CN107673427B - Integrated waterway plate and water treatment equipment - Google Patents

Abstract

The application discloses an integrated waterway board and water treatment equipment. This integrated water route board is including the water route board body and set up the water route on the water route board body and draw forth the structure, this internal body water route runner that is provided with of water route board, and the water route draws forth the structure and is including drawing forth the structure body and setting up at least one first joint structure on drawing forth the structure body, and first joint structure is used for connecting line, detecting element and/or water route controlling means at least, draws forth this internal water route runner that is provided with of structure, and first joint structure is through drawing forth water route runner and body water route runner intercommunication. Through leading out the structure body and as the switching structure, can be nimble settlement each water route part's installation position and mounted position to optimize integrated water route board and set up the overall structure of this integrated water route board's water treatment facilities, with the assembly convenience of improvement water treatment facilities's structural compactness and water treatment facilities.

Description

Integrated waterway plate and water treatment equipment

Technical Field

The application relates to the technical field of water purifying equipment, in particular to an integrated waterway board and water treatment equipment with the same.

Background

In order to reduce hidden danger of water leakage, waterway systems in the water purifier industry have a trend of developing towards integration, and various integrated waterway boards have been developed. The detection element, the waterway control device and other parts in the existing water purifier are connected with the integrated waterway plate through the PE pipe, so that the internal pipelines of the water purifier are more and the running pipe is complex, the whole machine is complex to assemble, the use of the PE pipe increases the operation difficulty and the installation time of installation, the labor cost is increased, in addition, the PE pipe is connected with the parts which are easy to be wrongly installed and neglected to install, and the number of installed parts is increased, so that the hidden danger point of water leakage is increased.

In order to solve this problem, some existing integrated waterway boards are provided with joints, so that components such as a detection element, a waterway control device and the like can be directly inserted into the joints to be connected with the integrated waterway board. But the existing joint is directly arranged on the integrated waterway plate, so that all parts can be installed only along a specific direction and a specific place, the distribution of all parts on the waterway plate is scattered, the installation is very inconvenient, the thickness of the waterway plate is increased, and the compactness of the whole machine is influenced.

Disclosure of Invention

In view of the above, it is an object of the present application to provide an integrated waterway board capable of making the installation positions of the respective components of a water purifying apparatus more flexible, and a water treating apparatus having the same.

In order to achieve the above purpose, on one hand, the present application adopts the following technical scheme:

the utility model provides an integrated water route board, is in including water route board body and setting the structure is drawn forth to the water route on the water route board body, this internal body water route runner that is provided with of water route board, the structure is drawn forth to the water route is including drawing forth the structure body and setting up at least one first joint structure on drawing forth the structure body, first joint structure is used for connecting line, detecting element and/or water route controlling means at least, this internal water route runner that draws forth that is provided with of drawing forth the structure, first joint structure is passed through draw forth the water route runner with body water route runner intercommunication.

Preferably, the waterway board body comprises a side wall and a side wall, and the waterway leading-out structure is arranged on the side wall of the waterway board body.

Preferably, a first connecting hole is arranged in the first joint structure, and the axis of the first connecting hole is not perpendicular to the side wall of the waterway plate body;

preferably, the axis of the first connecting hole is parallel to the side wall of the waterway plate body.

Preferably, a second joint structure is arranged on the side wall of the waterway board body, and the second joint structure is at least used for connecting a pipeline, a detection element and/or a waterway control device.

Preferably, a second connecting hole is arranged in the second joint structure, and the axis of the second connecting hole is not perpendicular to the axis of the first connecting hole;

preferably, the axis of the second connecting hole is parallel to the axis of the first connecting hole.

Preferably, the extraction structure body is a plate-like structure, the plate-like structure comprises a side wall and a side wall, and the first joint structure is arranged on the side wall of the plate-like structure.

Preferably, the outlet structure is formed by perforations in the interior of a solid plate-like structure, the holes in the interior of the plate-like structure constituting the outlet waterway channels.

