CN211345668U - Water distributor system - Google Patents

Abstract

The application discloses water-locator system, including one-level water distribution device, second grade water distribution device and tertiary water distribution device, the one-level water distribution device includes one-level retaining container, one-level inlet tube and one-level outlet pipe, and the second grade water distribution device includes second grade retaining container and water distribution support pipe, and tertiary water distribution device includes tertiary retaining container, tertiary inlet tube, tertiary outlet pipe and terminal water distribution head. The three-stage water distribution device is provided with the three-stage water distribution devices which are distributed up and down, each stage of water distribution device is provided with the water storage container with the functions of flow slowing and flow sharing, the first-stage water distribution device is positioned at the top, the second-stage water distribution device is positioned at the lower end of the first-stage water distribution device in a radioactive manner by taking the center of the first-stage water distribution device as the center, the third-stage water distribution device is also positioned at the lower end of the second-stage water distribution device in a radioactive manner, so that water is uniformly distributed on the plane where the terminal water distribution head is positioned after passing through the multi-stage flow slowing and uniform flow.

Description

Water distributor system

Technical Field

The application relates to the field of chilled water storage, in particular to a water distributor system for a circular water storage tank.

Background

In recent years, the chilled water storage technology is favored by the market due to the fact that the system is relatively simple, the overall cost is low, and the operation and use stability is high. In a circular water storage tank, due to the circular structure, octagon annular water distribution is adopted in the market at present, water can be uniformly distributed only in a local section or a single direction, synchronous uniform water distribution in a full section cannot be realized, a cold-heat exchange layer is thicker, and the water distribution effect is not ideal.

Disclosure of Invention

The application provides a water distributor system that can follow circular cross section synchronous uniform water distribution.

In one embodiment, a water distributor system is provided, comprising:

the primary water distribution device comprises a primary water storage container, a primary water inlet pipe and a primary water outlet pipe, wherein the upper end of the primary water storage container is provided with a water inlet, the lower end of the primary water storage container is provided with a plurality of water outlets which are uniformly distributed on a circumference, the primary water inlet pipe is connected with the water inlet of the primary water storage container, each water outlet of the primary water storage container is connected with a primary water outlet pipe, the plurality of water outlet pipes are uniformly and radially arranged by taking the primary water storage container as the center, and one end, away from the primary water storage;

the secondary water distribution device comprises a secondary water storage container and a water distribution support pipe, wherein the upper end of the secondary water storage container is provided with a water inlet, the lower end of the secondary water storage container is provided with a plurality of water outlets which are uniformly distributed on a circumference, and one end of each primary water outlet pipe, which is far away from the primary water storage container, is connected with a secondary water storage container; the water distribution support pipe comprises a first-stage support pipe and a second-stage support pipe, each water outlet of the second-stage water storage container is connected with one first-stage support pipe, the heads and the tails of the second-stage support pipes are connected to form a closed pipe, a plurality of water inlets are formed in the inner side surface of each second-stage support pipe, a plurality of water outlets are formed in the bottom surface of each second-stage support pipe, each second-stage water storage container corresponds to one second-stage support pipe, and the water outlets of the second-stage water storage containers are connected with the water inlets of the second;

tertiary water distribution device, including tertiary retaining container, tertiary inlet tube, tertiary outlet pipe and terminal water distribution head, tertiary retaining container's upper end is equipped with a water inlet, the lower extreme is equipped with a plurality of delivery port of evenly distributed on a circumference, the delivery port of every second grade support pipe is connected with a tertiary inlet tube, tertiary inlet tube extends the setting down, the one end that secondary support pipe was kept away from to tertiary inlet tube is connected with tertiary retaining container's water inlet, every delivery port of tertiary retaining container is connected with a tertiary outlet pipe, a plurality of tertiary outlet pipe uses tertiary retaining container to be even radial as the center, the one end that tertiary retaining container was kept away from to every tertiary outlet pipe is connected with a terminal water distribution head, a plurality of terminal water distribution head evenly distributed is on a circumference that uses tertiary retaining container.

