CN110836428A - Triangular water distribution device - Google Patents

Abstract

The application discloses a triangular water distribution device which comprises a plurality of triangular water distribution modules, wherein each triangular water distribution module comprises a water storage container and a water distribution support pipe, the upper end of each water storage container is provided with a water inlet, and the lower end of each water storage container is provided with a plurality of water outlets uniformly distributed on the circumference; the water distribution support pipe comprises a first-stage water distribution pipe, a second-stage water distribution pipe and a third-stage water distribution pipe. Because this triangle water distribution module is equipped with the reservoir of taking the unhurried current and equalling divide the effect, and triangle water distribution module is class equilateral triangle structure for rivers follow the water reservoir and flow to the same basically along journey distance of water outlet on the tertiary water distribution pipe along first, second grade water distribution pipe after the unhurried current, form the same form water distribution that uses the reservoir as the center, thereby form the great uniform water distribution unit of area covered, effectively promote regional and water distribution effect. Simultaneously, when water distribution on a large scale, through this water distribution module of rational arrangement, can effectively shorten water distribution trunk line length, uneven rate when reducing large tracts of land water distribution is showing and is promoting whole water distribution effect.

Description

Triangular water distribution device

Technical Field

The application relates to the chilled water storage field, in particular to a triangular water distribution device for a water storage tank.

Background

Its water distribution device in present water cold-storage field adopts multistage H form water distribution or strip pipeline trompil water distribution more, and its rivers mainly rely on water distribution components such as traditional tee bend, cross, elbow to carry out the rivers distribution at the distribution in-process, often have water distribution density not enough, the unbalanced water distribution or multistage water distribution resistance big scheduling problem when large tracts of land water distribution, lead to the thermocline thicker, the water distribution effect is unsatisfactory.

In addition, the water distributor with a fixed shape is adopted in the market at present, the water distributor has a circular water distribution structure for a circular water storage tank, and the water distributor can only distribute water for the water storage tank with one shape for a square water storage tank.

Disclosure of Invention

The application provides a triangle water distribution device that water distribution is effectual and be applicable to different shapes catch basin.

One embodiment provides a triangular water distribution device, which comprises at least one triangular water distribution module,

the triangular water distribution module comprises a water storage container and a water distribution support pipe, wherein the upper end of the water storage container is provided with a water inlet, and the lower end of the water storage container is provided with a plurality of water outlets which are uniformly distributed on a circumference; when water flows enter the water storage container through the water inlet pipe, the water flow obtains slow flow and steady flow, better steady state is ensured when branch pipe water distribution is carried out on the water flow by means of dynamic and static pressure conversion, and the water flow is uniformly distributed at equal flow speed and equal flow when flowing through the water storage container to the water outlets. The water distribution support pipe comprises a first-level water distribution pipe, a second-level water distribution pipe and a third-level water distribution pipe which are positioned in a plane, each water outlet of each water storage container is connected with one first-level water distribution pipe, each third-level water distribution pipe is of a triangular structure, a plurality of water inlets are formed in the inner side surfaces of the third-level water distribution pipes, a plurality of water outlets are formed in the bottom surfaces of the third-level water distribution pipes, each second-level water distribution pipe is connected with the water inlets on the two sides of each third-level water distribution pipe through two second-level water distribution pipes.

Furthermore, the water storage container is provided with three water outlets, each secondary water distribution pipe is vertically connected with a tertiary water distribution pipe, the tertiary water distribution pipes are of an equilateral triangle structure, the bottom surfaces of three vertexes of the tertiary water distribution pipes are respectively provided with one water outlet, the bottom surface of the middle part of each edge of the tertiary water distribution pipes is respectively provided with one water outlet, and the inner side of each edge of the tertiary water distribution pipes is provided with two water inlets.

Furthermore, three corners of the three-stage water distribution pipes are provided with straight angles, and the centers of the straight angles are provided with tail end support pipes which extend to the vertexes of the regular triangles.

Furthermore, the first-stage water distribution pipe, the second-stage water distribution pipe and the third-stage water distribution pipe are connected through a three-way pipe, or the first-stage water distribution pipe, the second-stage water distribution pipe and the third-stage water distribution pipe are of an integrated structure.

