present invention.

In one embodiment of the present invention, there is provided a double circular arc flat pipe water supply system for construction, as shown in fig. 1, which includes a plurality of double circular arc flat pipes 1, a plurality of functional modules, one or more connection pipes.

Unlike the conventional circular water pipe, the pipe wall surface of the flat double-arc pipe 1 (hereinafter referred to as flat pipe 1) includes a planar upper surface and lower surface, and a right side surface and a left side surface of the right arc surface, as shown in fig. 1, 4, 5 (b) and 13, the cross section of the flat pipe 1 is double-arc flat, and the ratio of the height to the width of the cross section is 1:1.5 to 1:6.0, the inner and outer pipe walls of the double-arc flat pipe 1 are provided with upper and lower surfaces in a plane shape, the inner and outer walls of the pipe are smooth double-circular, the lower surface of the pipe is parallel to and attached to the wall surface, ceiling surface and ground surface of the building installation surface according to the design requirements of the application occasions;

the functional modules comprise four types of water knockout modules 2, turning modules 3, water outlet modules 4 and wall penetrating modules 5, wherein, as shown in fig. 7 (a), 7 (b), 8 (a) and 8 (b), the water knockout modules 2 are flat square or rectangular box bodies, water knockout devices 23 are arranged in the water knockout modules 2, and quick sockets connected with the double-arc flat pipeline 1, namely, flat pipeline quick sockets 11 are arranged on the outer sides of the box bodies 24; the water distributor module 2 can be installed on the ceiling, the wall, the ground, and the like, and is hidden in the furniture and the like, so that the maintenance is convenient. From the water separator module 2, a bi-arc flat pipe 1 extends to arrange the pipe along the ceiling and the wall according to the design requirement.

As shown in fig. 2-4, the turning module 3 is in a square or rectangular box shape, and is divided into a single hole (fig. 2) form and a double hole (fig. 3) form, and a 90-115-degree bending channel 31 is arranged in the turning module 3; the two ends of the bending channel 31 extend to the two sides of the turning module 3 respectively, the bending channel 31 is matched with the flexible double-arc flat pipeline so that the flexible double-arc flat pipeline passes through the bending channel 31, and particularly as shown in fig. 2 and 3, a path pipe quick socket 61 is arranged at the periphery of an opening, extending to the surface of the box body of the turning module 3, of the bending channel 31, so that the path pipe 6 can be directly spliced with the turning module 3, the path pipe 6 is sleeved outside the double-arc flat pipeline 1 passing through the bending channel 31, and the path pipe 6 is used for separating the double-arc flat pipeline 1 from a wall body or a floor slab so that the double-arc flat pipeline 1 can be drawn for replacement.

As shown in fig. 5 (a) and fig. 5 (b), the water outlet module 4 is in a square or rectangular box shape, and is divided into a single hole (fig. 5 (a)) and a double hole (fig. 5 (b)), a conversion elbow pipe 41 is arranged on the front side of the water outlet module 4, a pipe clamping seat 42 is arranged inside the water outlet module, the conversion elbow pipe 41 is arranged on the pipe clamping seat 42, the conversion elbow pipe 41 is exposed out of the front side of the box body, and a decoration panel 43 is arranged outside the front side; the switching elbow pipe 41 has one end connected to various water devices (faucet, toilet, etc.), and the other end connected to the double circular arc flat pipe 1 through the flat pipe quick socket 11 to connect to the water knockout drum module 2. Preferably, the periphery of the flat pipeline shortcut socket 11 on the water outlet module 4 is provided with a path pipe shortcut socket 61, so that the path pipe 6 can be directly spliced with the water outlet module 4, the path pipe 6 is sleeved outside the double-arc flat pipeline 1, and the path pipe 6 is used for separating the double-arc flat pipeline 1 from a wall body or a floor slab, so that the double-arc flat pipeline 1 can be drawn for replacement.

The wall penetrating module 5 is square and rectangular box-shaped, and is divided into a single hole (square) form and a double hole (rectangular) form, 180-degree and/or S-shaped inner straight-through pipes are arranged inside the wall penetrating module, flat pipeline quick sockets 11 are respectively arranged at the front end and the rear end of the inner straight-through pipes, and decorative panels are arranged outside the front side and the rear side of the wall penetrating module 5; the double-arc flat pipeline 1 penetrates through the wall body through the inner straight-through pipe, and the S-shaped wall penetrating module 5 is adopted when the heights of two rooms are different. The length of the wall penetrating module 5 can be the same as the thickness of a wall body, and can also have different specifications. The double-arc flat pipeline 1 is laid in the ceiling and the wall body surface and appears the pipeline condition of branching, can adopt connecting pipe fitting 8, and connecting pipe fitting 8 divide into: four-way (see fig. 19 and 20), three-way (see fig. 17 and 18), elbow (see fig. 15 and 16), straight-through tube (see fig. 14); the planar elbow pipe fitting of fig. 15 is used for connection when a planar turn occurs, and the curved elbow pipe fitting of fig. 16 is used when a curved turn occurs, both of which are shown in fig. 1, namely, the connection pipe fitting 8 in fig. 1.