Further, second grade reservoir has three delivery port, and the one-level support pipe is Y type structure, and the second grade support pipe is equilateral triangle structure, and the three summit position bottom surface of second grade support pipe is equipped with a delivery port respectively, and every limit middle bottom surface of second grade support pipe is equipped with a delivery port respectively, and every limit inboard of second grade support pipe is equipped with two water inlets.

Further, six second grade support pipes are close to the summit evenly distributed of one-level retaining container on a circumference that uses one-level retaining container as the center, and the axis of all second grade support pipes and the perpendicular line that is close to the summit of one-level retaining container and the axis of second grade support pipe and the perpendicular line of one-level retaining container's axis have the same contained angle of predetermineeing between.

Furthermore, the adjacent edges of the six secondary support tubes are parallel to each other, and the preset included angle is 13 degrees.

Further, all three-stage water distribution devices are consistent in orientation.

Furthermore, three corners of the secondary support tube are provided with straight corners, and the center of each straight corner is provided with a tail end support tube extending to the vertex of the regular triangle.

Furthermore, a three-way pipe is arranged at the water inlet of the second-stage support pipe and connected with the first-stage support pipe, or the first-stage support pipe and the second-stage support pipe are of an integrated structure.

Further, the first-level water storage container, the second-level water storage container and the third-level water storage container are provided with four water outlets.

Furthermore, the secondary support pipe is of a square structure, four corners of the secondary support pipe are provided with straight corners and water outlets respectively, and a water inlet is formed in the middle point of each of the four sides.

Further, one-level water storage container, second grade water storage container and tertiary water storage container are flat cylinder type structure, and the water inlet all is located in the middle of one-level water storage container, second grade water storage container and tertiary water storage container's top, and delivery port evenly distributed is on the circumference side of one-level water storage container, second grade water storage container and tertiary water storage container.

According to the water distributor system of the embodiment, the three-stage water distribution devices are arranged and distributed up and down, each stage of water distribution device is provided with the water storage container with the flow slowing and uniform dividing function, the first stage of water distribution device is positioned at the top, the second stage of water distribution device is positioned at the lower end of the first stage of water distribution device in a radioactive manner with the center of the first stage of water distribution device, and the third stage of water distribution device is also positioned at the lower end of the second stage of water distribution device in a radioactive manner, so that water is uniformly distributed on the plane where the terminal water distribution head is positioned after passing through the multistage flow slowing and uniform flow scattering, a blind area does not exist in water distribution, and the.

Drawings

FIG. 1 is a top view of a water distributor system according to one embodiment;

FIG. 2 is a plan view of a first stage water distribution device and a second stage water distribution device in one embodiment;

FIG. 3 is a top view of a two-stage water distribution device in one embodiment;

FIG. 4 is a perspective view of a second stage water distribution device and a third stage water distribution device in one embodiment;

FIG. 5 is a perspective view of a three-stage water distribution device in one embodiment;

FIG. 6 is a schematic view of a two-stage water distribution device in an embodiment.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The embodiment provides a water distributor system, and the water distributor system is mainly used for distributing water to a circular water storage tank.

As shown in fig. 1, the water distributor system of this embodiment mainly includes a first-stage water distribution device 10, a second-stage water distribution device 20, and a third-stage water distribution device 30, wherein the first-stage water distribution device 10, the second-stage water distribution device 20, and the third-stage water distribution device 30 are sequentially distributed from top to bottom, one first-stage water distribution device 10 at the top is connected with six second-stage water distribution devices 20, each second-stage water distribution device 20 is connected with six third-stage water distribution devices 30, and the total of thirty six third-stage water distribution devices 30 are provided.