Preferably, a plurality of first joint structures are arranged on the leading-out structure body, a plurality of leading-out waterway channels are arranged in the leading-out structure body, a plurality of body waterway channels which are mutually separated are arranged in the waterway plate body, and different leading-out waterway channels are respectively communicated with different body waterway channels.

Preferably, the at least one first connector structure comprises a first connector for connecting a water quality detecting element, a second inlet connector and a second outlet connector for connecting a flow meter, a third connector for connecting a pressure switch, a fourth inlet connector and a fourth outlet connector for connecting a pump, a fifth inlet connector and a fifth outlet connector for connecting a control valve, and/or a sixth connector for connecting a temperature detecting element.

Preferably, the extraction structure body is further provided with a fixing structure for fixing the detection element and/or the waterway control device.

Preferably, the waterway board body comprises a waterway board seat and a waterway board cover which are butted together, and the waterway leading-out structure is arranged on the waterway board cover.

Preferably, the waterway board body is internally provided with a plurality of waterway channels of the body which are mutually separated, and the waterway board body is also provided with an external pipeline for communicating the waterway channels of different bodies.

Preferably, the waterway board body comprises a side wall and a side wall, and the external leading pipeline is arranged on the side wall of the waterway board body.

Preferably, the waterway board body and the waterway leading-out structure are of an integrated structure; or,

the waterway leading-out structure is detachably arranged on the waterway board body.

On the other hand, the application adopts the following technical scheme:

a water treatment apparatus comprising an integrated waterway plate as described above.

The integrated waterway board provided by the application is provided with the waterway leading-out structure, the waterway leading-out structure comprises the leading-out structure body and the joint structure which is arranged on the leading-out structure body and is used for connecting the pipeline, the detection element, the waterway control device and other parts, and the mounting direction and the mounting position of each waterway part can be flexibly set by taking the leading-out structure body as the switching structure, so that the integrated waterway board and the integral structure of the water treatment equipment provided with the integrated waterway board are optimized, the structural compactness of the water treatment equipment and the assembly convenience of the water treatment equipment are improved, and meanwhile, the hidden danger of water leakage can be effectively reduced.

Drawings

The above and other objects, features and advantages of the present application will become more apparent from the following description of embodiments of the present application with reference to the accompanying drawings, in which:

fig. 1 shows a perspective view of an integrated waterway board provided in an embodiment of the present application;

FIG. 2 shows an enlarged view at A in FIG. 1;

fig. 3 shows an exploded view of a part of a detection element and a waterway control device of an integrated waterway board and water treatment device according to an embodiment of the present application.

In the figure, 1, a waterway plate body; 11. a sidewall; 12. a side wall; 13. a waterway plate seat; 14. a waterway plate cover; 2. a waterway leading-out structure; 21. a leading-out structure body; 211. a sidewall; 212. a side wall; 22. a first joint structure; 221. a first connection hole; 3. a second joint structure; 31. a second connection hole; 41. a first joint; 421. a second inlet fitting; 422. a second outlet fitting; 43. a third joint; 441. a fourth inlet fitting; 442. a fourth outlet fitting; 45. a screw post; 46. a screw post; 51. a TDS probe; 52. a TDS probe; 53. a flow meter; 531. a lug; 54. a pressure switch; 55. a waste water electromagnetic valve; 551. a lug; 56. a water inlet electromagnetic valve; 561. a lug; 57. a temperature sensing bag; 58. a joint; 6. an external guide pipeline; 61. a non-return valve; 62. a lug; 7. a screw post; 81. a raw water interface; 82. a pure water interface; 83. and (5) a waste water interface.

Detailed Description

The present application is described below based on examples, but the present application is not limited to only these examples. In the following detailed description of the present application, certain specific details are set forth in detail. The present application will be fully understood by those skilled in the art without the details described herein. Well-known methods, procedures, flows, and components have not been described in detail so as not to obscure the nature of the application.

Moreover, those of ordinary skill in the art will appreciate that the drawings are provided herein for illustrative purposes and that the drawings are not necessarily drawn to scale.

Unless the context clearly requires otherwise, throughout the description and the claims, the words "comprise", "comprising", and the like are to be construed in an inclusive sense as opposed to an exclusive or exhaustive sense; that is, it is the meaning of "including but not limited to".