Connection between the flat pipeline 1 of double circular arc and the turning module 3, go out water module 4, wear wall module 5 and water knockout drum module 2 accessible swift socket completion is connected, and all connections are swift formula of cut straightly connected mode, promptly the flat pipeline 1 of double circular arc is connected through swift socket completion with wearing between wall module 5, go out water module 4, turning module 3, the water knockout drum module 2 all, and all connections are the swift formula of dismantling repeatedly and cut straightly connected mode: the double-arc flat pipeline 1 can be directly inserted into a shortcut socket, the shortcut socket comprises a flat pipeline shortcut socket 11 on a wall penetrating module 5, a flat pipeline shortcut socket 11 of the water outlet module 4, a flat pipeline shortcut socket 11 of the water knockout drum module and a flat quick plug 72 mentioned below, the shortcut sockets are provided with double-arc flat openings, sealing rings matched with the double-arc flat pipeline are arranged in the shortcut sockets, and when the flat pipeline 1 is directly inserted into the flat openings of the shortcut sockets, the sealing rings are tightly clamped between the inner walls of the shortcut sockets and the outer walls of the flat pipeline 1. The double-arc flat pipeline 1, the turning module 3, the water outlet module 4 and the wall penetrating module 5 are all integrated quick plug-ins so as to improve the construction efficiency; the switching elbow pipe 41, the inner elbow pipe, the inner straight pipe and other pipe fittings are all combined in respective modules.

The water separator module 2 is provided with a single pipe type water separator and a double pipe type water separator, and the single pipe type water separator module 2 is internally provided with a water separator which can be used for distributing single cold or single hot water pipelines, as shown in fig. 7 (c); two water splitters of cold water and hot water are respectively arranged in the box body of the double-pipe water splitter module 2, and the water splitters respectively correspond to the pipeline distribution of the cold water and the hot water. Taking a double-pipe type as an example, fig. 7 (a) and 7 (b) are double-pipe type water knockout drum modules 2 which are arranged side by side, fig. 8 (a) and 8 (b) are double-pipe type water knockout drum modules 2 with rectangular boxes stacked up and down, and as can be seen in the four figures, two cold water knockout drum and hot water knockout drum are respectively arranged in the double-pipe type water knockout drum modules 2, the water knockout drum 23 in the box of the water knockout drum modules 2 comprises a water inlet 21, a water outlet 22 and a water collecting tank, and the water inlet 21 and the water outlet 22 are both communicated with the water collecting tank; the side of the box 24 is further provided with double-arc flat pipeline quick sockets 11 corresponding to the water inlets 21 and the water outlets 22 one by one, the double-arc flat pipeline 1 is correspondingly and directly inserted into the water inlets 21 and the water outlets 22 of the water knockout drum module 2 through the flat pipeline quick sockets 11 of the water knockout drum module 2, and preferably, the caliber (width and/or height) of one quick socket for water inflow can be larger than that of the other quick sockets for water outflow. Preferably, a heat insulating layer can be arranged between the cold and hot water separators. The water distributor module 2 can be installed below a ceiling or on a wall or ground. In one embodiment of the present invention, the periphery of the flat pipe shortcut receptacle 11 on the side of the water knockout drum module 2 is further provided with a path pipe shortcut receptacle 61, as shown in fig. 7 (c) and fig. 8 (c), so that the path pipe 6 can be directly plugged into the water knockout drum module 2, the path pipe 6 is sleeved outside the double-arc flat pipe 1, and the path pipe 6 is used for separating the double-arc flat pipe 1 from a wall or a floor slab, so that the double-arc flat pipe 1 can be drawn for replacement; if the water separator module is applied to the occasion that the water separator module is not required to be replaced, the side surface of the water separator module 2 is not required to be provided with a path pipe shortcut socket 61 for plugging the path pipe 6.