Furthermore, the triangular water distribution module also comprises a terminal water distribution head, and each water outlet of the three-level water distribution pipe is connected with one or more terminal water distribution heads.

Furthermore, the triangular water distribution module also comprises a transition water distributor, each water outlet of the three-level water distribution pipe is connected with one transition water distributor, and each transition water distributor is connected with one or more terminal water distribution heads.

Furthermore, the transition water distributor is a six-claw water distributor which is provided with six water outlets, and each water outlet of the six-claw water distributor is connected with a terminal water distribution head.

Furthermore, the water distribution device comprises two triangular water distribution modules, and the edges of the adjacent three-stage water distribution pipes of the two water distribution modules are arranged in parallel.

The three-stage water distribution device further comprises six triangular water distribution modules, the six triangular water distribution modules are arranged in a regular hexagon, each edge of the regular hexagon is overlapped with one edge of a three-stage water distribution pipe arranged in one triangular water distribution module, and the same preset included angle is formed between the connecting line of the centers of the six triangular water distribution modules and the center of the regular hexagon and the connecting line of the center of the triangular water distribution module and one corner of the three-stage water distribution pipe close to the center of the regular hexagon.

Furthermore, one corner of the six tertiary water distribution pipes close to the center of the regular hexagon is positioned on the circumference with the center of the regular hexagon as the center of a circle, and the preset included angle is 13 degrees.

According to the triangle water distribution device of above-mentioned embodiment, because this triangle water distribution module is equipped with the reservoir that takes the unhurried current to divide equally the effect, and triangle water distribution module is class equilateral triangle-like structure, make rivers follow first after the unhurried current in the reservoir, the on-way distance that the second grade water distribution pipe flows to the last delivery port of tertiary water distribution pipe is the same basically, form the same form water distribution that uses reservoir as the center, can be with rivers uniform flow, the uniform distribution of uniform velocity, thereby form the great uniform water distribution unit of area covered, effectively promote regional water distribution effect. Simultaneously, when water distribution on a large scale, through this water distribution module of rational arrangement, can effectively shorten water distribution trunk line length, uneven rate when reducing large tracts of land water distribution is showing and is promoting whole water distribution effect.

Drawings

FIG. 1 is a top view of a triangular water distribution module in an embodiment;

FIG. 2 is a perspective view of a triangular water distribution module in an embodiment;

FIG. 3 is a perspective view of a transition water distributor according to an embodiment;

FIG. 4 is a top view of a triangular water distribution module in an embodiment;

FIG. 5 is a top view of a triangular water distribution device in an embodiment;

FIG. 6 is a top view of a triangular water distribution device in an embodiment;

FIG. 7 is a schematic view of a triangular water distribution device in an embodiment;

FIG. 8 is a top view of a triangular water distributor in one 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 triangle water distribution device, and this triangle water distribution device includes a triangle water distribution module, and the triangle water distribution device can be formed by one or more triangle water distribution module combination.

As shown in fig. 1, the triangular water distribution module 10 includes a water storage container 11 and a water distribution support tube 12, the water storage container 11 is a flat cylindrical structure, a water inlet is disposed in the middle of the upper end of the water storage container 11, three water outlets are uniformly distributed on the circumferential side wall of the water storage container 11, and the water inlet of the water storage container 11 is used for being connected with the water outlet of the water distribution device of the previous stage.