In the description of the present application, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Furthermore, in the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

The application provides an integrated waterway board which is suitable for water treatment equipment such as a water purifier, a water dispenser and the like which need to control waterways.

As shown in fig. 1, the integrated waterway board includes a waterway board body 1 and a waterway extraction structure 2 disposed on the waterway board body 1, a body waterway runner (not shown in the figure) is provided in the waterway board body 1, the body waterway runner is designed according to a system of a water treatment device such as a water purifier, generally, a plurality of body waterway runners spaced apart from each other are provided in the waterway board body 1, the waterway extraction structure 2 is used for connecting a pipeline, a detecting element for installing a water purification system and a waterway control device, and water in the body waterway runner in the waterway board body 1 is introduced into the pipeline, the detecting element and the waterway control device.

As shown in fig. 2, the water path leading-out structure 2 includes a leading-out structure body 21 and at least one first joint structure 22 provided on the leading-out structure body 21, the first joint structure 22 being used for connecting components required in a water path of a water purification system such as a pipeline, a detection element (e.g., a water quality detection element, a flow meter, a temperature detection element, etc.), and/or a water path control device (e.g., a pressure switch, a pump, a control valve, etc.). The leading-out structure body 21 is provided therein with a leading-out waterway runner (not shown in the drawing), and the first joint structure 22 is communicated with the body waterway runner through the leading-out waterway runner. So, through drawing forth structure body 21 as the switching structure, the installation position and the mounted position of each water route part of settlement that can be nimble to optimize the overall structure of integrated water route board and the water treatment facilities such as purifier that sets up this integrated water route board, in order to improve water treatment facilities's compact structure and water treatment facilities's assembly convenience.

The waterway leading-out structure 2 can be arranged at any position of the waterway board body 1 so as to facilitate the installation of the pipeline, the detecting element and the waterway control device and reasonably arrange the arrangement positions, specifically, as shown in fig. 1, the waterway board body 1 comprises a side wall 11 and a side wall 12, the side wall 11 is two opposite side walls with larger area of the waterway board body 1, the side wall 12 is the peripheral wall surface of the waterway board body 1, and in general, when the pipeline, the detecting element and the waterway control device are directly connected on the side wall 11 of the waterway board body 1, the integral thickness of the integrated waterway board can be increased, based on the integral thickness, the leading-out structure 2 is arranged on the side wall 11 of the waterway board body 1, the installation positions of the pipeline, the detecting element and the waterway control device can be changed through the leading-out structure body 21 of the waterway leading-out structure 2 so as to reduce the integral thickness of the integrated waterway board (namely, the thickness after the pipeline, the detecting element and the waterway control device are installed on the integrated waterway board).

Preferably, the waterway board body 1 includes a waterway board seat 13 and a waterway board cover 14 butted together, thereby forming a body waterway flow channel between the waterway board seat 13 and the waterway board cover 14. The waterway board seat 13 and the waterway board cover 14 are connected in a sealing manner to avoid water leakage, for example, a sealing structure such as a sealing ring is arranged between the waterway board seat and the waterway board cover, or the waterway board seat and the waterway board cover are connected together by welding, for example, hot melt welding or ultrasonic welding can be adopted. The waterway lead-out structure 2 is preferably provided on the waterway board cover 14 so as to facilitate assembly of the integrated waterway board.

Further preferably, in order to facilitate the installation of the pipeline, the detecting element and the waterway control device, as shown in fig. 2, a first connection hole 221 is provided in the first joint structure 22, for example, the first joint structure 22 may be a pipe joint, and a plug connection is formed between the pipe joint, the detecting element and the waterway control device. In order to reduce the overall thickness of the integrated waterway plate, the axis of the first connection hole 221 is not perpendicular to the sidewall 11 of the waterway plate body 1, preferably, the axis of the first connection hole 221 is parallel to the sidewall 11 of the waterway plate body 1, so that the pipeline, the detecting element, the waterway control device can be installed in a direction parallel to the sidewall 11 of the waterway plate body 1, thereby maximally reducing the overall thickness of the integrated waterway plate.