As shown in fig. 5 (a) and fig. 5 (b), the water outlet module 4 may be a rectangular or square box, and is divided into two forms, i.e. a double hole (rectangular in fig. 5 (b)) and a single hole (square in fig. 5 (a)), wherein the double hole can meet the connection of two cold and hot water pipelines, and the single hole can meet the connection application of a single cold or hot water pipeline. The box of the water outlet module 4 is parallel to the wall body, and an opening hole exposing a threaded screw hole is formed in the side of the panel exposed out of the wall body, wherein the threaded screw hole is used for connecting various water using equipment (a water tap, a toilet bowl and the like); the part of the box body of the water outlet module 4 buried in the wall is also provided with a flat pipeline quick socket 11, a 90-degree wire-mouth elbow is arranged in the box, as shown in fig. 6, the double-arc flat pipeline 1 is converted from a double-arc flat pipeline to a circular pipeline through a conversion elbow pipe fitting 41, the conversion elbow pipe fitting 41 is an elbow pipe fitting, and the turning angle is 90 degrees; the front end of the switching elbow pipe fitting 41 is a metal or plastic threaded port, the upper end is a flat pipeline shortcut socket 11 and is connected with the double-arc flat pipeline 1, namely, the water outlet module 4 forms a switching piece with one end for connecting the double-arc flat pipeline 1 and the other end is a threaded port for connecting various water using equipment, namely, a switching connecting piece for switching from the double-arc flat pipeline to a circular pipeline. The center distance of cold and hot water holes of the box of the double-hole type water outlet module 4 is national standard; the part of the box body buried in the wall body is provided with a conversion connecting piece which is connected with the double-arc flat pipeline 1 through a flat pipeline quick socket 11.

The embodiment of the invention provides a distribution method of a double-arc flat pipeline water supply system for a building, which comprises the following steps of:

s1, embedding a turning module and a water outlet module in a building wall, wherein the turning module is at least partially embedded in the upper edge and/or the lower edge of the wall, and the water outlet module is at least partially embedded in the wall at a water use position;

s2, connecting a water distributor module at a water inlet pipe port, wherein a plurality of water outlets of the water distributor module are respectively communicated with the water outlet module and the wall penetrating module through double-arc flat pipelines, the water outlets are communicated with the water outlet module through double-arc flat pipelines, and the circulating direction of the pipelines is changed through at least one turning module through the double-arc flat pipelines.

Further, if the water outlet module and the water separator module are respectively located at two sides of the wall, the step S1 further includes embedding a wall penetrating module in the building wall, and the plurality of double-arc flat pipes in the step S2 are communicated to the inlet of the water outlet module through at least one turning module and at least one wall penetrating module.

In one embodiment of the invention, when the double-arc flat pipeline 1 is installed by adopting a pressure-resistant flexible bendable plastic pipeline, a branch pipeline is adopted to connect the water distributor module to the water outlet module in place, and no joint exists in the middle. The method is divided into the following two arrangement modes:

1. The direct pipeline installation mode comprises the following steps: when the pipeline is arranged from the top, the pipeline can be clung to the lower edge of the ceiling, and when the pipeline turns on a wall, the pipeline is directly bent downwards for 90 degrees to turn; when the pipeline is distributed from the ground, the pipeline clings to the floor surface, and when the pipeline turns when meeting a wall body, the pipeline is directly bent upwards for 90 degrees to turn. The pipeline is plastered by concrete mortar after being coated on the wall surface, the top surface and the ground, so that the double-arc flat pipeline 1 is formed and buried in the plastering layer, and the surface bricks, the floor tiles and other decorative materials are plastered on the double-arc flat pipeline. The part of the pipeline positioned in the suspended ceiling can be free from plastering;

2. the method adopts a mode of concealing the path pipe and concealing the wall body by using the double-arc flat pipeline: when the double-arc flat pipeline 1 is pre-buried in a wall body and a floor slab, the double-arc flat pipeline and the path pipe 6 are pre-buried and used simultaneously. The path tube 6 is a rigid tube, and may be made of plastic, metal, or the like. The inner wall of the path tube 6 needs to be smooth so as to ensure that the double-arc flat pipeline 1 can be drawn for replacement. As shown in fig. 13, in order to show the structural characteristics of the flat pipe 1 inside the path pipe 6, the path pipe 6 is shown in fig. 13 in a section, that is, the path pipe 6 is a long pipe passing through the water outlet module 4 from the turning module 3 in actual construction. The water outlet module 4 and the turning module 3 are respectively provided with a path pipe 6 socket at the interface, the path pipe 6 can be directly inserted, the path pipe 6 is connected with the water outlet module 4 and the turning module 3 into a whole, and the path pipe 6 is directly embedded in a wall body and a floor slab during the construction stage of a building and the decoration stage and the transformation stage can be embedded in a manner of grooving the wall body. The turning module 3 is used for forming a turn at the turning position between the wall body and the ceiling and between the wall body and the ground, the turning module 3 and the water outlet module 4 are connected by using a path pipe, so that a passage of the double-arc flat pipeline 1 in the wall body is formed, and the function of replacing the pipeline is achieved.