The water distribution support pipe 12 includes a first-stage water distribution pipe 121, a second-stage water distribution pipe 122 and a third-stage water distribution pipe 123, each water outlet of the water storage container 11 is connected with one first-stage water distribution pipe 121, one water storage container 11 is correspondingly provided with one third-stage water distribution pipe 123, and the second-stage water distribution pipe 122 is connected between the first-stage water distribution pipe 121 and the third-stage water distribution pipe 123. Wherein, each primary water distribution pipe 121 is connected with two secondary water distribution pipes 122 to form a Y-shaped structure, and the water inlet of the primary water distribution pipe 121 is connected with the water outlet of the water storage container 11. The third-stage water distribution pipe 123 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 side of the third-stage water distribution pipe 123, a water outlet is respectively arranged on the bottom surface of three vertexes of the third-stage water distribution pipe 123, a water outlet is arranged on the bottom surface of the middle of each side of the third-stage water distribution pipe 123, and the water inlets of each side are arranged on two sides of the middle water outlet, so that the third-stage water distribution pipe 123 has six water inlets and six water outlets. One first-stage water distribution pipe 121 is connected with two water inlets close to each other on two sides of the third-stage water distribution pipe 123 through two second-stage water distribution pipes 122, and the second-stage water distribution pipes 122 are vertically connected with the third-stage water distribution pipe 123.

The water distribution support pipe 12 is of a triangular structure or a similar triangular structure, water is guided in from the middle of the water distribution support pipe 12 and then evenly distributed to six water outlets, and the water distribution support pipe 12 can evenly distribute the water for the second time.

In order to make the distances from the six water outlets of the third-stage water distribution pipe 123 to the three water outlets of the water storage container 11 consistent, three corners of the third-stage water distribution pipe 123 are set to be flat corners, which are equivalent to that three corners of an equilateral triangle lack a small angle respectively, so that three corner positions of the third-stage water distribution pipe 123 have straight pipelines. The third-stage water distribution pipe 123 vertically extends from the middle of the straight angle to form a tail end support pipe 122a, the end of the tail end support pipe 122a extends to the vertex of the equilateral triangle, and the vertex water outlet of the third-stage water distribution pipe 123 is arranged on the tail end support pipe 122 a. The straight angle of the third-stage water distribution pipe 123 and the arrangement of the end support pipe 122a make a right-angled bend on the pipeline at the end of the third-stage water distribution pipe 123, so that the water flow separated from the three water outlets of the water storage container 11 can reach the six water outlets of the third-stage water distribution pipe 123 by equal distances, and the effect of uniform water distribution is further improved.

As shown in fig. 2 and 3, each outlet of the tertiary water distribution pipe 123 is connected with a terminal water distribution head 30; specifically, each outlet of the third-stage water distribution pipe 123 may be directly connected to one end water distribution head 30, and each outlet of the third-stage water distribution pipe 123 may also be connected to a plurality of end water distribution heads 30 through one transition water distributor 20. For example, the transition water distributor 20 is a six-claw water distributor, the middle of the six-claw water distributor has one water inlet, and the circumference has six water outlets, each water outlet of the six-claw water distributor is connected with one end water distributor 30, so that the water outlets of one third-stage water distributor 123 can be connected with 6 end water distributors 30, and the whole triangular water distribution module 10 can be connected with 36 end water distributors 30.

In one embodiment, the end bracket pipe 122a is bent into an L-shaped structure, the horizontal portion of the end bracket pipe 122a is connected to the third-stage water distributor 123, and the vertical portion of the end bracket pipe 122a is used for connecting to the end water distributor 30 or the transition water distributor 20.

The pipes in this embodiment are sealed by welding, gluing, or heat sealing. The first-stage water distribution pipe 121 and the third-stage water distribution pipe 123 are connected through a three-way pipe, and the first-stage water distribution pipe 121, the second-stage water distribution pipe 122 and the third-stage water distribution pipe 123 can also be of an integrated structure; or the first-stage water distribution pipe 121, the second-stage water distribution pipe 122 and the third-stage water distribution pipe 123 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.

As shown in fig. 4, in an embodiment, the tertiary water distributor 123 ' of the triangular water distribution module 10 includes three straight pipes with the same length, the three straight pipes are located on three sides of the regular triangle, and two ends of the three straight pipes are not connected to each other, the three sides of the tertiary water distributor 123 ' are arranged independently from each other, and the tertiary water distributor 123 ' is also connected to the water storage container 11 through the primary water distributor 121 and the secondary water distributor 122. The head and the tail ends of each edge of the third-stage water distribution pipe 123' are provided with plugs, and the middle parts of the side surfaces of each edge are provided with circular water outlets at equal intervals, so that a certain uniform water distribution effect is achieved.