The outlet structure body 21 may be any structure capable of realizing water channel outlet, in a preferred embodiment, as shown in fig. 2, the outlet structure body 21 is in a plate-shaped structure, an outlet water channel is formed inside the plate-shaped structure, the plate-shaped structure includes a side wall 211 and side walls 212, the side wall 211 is two opposite side walls with larger area of the plate-shaped structure, the side walls 212 are wall surfaces around the plate-shaped structure, and the first joint structure 22 is disposed on the side wall 211 of the plate-shaped structure. The plate-like structure may be disposed perpendicular to the side wall 11 of the waterway board body 1 as shown in fig. 2, or may be disposed at an angle, for example, an acute angle between the plate-like structure and the side wall 11 of the waterway board body 1. It is further preferred that, in order to facilitate the connection of the respective waterway components, a bending structure is provided on the plate-like structure such that the plate-like structure is formed as a bending plate to more reasonably arrange the installation positions of the respective waterway components.

The arrangement of the outlet waterway channels is not limited, and for example, a cavity may be formed in the outlet structural body 21, the cavity may be partitioned into a plurality of outlet waterway channels by providing a partition in the cavity, and for example, the outlet structural body 21 may be formed by punching a solid plate-like structure, and the outlet waterway channels may be formed by holes in the plate-like structure. For ease of processing, the lead-out structure body 21 is preferably formed by butt-joining two-half structures.

The waterway leading-out structure 2 and the waterway board body 1 can be of an integral structure, for example, can be obtained through integral injection molding, or the waterway leading-out structure 2 can be detachably arranged on the waterway board body 1, for example, the waterway board leading-out structure 2 is detachably connected with the waterway board body 1 through the modes of clamping, inserting, fastening piece fixing connection and the like.

Further preferably, at least one second joint structure 3 is provided on the side wall 12 of the waterway board body 1, and the second joint structure 3 is at least used for connecting components required on waterways of water purification systems such as pipelines, detection elements, waterway control devices and the like, and the pipelines, the detection elements and the waterway control devices on the side wall 12 and the side wall 11 of the waterway board body 1 are arranged reasonably so as to facilitate circulation of waterways and ensure convenience of assembly.

In order to facilitate the installation of the pipeline, the detection element and the waterway control device, the second joint structure 3 is provided with a second connecting hole 31, for example, the second joint structure 3 may be a pipe joint, and the pipe joint, the detection element and the waterway control device form plug connection. In order to reduce the overall thickness of the integrated waterway plate, the axis of the second connection hole 31 is not perpendicular to the axis of the first connection hole 221, preferably, the axis of the second connection hole 31 is parallel to the axis of the first connection hole 221, so that the pipeline, the sensing element, the waterway control device can be installed in a direction parallel to the sidewall 11 of the waterway plate body 1, thereby maximally reducing the overall thickness of the integrated waterway plate.

Further preferably, the waterway board body 1 is L-shaped as a whole, and the second joint structure 3 is arranged on the side wall 12 positioned on the inner side of the L-shape as much as possible, so as to ensure that the width of the integrated waterway board is not increased.

The integrated waterway board provided by the application has the advantages that the waterway design is convenient by reasonably arranging the first joint structure 22 and the second joint structure 3, the assembly of the integrated waterway board, a pipeline, a detection element and a waterway control device is convenient, and the overall thickness of the integrated waterway board is reduced.

Further, in order to facilitate connection of water inlet and outlet pipes, the side wall 12 of the waterway board body 1 is further provided with a raw water interface 81, a pure water interface 82 and a waste water interface 83.