In one embodiment of the present invention, the wall-penetrating module 5 is square or rectangular, and can be embedded in the wall head or the wall foot according to the design requirement of the building site, so as to form a passage for the bi-arc flat pipeline 1 to penetrate the wall. Alternatively, the thickness of the wall-penetrating module 5 is approximately the same as the thickness of the wall, and various specifications can be provided according to the thickness of different walls. The inner passage of the wall penetrating module 5 is provided with a through pipeline 51 shown in fig. 9 and an S-shaped pipeline 52 shown in fig. 10, wherein the S-shaped pipeline is used when the two rooms are at different heights, and the height difference of the S-shaped pipeline can be provided with various specifications.

In one embodiment of the invention, the flat pipeline comprising double circular arcs can be a flexible pipeline with flexibility or a rigid pipeline; when the rigid pipeline is adopted, the pipe fittings such as a four-way pipe, a three-way pipe, a straight-through pipe, a bend and the like are used for connection and installation; the pipeline can be made of plastic or metal.

When the flexible plastic long pipe is adopted in the double-arc flat pipeline 1, the pipeline from the water distributor module 2 to the built-in conversion elbow pipe fitting 41 of the water outlet module 4 is required to be directly connected from one pipe to the bottom when the double-arc flat pipeline 1 is buried in a mortar plastering layer, no joint is arranged in the middle, and the connection and the installation are not required to be carried out by using the pipe fittings such as a four-way pipe, a three-way pipe, a direct connection pipe fitting, an elbow pipe fitting and the like.

The double-arc flat tube 1 in this embodiment has three mounting modes: 1. the floor leveling layer is buried in a wall plastering layer or a floor leveling layer in a hidden manner; 2. the ceiling is arranged below the wall body and the ceiling; 3. the hidden burying and the open mounting modes are adopted simultaneously, and the local hidden burying and the local open mounting modes can be used simultaneously according to the actual requirements of the construction site, wherein the open mounting can be realized through pipe fittings such as a four-way pipe, a three-way pipe, a straight-way pipe, an elbow and the like when the wall body and the ceiling top surface are exposed, and the hidden burying use occasion is connected by using a functional module.

When the double-arc flat pipeline 1 is arranged on the surface of a non-plastered wall body, a ceiling and a floor slab of a building, the double-arc flat pipeline 1 can be directly arranged on the surface of the wall body, the ceiling and the floor slab, and can be fixed by adopting double-sided adhesive tapes, namely the double-sided adhesive tapes are used for pasting and fixing the pipeline on the wall body, the floor or the ceiling, and the double-sided adhesive tapes are directly adhered to one side of the pipeline (the release paper can be adhered for use) when the double-arc flat pipeline 1 is produced or adhered to one side of the pipeline in a construction stage; the double-arc flat pipeline 1 can also be fixed by adopting a pipeline clamp, namely, the double-arc flat pipeline 1 is fixed on a wall body, the ground or a ceiling surface by using a clamp at intervals;

When the double-arc flat pipeline 1 is installed on the surface of a wall body, a ceiling and a floor slab which are already plastered in a building, the grooving depth can be equal to the thickness of the pipeline in a grooving mode of a wall body plastering layer, a ceiling plastering layer and a floor slab leveling layer;

when the double-arc flat pipeline 1 is installed in wallboards, integrated ceilings and floors of assembled buildings, the double-arc flat pipeline can be installed in interlayers between the wallboards, the integrated ceilings and floors and between the wall bodies, the ceilings and the floors.

In the embodiment of the invention, the pipeline arrangement and connection mode of the water supply system is basically a parallel connection mode, can be a serial connection mode, can be a parallel connection mode and a serial connection mode and is used in combination, and the water separator module 2 is needed when the parallel connection mode is adopted; when adopting a serial connection mode, the pipe fittings such as a four-way pipe, a three-way pipe, a straight-way pipe, a bend and the like are needed to be used; the water separator module 2 is used together with the pipe fitting when the water separator module is used in parallel connection and series connection.