The first-stage water distribution device 10 comprises a first-stage water storage container 11, a first-stage water inlet pipe 12 and a first-stage water outlet pipe 13, the first-stage water storage container 11 is of a flat cylindrical structure, a water inlet is formed in the middle of the upper end of the first-stage water storage container 11, six water outlets are uniformly distributed on the circumferential side wall of the first-stage water storage container 11, and water entering the first-stage water storage container 11 from the upper end is uniformly discharged from the six water outlets under the action of water gravity. The one-level inlet tube 12 is located the upper end of one-level retaining container 11, and the one end of one-level inlet tube 12 is connected with the water inlet of one-level retaining container 11, and the other end and the water source or other transition equipment of one-level inlet tube 12 are connected, and one-level inlet tube 12 is arranged in introducing water into one-level retaining container 11. Every delivery port of one-level retaining container 11 is connected with a one-level outlet pipe 13, one-level retaining container 11 is connected with six one-level outlet pipes 13 altogether, six one-level outlet pipes 13 are the sharp water pipe, the one end that one-level retaining container 11 was kept away from to one-level outlet pipe 13 is buckled the setting down, with water drainage to next stage water distribution device in, six one-level outlet pipes 13 use one-level retaining container 11 to be even radial structure as the center, the contained angle between two adjacent one-level outlet pipes 13 is 60, one-level outlet pipe 13 is used for with the water drainage in the one-level retaining container 11 to in the second stage water distribution.

The first-stage water distribution device 10 is similar to a six-claw mechanism, and water flow can obtain first slow flow and steady flow through the buffering of the first-stage water storage container 11 and then is uniformly distributed into six first-stage water outlet pipes 13.

In this embodiment, one end of each primary water outlet pipe 13, which is far away from the primary water storage container 11, is connected to a secondary water distribution device 20, and the secondary water distribution device 20 is located below the primary water outlet pipe 13, so that the primary water distribution device 10 is connected to six secondary water distribution devices 20.

As shown in fig. 2, fig. 3 and fig. 4, the second-stage water distribution device 20 includes a second-stage water storage container 21 and a water distribution support tube 22, the overall structure of the second-stage water storage container 21 is similar to that of the first-stage water storage container 11, the second-stage water storage container 21 is also a flat cylindrical structure, a water inlet is arranged in the middle of the upper end of the second-stage water storage container 21, three water outlets are uniformly distributed on the circumferential side wall of the second-stage water storage container 21, and one end of the first-stage water outlet pipe 13, which is far away from the first-stage. Through the arrangement, the flow velocity and the flow rate distributed to each secondary water storage container 21 are the same after the water flow obtains the first rectification and the first stable flow in the primary water storage container 11, and meanwhile, the water flow obtains the second slow flow and the rectification in the secondary water storage container 21, so that the water flow keeps a stable flow state in the long-distance water distribution process.

The water distribution support pipe 22 includes a first-stage support pipe 221 and a second-stage support pipe 222, each water outlet of the second-stage water storage container 21 is connected with one first-stage support pipe 221, and one second-stage water storage container 21 corresponds to one second-stage support pipe 222, so that three first-stage support pipes 221 and one second-stage support pipe 222 are provided. Wherein, one-level support pipe 221 is Y type structure, and one-level support pipe 221 has a water inlet and two delivery ports, and the water inlet of one-level support pipe 221 is connected with the delivery port of second grade retaining container 21, and three one-level support pipe 221 is the contained angle each other for 120 to three one-level support pipe 221 is located a plane. The secondary support tube 222 is an equilateral triangle structure or a similar equilateral triangle structure connected end to end, two water inlets are arranged on the inner side of each edge of the secondary support tube 222, a water outlet is respectively arranged on the bottom surface of three vertex positions of the secondary support tube 222, a water outlet is arranged on the bottom surface of the middle of each edge of the secondary support tube 222, and the water inlets of each edge are positioned on two sides of the middle water outlet, so that the secondary support tube 222 is provided with six water inlets and six water outlets. Two water outlets of one primary support pipe 221 are respectively connected with two water inlets close to each other on two edges of the secondary support pipe 222.

The water distribution support pipe 22 is a triangular structure or a similar triangular structure, water is guided in from the middle of the water distribution support pipe 22 and then uniformly distributed to six water outlets, and the water distribution support pipe 22 can uniformly distribute water flow for the second time.