The waterway leading-out structure 2 can be set to one or more according to actual waterway design requirements, in a specific embodiment, as shown in fig. 3, two waterway leading-out structures 2 are arranged on the side wall 11 of the waterway board body 1, one waterway leading-out structure 2 is provided with a first joint structure 22 for connecting with the TDS probe 51, the other waterway leading-out structure 2 is provided with six first joint structures 22, and when the first joint structures 22 are in a plurality of conditions, a plurality of leading-out waterway runners are arranged in the leading-out structure body 21, and different leading-out waterway runners are respectively communicated with different waterway runners of the waterway board body. As shown in fig. 2 and 3, the first connector structure 22 includes a first connector 41 for connecting a water quality detecting element (e.g., TDS probe 52 shown in fig. 3), a second inlet connector 421 and a second outlet connector 422 for connecting a flow meter 53, a third connector 43 for connecting a pressure switch 54, and a fourth inlet connector 441 and a fourth outlet connector 442 for connecting a pump (not shown). Of course, it is understood that the first connector structure 22 may further include a fifth inlet connector and a fifth outlet connector for connecting a control valve, such as a waste water solenoid valve, a water inlet solenoid valve, etc., and a sixth connector for connecting a temperature detecting element. In the embodiment shown in fig. 3, since the bulb 57 used as the temperature detecting element is small in size, the connector 58 is directly provided on the side wall 11 of the waterway plate body 1 to connect the bulb 57 for the sake of simplicity of construction.

Further, in order to ensure the installation reliability of the detection element and the waterway control device, a fixing structure is further provided on the extraction structure body 21, and the detection element and the waterway control device can be fixedly connected to the extraction structure body 21 through the fixing structure. For example, in the embodiment shown in fig. 2, a fixing structure is used to fix the flow meter 53, the fixing structure includes screw posts 45 provided at both sides of the second inlet joint 421 and the second outlet joint 422, both sides of the flow meter 53 are provided with lugs 531, and the two lugs 531 are respectively screwed to the two screw posts 45 by two fasteners such as screws or bolts, thereby reliably fixing the flow meter 53 to the lead-out structure body 21.

As shown in fig. 3, a plurality of second joint structures 3 are further disposed on the side wall 12 of the waterway board body 1 and are used for connecting the waste water electromagnetic valve 55 and the water inlet electromagnetic valve 56, in order to improve the installation reliability of the waste water electromagnetic valve 55 and the water inlet electromagnetic valve 56, fixing structures for fixing the waste water electromagnetic valve 55 and the water inlet electromagnetic valve 56 are disposed on the side wall 12 of the waterway board body 1, for example, the fixing structures can be screw columns 46 shown in fig. 3, lugs 551 and 561 are disposed on the waste water electromagnetic valve 55 and the water inlet electromagnetic valve 56, and the lugs 551 and 561 are screwed and fixed with the screw columns 46 through fasteners to achieve the reliable fixing of the waste water electromagnetic valve 55 and the water inlet electromagnetic valve 56 respectively. Preferably, the waste water solenoid valve 55 is disposed on the inner side wall 12 of the L-shaped waterway board body 1, and the water inlet solenoid valve 56 is disposed on the end side wall 12 of the short side of the L-shaped waterway board body 1, and convenience in assembly can be further improved by reasonably disposing the positions of the waste water solenoid valve 55 and the water inlet solenoid valve 56.

Further, as shown in fig. 3, according to the waterway requirement, the waterway board body 1 may be further provided with an external conduit 6 to realize the communication between waterway channels of different bodies in the waterway board body 1, preferably, the external conduit 6 is disposed on the sidewall 11 of the waterway board body 1. A check valve 61 for controlling the direction of water flow may be further provided in the external conduit 6. In order to improve the structural strength of the external pipe 6, it is preferable that a fixing structure for fixing the external pipe 6 is provided on the side wall 11 of the waterway plate body 1, and the fixing structure may be, for example, a screw column 7 shown in fig. 3, and a lug 62 is provided on the side wall of the external pipe 6, and the lug 62 is screwed and fixed with the screw column 7 by a fastener to achieve reliable fixing of the external pipe 6.

The integrated waterway board is provided with the waterway leading-out structure 2, the waterway leading-out structure 2 comprises the leading-out structure body 21 and a joint structure which is arranged on the leading-out structure body 21 and is used for connecting parts such as a pipeline, a detection element and a waterway control device, and the mounting positions of all the parts can be flexibly set by taking the leading-out structure body 21 as a switching structure, so that the integrated waterway board and the integral structure of the water treatment equipment provided with the integrated waterway board are optimized, the structural compactness of the water treatment equipment and the assembly convenience of the water treatment equipment are improved, and meanwhile, the hidden danger of water leakage can be effectively reduced.