In this embodiment, when the bi-arc flat pipe 1 needs to be buried in a wall body or a mortar plastering layer, the turning module 3, the water outlet module 4 and the wall penetrating module 5 can be used together with the path pipe 6. Under the condition of hidden burying, pipe fittings such as a four-way pipe, a three-way pipe, a straight-through pipe, a bend and the like are not used. The turning module 3, the wall penetrating module 5 and the water outlet module 4 are buried in the wall in a hidden mode, one side of the front face parallel to the wall is exposed out of the wall, the front face side decoration panel 43 can be made of various materials such as plastics, copper and stainless steel, and the decoration panel 43 is connected with the box in a buckling mode, so that repeated disassembly is facilitated.

In one embodiment of the present invention, the double circular arc flat pipeline 1 and the pipeline of the four-way pipe fitting are arranged, and the pipeline buried in the wall body is generally not horizontally and transversely distributed.

In this embodiment, the most important functions and values of the assembled integrated building tap water pipeline water supply system composed of three major parts of the double-arc flat pipeline 1, the functional module, the connecting pipe fitting and the like are as follows: the tap water pipeline buried or arranged in the wall body and the mortar plastering layer in a concealed mode can be replaced freely, and the method is suitable for: civil, industrial, commercial, school, hospital, office building, etc. all buildings requiring running water piping. Besides the application of the indoor scene of the building, the system can also be applied to occasions of automobiles, ships, high-speed rails, airplanes and the like where the indoor space is required to be provided with a tap water pipeline system. The flat pipeline with double circular arcs is suitable for a building tap water pipeline system, a building drainage pipeline system and a building circuit pipeline system.

Specifically, the material of the double-arc flat pipeline 1 can be various plastics meeting the requirements of drinking water sanitation, such as: PPR, PB, PE, etc., may also be various metal materials, such as: copper, stainless steel, etc., and may be also composite material, such as steel wire mesh skeleton composite pipe, etc.

In the practical use process, the system with the replaceable pipeline function firstly connects the double-arc flat pipeline 1 from the water meter to the water source, connects the double-arc flat pipeline through a conversion joint 7 with a round shape converted into a double-arc flat shape, then forms a 90-degree turn through a turning module 3 buried in a basement, connects the wall turning module 3 buried in the same straight line position, and after the double-arc flat pipeline 1 goes out of the wall through the turning module 3, reaches a wall penetrating module 5 laid under a ceiling to the wall penetrating module 1 buried in the opposite wall position of a room, penetrates the wall, reaches a water distributor module 2 under the ceiling of a bathroom, and is connected with a quick socket 6 arranged on the outer side surface to finish the laying of the double-arc flat pipeline 1 of the water inlet pipeline. Then the double-arc flat pipeline 1 is inserted from the quick socket 6 of the water knockout drum module 2, the double-arc flat pipeline 1 is laid down along the ceiling to the turning module 5 buried in the opposite wall of the room, and then the water outlet module 4 positioned on the same straight line position is vertically extended and connected, thus the laying of a water supply pipe road is completed. And then the laying of other pipelines is completed through the water separator module 2. The double-arc flat pipeline 1 is laid on the surface of a wall body, is buried in the plastering layer after the plastering layer is completed, one end of the double-arc flat pipeline is connected with the water outlet module 4, the other end of the double-arc flat pipeline is connected with the water distributor module 2, and no joint exists in the middle of the double-arc flat pipeline.

The water source pipeline, the water heater, the tap, the closestool, the counter basin and other water devices at the water meter are connected by using the adapter 7 for converting the circular pipeline interface into the double-arc flat pipeline interface, as shown in fig. 11 and 12, one end of the adapter 7 is provided with a circular pipe connector 71, the other end is provided with a flat quick connector 72, and both ends are quick socket interfaces: wherein the circular pipe joint 71 is used for connecting circular pipes, and the flat quick connector 72 is used for connecting the double-arc flat pipes 1; the adapter 7 is in the form of a joint or elbow.

Furthermore, circular and non-circular pipe hydraulics were calculated as follows:

1. hydraulic radius and equivalent diameter

The definition of the hydraulic radius is: the ratio of the cross-sectional area perpendicular to the flow direction to the length of the perimeter wetted by the fluid, i.e

For circular pipes of diameter d

And x=pi·d;

further obtaining the hydraulic radius of the circular pipeline

For non-circular pipes, take the equivalent diameter:

d＝4R......(2)

2. the along-path head loss of the small-diameter pipeline is generally calculated according to the Hai-Welch formula:

i＝105C _h ^-1.85 *d ^-4.87 *q ^1.85 ......(3)

wherein: i is the head loss per unit length of the pipeline (kPa/m); d calculating an inner diameter (mm) for the pipe; q is the calculated pipe section feedwater design flow (L/s); c (C) _h Is a sea clarifier-Williams coefficient, wherein various plastic pipes, inner lining (coating) plastic pipe C _h =140; copper pipe, stainless steel pipe C _h =130; cast iron pipe C lined with cement and resin _h =130; ordinary steel pipe, cast iron pipe C _h ＝100。

3. Hydraulic calculation conditions of various pipeline sections:

3.1 round shape

d=20, calculated directly according to formula (3), see tables 1-2 for hydraulic calculations.