In order to make the distances from the six water outlets of the secondary support tube 222 to the three water outlets of the secondary water reservoir 21 consistent, three corners of the secondary support tube 222 are set to be flat angles, which are equivalent to that three corners of an equilateral triangle lack a small angle respectively, so that three corner positions of the secondary support tube 222 have straight pipelines. The secondary support tube 222 vertically extends from the middle of the flat angle to form a terminal support tube 222a, the end of the terminal support tube 222a extends to the vertex of the equilateral triangle, and the vertex water outlet of the secondary support tube 222 is arranged on the terminal support tube 222 a. The straight angle of second grade support pipe 222 and the setting of end support pipe 222a for the pipeline of second grade support pipe 222 end has made a right angle bending, make the water that divides from the three delivery port of second grade water storage container 21 can reach the six delivery ports of second grade support pipe 222 through isometric distance, through this setting, can guarantee that rivers obtain slow flow and stable back distribution to tertiary water storage container 31 in the second grade water storage container 21 the velocity of flow is the same with the flow, promote the effect of evenly distributed water.

As shown in fig. 4 and 5, in the present embodiment, the three-stage water distribution device 30 includes a three-stage water storage container 31, a three-stage water inlet pipe 32, a three-stage water outlet pipe 33, and a terminal water distribution head 34. The structure of the third-level water storage container 31 is consistent with that of the first-level water storage container 11, and the sizes of the third-level water storage container and the first-level water storage container are determined according to actual conditions so as to meet the requirement of water distribution. The third-stage water storage container 31 is also of a flat cylindrical structure, a water inlet is formed in the middle of the upper end of the third-stage water storage container 31, and six water outlets are uniformly distributed on the circumferential side wall of the third-stage water storage container 31. The vertical direction setting of tertiary inlet tube 32, the delivery port of every second grade support pipe 222 is connected with a tertiary inlet tube 32 to every second grade support pipe 222 is connected with six tertiary inlet tubes 32, and the lower extreme of every tertiary inlet tube 32 is connected with a tertiary retaining container 31. Six water outlets of the third-level water storage container 31 are respectively connected with six third-level water outlet pipes 33, the six third-level water outlet pipes 33 are located in a plane and are in a radial structure by taking the third-level water storage container 31 as a center, the tail end, far away from the third-level water storage container 31, of each third-level water outlet pipe 33 is connected with one terminal water distribution head 34, one third-level water storage container 31 is connected with six terminal water distribution heads 34, the six terminal water distribution heads 34 are uniformly distributed on the circumference by taking the third-level water storage container 31 as the center, and the third-level water distribution device 30 comprises 216 terminal water.

Through the arrangement, the water flow obtains multi-stage slow flow and rectification during long-distance water distribution, the stable state of the water flow to the terminal is ensured, the flow rate and the flow rate of the water flow distributed to the terminal water distribution head 34 from the first-stage water storage container 11 are ensured to be the same, and the water flow is uniformly dispersed and flows into the circular water storage tank through the final terminal water distribution head 34.

In one embodiment, the end bracket tube 222a is integrated with the tertiary inlet pipe 32, where the tertiary inlet pipe 32 is bent to form the end bracket tube 222 a.

The pipes in this embodiment are sealed by welding, gluing, or heat sealing. The first-stage support pipe 221 and the second-stage support pipe 222 are connected through a three-way pipe, and the first-stage support pipe 221 and the second-stage support pipe 222 can also be of an integrated structure respectively; or the primary support pipe 221 and the secondary support pipe 222 are of an integrated structure, or the whole water distribution system is of an integrated structure and is manufactured by 3D printing and the like.

In the present embodiment, as shown in fig. 1 and fig. 6, in order to distribute the 216 end water distribution headers 34 uniformly in a circumferential area, one side of the six secondary support pipes 222 is located on a hexagon centering on the primary water storage container 11, and the adjacent sides of the two adjacent secondary support pipes 222 are parallel to each other and are equidistantly arranged. In this structure, the six secondary support tubes 222 are uniformly distributed on the circumference centering on the primary water storage container 11 near the vertex of the primary water storage container 11, and the central axes of the six secondary support tubes 222 (the central axes are straight lines perpendicular to the plane of the regular triangle and passing through the center of the regular triangle) and the vertical lines near the vertex of the primary water storage container 11 have the same preset included angle with the central axes of the secondary support tubes 222 and the vertical lines of the central axes of the primary water storage container 11, the preset included angle is preferably 13 °, and the six secondary support tubes 222 are deflected toward the same direction. Finally, thirty-six three-stage water distribution devices 30 are divided into three layers from inside to outside, the centers of the outermost 18 three-stage water distribution devices 30 are positioned on a regular hexagon with the first-stage water storage container 11 as the center, the centers of the middle 12 three-stage water distribution devices 30 are positioned on a regular hexagon with the first-stage water storage container 11 as the center, the centers of the innermost 6 three-stage water distribution devices 30 are positioned on a regular hexagon with the first-stage water storage container 11 as the center, and any two adjacent three-stage water distribution devices 30 and the nearest three-stage water distribution device 30 of the adjacent layer are positioned on three vertexes of a regular triangle to form uniform distribution. In other embodiments, the preset included angle of the secondary support tube 222 may be selected from 10 ° to 15 ° other than 13 °, and although the water distribution effect is not higher than that of the included angle of 13 °, the water distribution effect is better than that of the other included angles.