The triangular water distribution device provided by the embodiment comprises at least one triangular water distribution module 10 with a triangular structure, so that water flow is buffered, meanwhile, water flow can be uniformly distributed in the triangular water distribution module 10, and the distance between the triangular water distribution modules 10 can be adjusted by controlling the flow velocity, so that when large-area water distribution is performed, the unbalance rate of terminal water distribution can be reduced, the length of a main water distribution pipeline can be shortened, the resistance can be reduced, and the integral water distribution uniformity can be improved; moreover, the triangular water distribution modules 10 can be spliced into different shapes, and the water distribution requirements of water storage tanks with different shapes can be met.

As shown in fig. 5, in an embodiment, the triangular water distribution device includes two triangular water distribution modules 10, the adjacent edges (adjacent three-stage water distribution pipes 123) of the two triangular water distribution modules 10 are spaced from each other and arranged in parallel, and the vertexes of the two triangular water distribution modules 10 are aligned, and the two triangular water distribution modules 10 form a rhombic structure, so that the triangular water distribution device can uniformly distribute water to a rhombic water storage tank.

In this embodiment, the two triangular water distribution modules 10 may be connected by one two-claw water distributor 40, the two-claw water distributor 40 includes one water inlet and two water outlets, one water inlet is located in the middle of the two-claw water distributor 40, the two water outlets are respectively located at the ends of two arms of the two-claw water distributor 40, and the water outlet connected to the two-claw water distributor 40 is connected to the water inlet of the water storage container 11 of the triangular water distribution module 10, so that the two-claw water distributor 40 can introduce water into the two triangular water distribution modules 10 at the same time. The middle part of the two-claw water distributor 40 can also be provided with a water storage container for uniform flow dispersion to form a first-stage water distribution effect.

In one embodiment, the triangular water distribution device includes two triangular water distribution modules 10, the two triangular water distribution modules 10 are in an equilateral right-angle structure, wherein the three-stage water distribution pipe 123 is in an equilateral right-angle structure, although the single equilateral right-angle structure does not have the equilateral triangular structure to distribute water uniformly, the triangular water distribution modules 10 in the two equilateral right-angle structures can be combined into a square area, and can distribute water uniformly to the water storage tank in the square area.

As shown in fig. 6 and 7, in an embodiment, the triangular water distribution device includes six triangular water distribution modules 10, and the six triangular water distribution modules 10 can distribute water to an impoundment tank with a circular area. The six triangular water distribution modules 10 can carry 216 terminal water distribution heads 30 by connecting with the transition water distributor 20. Moreover, the six triangular water distribution modules 10 are connected through a six-claw water distributor 50, the six-claw water distributor 50 has a water inlet located in the middle and six water outlets evenly located on a circumference, and the water outlets of the six-claw water distributor 50 are connected with the water inlets of the triangular water distribution modules 10. The middle part of the six-claw water distributor 50 can also be provided with a water storage container for uniform flow dispersion.

In this embodiment, in order to uniformly distribute 216 end water distribution heads 30 in a circumferential area, one side of six tertiary water distribution pipes 123 is located on a regular hexagon, and adjacent sides of two adjacent tertiary water distribution pipes 123 are parallel to each other and are arranged at equal intervals. In the structure, the angles of the six tertiary water distribution pipes 123 close to the center of the regular hexagon are distributed on the circumference with the center of the regular hexagon as the center of the circle, and the connecting line of the centers of the six triangular water distribution modules 10 and the center of the regular hexagon and the connecting line of the centers of the triangular water distribution modules 10 and one angle of the tertiary water distribution pipes 123 close to the center of the regular hexagon have the same preset included angle, the preset included angle is preferably 13 degrees, and the six triangular water distribution modules 10 deflect towards 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 practical structure, due to production and assembly errors, the preset included angle of the third-stage water distributor 123 may be within a range of about 13 °, for example, the preset included angle is 10 ° or 15 °.