Table 1 hydraulic calculation of circles

3.2 rectangular shape

d=4r=18, the calculation carried over into formula (3), and the hydraulic calculation table is shown in table 2.

Table 2 rectangular hydraulic calculations

3.3 double circular arcs

d=4r=18.7, the calculation carried into formula (3), and the hydraulic calculation table is shown in table 3.

Table 3 hydraulic calculation of double circular arcs

3.4 ellipse

d=4r=28.5, the calculation carried over into formula (3), and the hydraulic calculation table is shown in table 4.

Table 4 hydraulic calculation of ellipses

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3.5 rounded rectangle

d=4r=18.7, the calculation carried over into formula (3), and the hydraulic calculation table is shown in table 5.

Table 5 hydraulic calculation of rounded rectangle

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4. Conclusion(s)

1) On the premise that circumferences (material engineering quantities) of the rectangle, the double circular arc and the fillet rectangle are the same, the double circular arc pipeline has optimal hydraulic performance;

2) The flat pipeline with double circular arcs is suitable for a building tap water pipeline system, a building drainage pipeline system and a building circuit pipeline system.

In a word, the integrated running water pipeline system with the replaceable pipeline function has reasonable structural design, can be used for life without worry after being installed once, and belongs to a pipeline system with the same life as a building and the full life cycle. The pipeline water flow is stable and smooth, energy is saved, the environment is protected, the waste of energy sources and the secondary pollution in the pipeline are avoided, the labor intensity of installation workers on the construction site is reduced, the occurrence of water leakage faults is avoided, the quality of the building is improved, and the pipeline water flow control device is suitable for popularization and use.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the claims, and all equivalent structures or equivalent processes using the descriptions and drawings of the present invention are directly or indirectly applied to other related technical fields, which are also included in the scope of the present invention.

Claims (9)

1. The utility model provides a double circular arc flat pipeline water supply system for building, its characterized in that includes one or more turning module (3), one or more play water module (4), one or more route pipe (6) and a plurality of double circular arc flat pipeline (1), double circular arc flat pipeline (1) include flexible double circular arc flat pipeline, wherein:

the pipe wall of each double-arc flat pipe (1) comprises a planar upper surface, a planar lower surface, an arc-shaped left side surface and an arc-shaped right side surface;

A bending channel (31) is arranged in the turning module (3), two ends of the bending channel (31) extend to two side surfaces of the turning module (3) respectively, and the bending channel (31) is matched with the flexible double-arc flat pipeline so as to pass through the bending channel (31);

a conversion elbow pipe fitting (41) for converting a flat pipeline into a circular pipeline with a threaded wire port is arranged in the water outlet module (4), one end of the conversion elbow pipe fitting (41) extends to a double-arc flat pipeline shortcut socket (11) on one side surface of the water outlet module (4), the other end of the conversion elbow pipe fitting extends to the other side surface of the water outlet module (4) and is used for being connected with water equipment, and the double-arc flat pipeline (1) and the conversion elbow pipe fitting (41) are communicated in a sealing way through the double-arc flat pipeline shortcut socket (11);

the turning module (3) and the water outlet module (4) are arranged in the wall body, and the planar lower surface of the double-arc flat pipeline (1) connected with the turning module (3) and/or the water outlet module (4) is parallel to the surface of the building installation surface;

the path pipe (6) is a rigid pipeline and is arranged between the inlet of the turning module (3) and the inlet of the water outlet module (4), the path pipe (6) is sleeved outside the double-arc flat pipeline (1), and the path pipe (6) is used for separating the double-arc flat pipeline (1) from a wall body or a floor slab, so that the double-arc flat pipeline (1) can be drawn for replacement;