In this embodiment, all the third-stage water distribution devices 30 have the same direction, and each third-stage water distribution device 30 has two third-stage water outlet pipes 33 located on a ray line with the second-stage water storage container 21 as the center, and the second-stage support pipes 222 are the second-stage support pipes 222 connected to the third-stage water distribution devices 30.

In order to install the whole water distributor system above the circular water storage tank, the water distributor system further comprises a support, the support installs the first-stage water distributor 10, the second-stage water distributor 20 and the third-stage water distributor 30 above the water storage tank, the first-stage water distributor 10 and the second-stage water distributor 20 are installed on the support through fixing parts such as iron wires or buckles, and the center of the first-stage water distributor 10 is aligned with the center of the circular water storage tank.

The water distributor system that this embodiment provided, through being equipped with the tertiary water distribution device that distributes from top to bottom, and every level of water distribution device all is equipped with the water storage container who takes unhurried current equipartition effect, the one-level water distribution device is located the top, the second grade water distribution device is the radioactive lower extreme that is located the one-level water distribution device with one-level water distribution device center, the tertiary water distribution device is the radioactive lower extreme that is located the second grade water distribution device equally, make rivers obtain multistage unhurried current and rectification when long distance water distribution, not only can ensure to flow to the rivers steady state at terminal, can realize multistage velocity of flow and equal flow distribution simultaneously, make rivers obtain evenly distributed on terminal water distribution head place plane after multistage unhurried current and even scattered current, there is not the blind area in the water distribution, make the water distribution effect more ideal.

The water distributor system of this embodiment is divided into three class structure about in to the accessible sets up the second grade water distribution device of different quantity and forms different water distribution regions, specifically as follows:

in other embodiments, a water distributor system is provided for distribution of water from a square reservoir.

The water distributor system of the embodiment is different from the above embodiments in structure in that: the first-stage water storage container, the second-stage water storage container and the third-stage water storage container are all provided with four water outlets, the first-stage support pipe is a straight pipe, the second-stage support pipe is of a square structure, flat corners of the second-stage support pipe are arranged at four corners of the second-stage support pipe, the second-stage support pipe is provided with one water outlet, and the water inlets are arranged at the middle points of the four sides. Finally, the end water distribution heads 34 are uniformly distributed in a square area.

In other embodiments, 5 or 7 water outlets of the first-stage water storage container, the second-stage water storage container and the third-stage water storage container can be set, so that a certain water distribution effect can be achieved, and the water distribution device can be used for water distribution of other polygonal water storage tanks, for example, water distribution of pentagonal or heptagonal water storage tanks.

In other embodiments, the first-stage water storage container, the second-stage water storage container and the third-stage water storage container can also be arranged in a polygonal structure, for example, the first-stage water storage container, the second-stage water storage container and the third-stage water storage container are in a square structure, and each side surface is provided with one water outlet, and the total number of the four water outlets is four; or the first-stage water storage container, the second-stage water storage container and the third-stage water storage container are of pentagonal structures, and the middle of each side surface is provided with one water outlet, namely five water outlets.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims (10)