Furthermore, the application also provides water treatment equipment, and the integrated waterway plate structure is adopted, so that the effects of convenience in assembly and compact structure are achieved.

It is easy to understand by those skilled in the art that the above preferred embodiments can be freely combined and overlapped without conflict.

It will be understood that the above-described embodiments are merely illustrative and not restrictive, and that all obvious or equivalent modifications and substitutions to the details given above may be made by those skilled in the art without departing from the underlying principles of the application, are intended to be included within the scope of the appended claims.

Claims (11)

1. The integrated waterway board is characterized by comprising a waterway board body and a waterway leading-out structure arranged on the waterway board body, wherein a body waterway runner is arranged in the waterway board body, the waterway leading-out structure comprises a leading-out structure body and at least one first joint structure arranged on the leading-out structure body, the first joint structure is at least used for connecting pipelines, detection elements and/or waterway control devices, a leading-out waterway runner is arranged in the leading-out structure body, and the first joint structure is communicated with the body waterway runner through the leading-out waterway runner;

the waterway board body comprises a side wall and a side wall, and the waterway leading-out structure is arranged on the side wall of the waterway board body;

a first connecting hole is formed in the first joint structure, and the axis of the first connecting hole is not perpendicular to the side wall of the waterway plate body; the extraction structure body is of a plate-shaped structure, the plate-shaped structure comprises a side wall and a side wall, and the first joint structure is arranged on the side wall of the plate-shaped structure;

the extraction structure is formed by perforating the inside of a solid plate-shaped structure, and the holes in the inside of the plate-shaped structure form the extraction waterway runner;

the water channel plate body is internally provided with a plurality of mutually-separated body water channel channels, and different water channel channels are respectively communicated with different body water channel channels;

the side wall of the waterway plate body is provided with a second joint structure which is at least used for connecting a pipeline, a detection element and/or a waterway control device;

the waterway board body is integrally L-shaped, and the second joint structure is arranged on the side wall positioned on the inner side of the L-shaped waterway board body.

2. The integrated waterway plate of claim 1, wherein an axis of the first connection hole is parallel to a sidewall of the waterway plate body.

3. The integrated waterway board of claim 1, wherein a second connector structure is provided with a second connector hole, an axis of the second connector hole being non-perpendicular to an axis of the first connector hole.

4. The integrated waterway board of claim 3, wherein an axis of the second connecting hole is parallel to an axis of the first connecting hole.

5. The integrated waterway board of claim 1, wherein the at least one first connector structure includes a first connector for connecting a water quality detection element, a second inlet connector and a second outlet connector for connecting a flow meter, a third connector for connecting a pressure switch, a fourth inlet connector and a fourth outlet connector for connecting a pump, a fifth inlet connector and a fifth outlet connector for connecting a control valve, and/or a sixth connector for connecting a temperature detection element.

6. The integrated waterway board according to claim 1, characterized in that the extraction structure body is further provided with a fixing structure for fixing the detecting element and/or the waterway control device.

7. The integrated waterway board of any of claims 1-6, wherein the waterway board body includes a waterway board seat and a waterway board cover butted together, and the waterway lead-out structure is disposed on the waterway board cover.

8. The integrated waterway board according to any one of claims 1 to 6, wherein the waterway board body is provided therein with a plurality of waterway channels spaced apart from each other, and the waterway board body is further provided thereon with an external conduit for communicating the waterway channels of the different bodies.

9. The integrated waterway board of claim 8, wherein the waterway board body includes side walls and side walls, and the external conduit is disposed on the side walls of the waterway board body.

10. The integrated waterway board of any of claims 1-6, wherein the waterway board body and the waterway lead-out structure are of unitary construction; or,

the waterway leading-out structure is detachably arranged on the waterway board body.

11. A water treatment apparatus comprising an integrated waterway board as claimed in any one of claims 1 to 10.