The system further comprises a wall penetrating module (5), wherein a straight-through pipeline (51) or an S-shaped pipeline (52) is arranged in the wall penetrating module (5), two ends of the straight-through pipeline (51) respectively extend to double-arc flat pipeline quick sockets (11) on two opposite side surfaces of the wall penetrating module (5), and the flexible double-arc flat pipeline is communicated with the straight-through pipeline (51) or the S-shaped pipeline (52) in a sealing mode through the double-arc flat pipeline quick sockets (11); the wall penetrating module (5) is arranged in a wall body and provides a wall penetrating passage for the double-arc flat pipeline (1), wherein the wall penetrating module (5) provided with the straight pipeline (51) provides a wall penetrating passage with equal height, and the wall penetrating module (5) provided with the S-shaped pipeline (52) provides wall penetrating passages with different heights;

the system is configured to be arranged by: s1, embedding a turning module and a water outlet module in a building wall, wherein the turning module is at least partially embedded in the upper edge and/or the lower edge of the wall, and the water outlet module is at least partially embedded in the wall at a water use position; s2, connecting a water distributor module at a water inlet pipe port, wherein a plurality of water outlets of the water distributor module are respectively communicated with a water outlet module and a wall penetrating module through double-arc flat pipelines, the water outlets are communicated with the water outlet module through double-arc flat pipelines, and the circulating direction of the pipelines is changed through at least one turning module; the double-arc flat pipelines are communicated to the inlet of the water outlet module through at least one turning module and at least one wall penetrating module.

2. The flat double-arc-shaped pipeline water supply system for construction according to claim 1, further comprising a water separator module (2), wherein the water separator module (2) comprises a box body (24) and a water separator (23) arranged in the box body (24); the water knockout drum module (2) comprises a single-tube type water knockout drum module and a double-tube type water knockout drum module, wherein:

the water separator (23) of the single-tube type water separator module comprises a water inlet (21) and a plurality of water outlets (22), a water collecting tank is arranged in the water separator (23), and the water inlet (21) and the water outlet (22) are communicated with the water collecting tank; the side surface of the box body (24) is also provided with double-arc flat pipeline shortcut sockets (11) which are in one-to-one correspondence with the water inlet (21) and the water outlet (22), and the double-arc flat pipeline (1) is communicated with the water inlet (21) and the water outlet (22) in a sealing way through the double-arc flat pipeline shortcut sockets (11);

the number of the water separators (23) of the double-pipe type water separator module is two, one water separator is used for cold water pipeline distribution, and a double-arc flat pipeline quick socket (11) of a water inlet (21) is connected with a cold water source pipeline in a sealing way; the other water separator is used for distributing a hot water pipeline, and a double-arc flat pipeline shortcut socket (11) of a water inlet (21) of the water separator is connected with a hot water source pipeline in a sealing way;

The water knockout drum module (2) is arranged under a ceiling or on a wall body, and the double-arc flat pipeline (1) communicated with the water outlet (22) of the water knockout drum module (2) changes the pipeline circulation direction through the turning module (3).

3. The flat tube watering system for construction according to claim 1, characterized in that the water outlet module (4) comprises a double-hole form and/or a single-hole form, wherein:

the water outlet module (4) in the form of double holes is provided with two conversion elbow pipe fittings (41) and two double-arc flat pipeline shortcut sockets (11) which are in one-to-one correspondence, wherein one conversion elbow pipe fitting (41) is communicated with a cold water pipeline through the corresponding double-arc flat pipeline shortcut socket (11), and the other conversion elbow pipe fitting (41) is communicated with a hot water pipeline through the corresponding double-arc flat pipeline shortcut socket (11);

the single-hole water outlet module (4) is provided with a conversion elbow pipe fitting (41) and a corresponding double-arc flat pipeline shortcut socket (11), and the conversion elbow pipe fitting (41) is communicated with a cold water pipeline or a hot water pipeline through the corresponding double-arc flat pipeline shortcut socket (11);

an alternate path of the double-arc flat pipeline (1) is formed in a path pipe (6) between the turning module (3) and the water outlet module (4), and the path pipe (6) is directly embedded in a wall body or a floor slab in the civil engineering construction stage or is embedded in a wall body grooving mode in the decoration reconstruction stage; the inlet and the outlet of the turning module (3) and the inlet of the water outlet module (4) are respectively provided with a path pipe shortcut socket (61), the path pipe shortcut socket (61) is arranged on the periphery of the double-arc flat pipeline shortcut socket (11), and the path pipe shortcut socket (61) is used for plugging the path pipe (6).

4. The building double-arc flat-tube water supply system according to claim 1, wherein the water supply system is installed in the following manner:

the double-arc flat pipeline (1) adopts a flexible double-arc flat pipeline and a path pipe (6), a turning module (3) and a water outlet module (4) to be buried in a wall body and floor slab structure in a hidden mode, and the flexible double-arc flat pipeline (1) is inserted in the path pipe (6) to realize replacement of the pipeline.