1. A water distributor system, comprising:

the primary water distribution device comprises a primary water storage container, a primary water inlet pipe and a primary water outlet pipe, wherein a water inlet is formed in the upper end of the primary water storage container, a plurality of water outlets which are uniformly distributed on a circumference are formed in the lower end of the primary water storage container, the primary water inlet pipe is connected with the water inlet of the primary water storage container, each water outlet of the primary water storage container is connected with one primary water outlet pipe, the plurality of water outlet pipes are uniformly and radially arranged by taking the primary water storage container as the center, and one end, far away from the primary water storage container, of each primary water outlet pipe;

the secondary water distribution device comprises a secondary water storage container and a water distribution support pipe, wherein the upper end of the secondary water storage container is provided with a water inlet, the lower end of the secondary water storage container is provided with a plurality of water outlets which are uniformly distributed on a circumference, and one end of each primary water outlet pipe, which is far away from the primary water storage container, is connected with one secondary water storage container; the water distribution support pipe comprises a primary support pipe and a secondary support pipe, each water outlet of the secondary water storage container is connected with one primary support pipe, the heads and the tails of the secondary support pipes are connected to form a closed pipe, the inner side surface of each secondary support pipe is provided with a plurality of water inlets, the bottom surface of each secondary support pipe is provided with a plurality of water outlets, each secondary water storage container corresponds to one secondary support pipe, and the water outlet of each secondary water storage container is connected with the water inlet of each secondary support pipe through the primary support pipe;

the three-stage water distribution device comprises a three-stage water storage container, a three-stage water inlet pipe, a three-stage water outlet pipe and a terminal water distribution head, the upper end of the third-stage water storage container is provided with a water inlet, the lower end of the third-stage water storage container is provided with a plurality of water outlets which are uniformly distributed on a circumference, the water outlet of each second-stage support pipe is connected with a third-stage water inlet pipe, the third-stage water inlet pipe extends downwards, one end of the third-stage water inlet pipe, which is far away from the second-stage support pipe, is connected with a water inlet of the third-stage water storage container, every delivery port of tertiary retaining container is connected with one tertiary outlet pipe, a plurality of tertiary outlet pipe with tertiary retaining container is even radial as the center, every tertiary outlet pipe is kept away from tertiary retaining container's one end is connected with a terminal water distribution head, a plurality of terminal water distribution head evenly distributed one with tertiary retaining container is on the circumference at center.

2. The water distributor system of claim 1, wherein the secondary water storage container has three water outlets, the primary support tube has a Y-shaped structure, the secondary support tube has an equilateral triangle structure, the three vertex positions of the secondary support tube have one water outlet on the bottom surface, the middle bottom surface of each edge of the secondary support tube has one water outlet, and the inner side of each edge of the secondary support tube has two water inlets.

3. The water distributor system of claim 2, wherein six secondary support pipes are uniformly distributed on a circumference centering on the primary water storage container near the vertex of the primary water storage container, and the central axis of all the secondary support pipes and the vertical line near the vertex of the primary water storage container have the same preset included angle with the central axis of the secondary support pipes and the vertical line of the central axis of the primary water storage container.

4. The water distributor system of claim 3, wherein each of said primary and tertiary reservoirs has six water outlets, and wherein said six secondary reservoirs are evenly distributed about a circumference centered on said primary reservoir.

5. The water distributor system of claim 3, wherein adjacent edges of six secondary support tubes are parallel to each other, and the predetermined included angle is 13 °.

6. The water distributor system as claimed in claim 5, wherein the two-stage support tubes are arranged at three corners to form straight corners, and the end support tube is arranged at the center of the straight corner to extend to the vertex of the regular triangle.

7. The water distributor system of claim 5, wherein the water inlet of the secondary support pipe is provided with a tee pipe connected with the primary support pipe, or the primary support pipe and the secondary support pipe are of an integrated structure.

8. The water distributor system of claim 2, wherein the primary, secondary and tertiary reservoirs each have four water outlets.

9. The water distributor system of claim 8, wherein the secondary support pipe is a square structure, the secondary support pipe has flat corners at four corners and a water outlet respectively, and a water inlet is provided at the midpoint of the four sides.

10. The water distributor system of claim 1, wherein the primary, secondary and tertiary water storage vessels are flat cylindrical structures, the water inlet is located in the middle of the top of the primary, secondary and tertiary water storage vessels, and the water outlet is evenly distributed on the circumferential sides of the primary, secondary and tertiary water storage vessels.

Images