In other embodiments, as shown in fig. 8, the triangular water distribution device comprises six triangular water distribution modules 10, and the six triangular water distribution modules 10 can distribute water to a hexagonal water storage tank. The six triangular water distribution modules 10 are also connected by a six-claw water distributor 50, the six triangular water distribution modules 10 are divided into two symmetrical rows, each row comprises three triangular water distribution modules 10, and the direction of the middle triangular water distribution module 10 is opposite to that of the triangular water distribution modules 10 on the two sides. In fig. 8, the three triangular water distribution modules 10 at the upper row and the three triangular water distribution modules 10 at the lower row are symmetrically distributed along the central line, the vertexes of the triangular water distribution modules 10 at the two sides of the upper row and in the middle of the lower row are upward, the vertexes of the triangular water distribution modules 10 at the two sides of the upper row and in the two sides of the lower row are downward, and the up-down direction is the up-down direction in fig. 8 and is the front-back or left-right direction of the actual space.

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 triangular water distribution device is characterized by comprising at least one triangular water distribution module,

the triangular water distribution module comprises a water storage container and a water distribution support pipe, wherein the upper end of the water storage container is provided with a water inlet, and the lower end of the water storage container is provided with a plurality of water outlets which are uniformly distributed on a circumference; the water distribution support pipe comprises a first-level water distribution pipe, a second-level water distribution pipe and a third-level water distribution pipe which are located in a plane, each water outlet of the water storage container is connected with one first-level water distribution pipe, each third-level water distribution pipe is of a triangular structure, a plurality of water inlets are formed in the inner side faces of the third-level water distribution pipes, a plurality of water outlets are formed in the bottom faces of the third-level water distribution pipes, each second-level water distribution pipe is connected with the water inlets on the two sides of the third-level water distribution pipes through two second-level water distribution pipes, and each water storage container corresponds to one third-.

2. The triangular water distribution device according to claim 1, wherein the water storage container has three water outlets, each of the secondary water distribution pipes is vertically connected to the tertiary water distribution pipe, the tertiary water distribution pipe has an equilateral triangle structure, the three top positions of the tertiary water distribution pipes have one water outlet on the bottom surface, the middle bottom surface of each side of the tertiary water distribution pipe has one water outlet, and the inner side of each side of the tertiary water distribution pipe has two water inlets.

3. The triangular water distribution device according to claim 2, wherein the straight angle center of the tertiary water distribution pipes is provided with a tail end support pipe extending to the vertex of the regular triangle.

4. The triangular water distribution device according to claim 2, wherein the primary water distribution pipe, the secondary water distribution pipe and the tertiary water distribution pipe are connected by a three-way pipe, or the primary water distribution pipe, the secondary water distribution pipe and the tertiary water distribution pipe are in an integrated structure.

5. The triangular water distribution device according to claim 2, wherein the triangular water distribution module further comprises a terminal water distribution head, and one or more terminal water distribution heads are connected to each water outlet of the three-stage water distribution pipes.

6. The triangular water distribution device according to claim 5, wherein the triangular water distribution module further comprises a transition water distributor, one transition water distributor is connected to each water outlet of the three-stage water distribution pipes, and one or more terminal water distribution heads are connected to each transition water distributor.

7. The triangular water distributor according to claim 6, wherein the transition water distributor is a six-claw water distributor having six water outlets, and each water outlet of the six-claw water distributor is connected with an end water distributor.

8. The triangular water distribution device according to any one of claims 1 to 7, comprising two triangular water distribution modules, wherein the edges of the adjacent three-stage water distribution pipes of the two triangular water distribution modules are arranged in parallel with each other.

9. The triangular water distribution device according to any one of claims 1 to 7, comprising six triangular water distribution modules, wherein the six triangular water distribution modules are arranged in a regular hexagon, each side of the regular hexagon is coincident with one side of the three-stage water distribution pipe of the regular hexagon, and a connecting line between the centers of the six triangular water distribution modules and the center of the regular hexagon has the same preset included angle with a connecting line between the center of the triangular water distribution module and one corner of the three-stage water distribution pipe close to the center of the regular hexagon.

10. The triangular water distribution device according to claim 9, wherein one corner of the six tertiary water distribution pipes near the center of the regular hexagon is located on a circle with the center of the regular hexagon as a center, and the preset included angle is 13 °.

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