5. The water supply system of the double-arc flat pipeline for the building according to claim 1, wherein the double-arc flat pipeline (1) is made of plastic or composite material; if the pipeline of the double-arc flat pipeline (1) turns, the following mode is adopted:

and directly bending the flexible double-arc flat pipeline, wherein the turning angle range of the flexible double-arc flat pipeline is 15-170 degrees.

6. The water supply system for a double-arc flat pipeline for construction according to claim 1, wherein the double-arc flat pipeline (1) is fixed to the pipeline by adopting an adhesive manner, the pipeline is stuck and fixed to a wall, a ground or a ceiling by adopting a double-sided adhesive tape, and the double-sided adhesive tape is directly adhered to one side of the pipeline when the double-arc flat pipeline (1) is produced or adhered to one side of the pipeline during a construction stage.

7. The water supply system for the double-arc flat pipeline for the building according to claim 1, wherein the double-arc flat pipeline quick socket (11) for directly inserting and connecting the double-arc flat pipeline (1) is provided with a double-arc flat opening matched with the double-arc flat pipeline (1), and a sealing ring matched with the double-arc flat pipeline (1) is arranged inside the double-arc flat opening.

8. The water supply system for the double-arc flat pipeline for the building according to claim 1, further comprising an adapter (7), wherein one end of the adapter (7) is provided with a circular pipe joint (71), and the other end is provided with a flat quick-connect joint (72), wherein the circular pipe joint (71) is used for connecting a circular pipeline, and the flat quick-connect joint (72) is used for connecting the double-arc flat pipeline (1).

9. The utility model provides a double circular arc flat pipeline water supply system for building, its characterized in that, the system includes double circular arc flat pipeline (1), functional module, wherein:

the functional module comprises a water separator module (2), a turning module (3), a water outlet module (4) and a wall penetrating module (5), wherein:

the water separator module (2) comprises a water separator (23), the water separator (23) comprises a water inlet (21) and a plurality of water outlets (22), a water collecting tank is arranged in the water separator (23), the water inlet (21) and the water outlets (22) are communicated with the water collecting tank, and double-arc flat pipeline quick sockets (11) are arranged in one-to-one correspondence of the water inlet (21) and the water outlets (22);

A bending channel (31) is arranged in the turning module (3), two ends of the bending channel (31) respectively extend to two side surfaces of the turning module (3), and the bending channel (31) is matched with the double-arc flat pipeline (1) so as to enable the double-arc flat pipeline to pass through the bending channel (31);

the inside of the water outlet module (4) is provided with a conversion elbow pipe fitting (41) for converting a flat pipeline with a threaded wire port into a circular pipeline, one end of the conversion elbow pipe fitting (41) extends to a double-arc flat pipeline shortcut socket (11) on one side surface of the water outlet module (4), the other end of the conversion elbow pipe fitting extends to the other side surface of the water outlet module (4) and is used for being connected with water equipment, and the double-arc flat pipeline (1) and the conversion elbow pipe fitting (41) are in sealing communication through the double-arc flat pipeline shortcut socket (11);

a straight-through pipeline (51) or an S-shaped pipeline (52) is arranged in the wall penetrating module (5), two ends of the straight-through pipeline (51) respectively extend to double-arc flat pipeline shortcut sockets (11) on two opposite side surfaces of the wall penetrating module (5), the double-arc flat pipeline (1) comprises a flexible double-arc flat pipeline, and the flexible double-arc flat pipeline is communicated with the straight-through pipeline (51) or the S-shaped pipeline (52) in a sealing way through the double-arc flat pipeline shortcut sockets (11); the wall penetrating module (5) is arranged in the wall body and provides a wall penetrating passage for the double-arc flat pipeline (1);

The double-arc flat pipelines (1) of the water supply system are communicated through any combination of functional modules and/or any combination of connecting pipes to form a water supply pipeline;

the system is configured to be arranged by: s1, embedding a turning module and a water outlet module in a building wall, wherein the turning module is at least partially embedded in the upper edge and/or the lower edge of the wall, and the water outlet module is at least partially embedded in the wall at a water use position; s2, connecting a water distributor module at a water inlet pipe port, wherein a plurality of water outlets of the water distributor module are respectively communicated with a water outlet module and a wall penetrating module through double-arc flat pipelines, the water outlets are communicated with the water outlet module through double-arc flat pipelines, and the circulating direction of the pipelines is changed through at least one turning module; the double-arc flat pipelines are communicated to the inlet of the water outlet module through at least one turning module and at least one wall penetrating module.

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