CN110368737B - Integrated waterway plate and water purifier - Google Patents

Abstract

The invention discloses an integrated waterway board and a water purifier, wherein the integrated waterway board comprises a waterway board body formed by integral injection molding, one board surface of the waterway board body is a mounting board surface, the adjacent board surface is a mounting side surface, and waterway interfaces communicated with the outside are respectively arranged on the mounting board surface and the mounting side surface; the waterway plate is arranged in a strip shape, and is provided with a front purification waterway and a membrane purification waterway which are formed by core pulling; wherein, leading purification water route is located the middle part of integrated water route board, the membrane purifies the water route and is located the one end of integrated water route board. According to the technical scheme, through reasonable layout of the waterway and reasonable arrangement of the waterway interfaces, the space utilization rate of the integrated waterway board is high, and the structure is compact.

Description

Integrated waterway plate and water purifier

Technical Field

The invention relates to the technical field of water purification, in particular to an integrated waterway board and a water purifier.

Background

The existing integrated waterway board is unreasonable in arrangement of internal flow channels, and unreasonable in arrangement of waterway interfaces, so that the waterway board is complicated in structure, space of the waterway board is not fully and reasonably utilized, and meanwhile, parts of the water purifier using the integrated waterway board are unreasonable to be arranged.

Disclosure of Invention

The invention mainly aims to provide an integrated waterway board, which aims to improve the structural compactness and the space utilization rate of the integrated waterway board.

In order to achieve the above purpose, the integrated waterway board provided by the invention is used for a water purifier, and comprises a waterway board body which is integrally injection molded, wherein one board surface of the waterway board body is a mounting board surface, the adjacent board surface is a mounting side surface, and waterway interfaces which are communicated with the outside are respectively arranged on the mounting board surface and the mounting side surface;

the waterway plate is arranged in a strip shape, and is provided with a front purification waterway and a membrane purification waterway which are formed by core pulling; wherein, leading purification water route is located the middle part of integrated water route board, the membrane purifies the water route and is located the one end of integrated water route board.

Preferably, the front purification waterway comprises a raw water runner, a front water inlet runner and a front water outlet runner;

one end of the raw water runner is communicated with a raw water inlet arranged on the mounting side surface, and the other end of the raw water runner is communicated with the front water inlet runner;

One end of the front water inlet flow channel, which is far away from the raw water flow channel, is communicated with a front filter element water inlet arranged on the mounting plate surface;

One end of the front-mounted water outlet channel is communicated with a front-mounted filter element water outlet arranged on the mounting plate surface; the water inlet of the preposed filter element is communicated with the water outlet of the preposed filter element for the preposed filter element of the water purifier.

Preferably, the water inlet of the pre-filter element and the water outlet of the pre-filter element are adjacently arranged along the length direction of the integrated waterway plate.

Preferably, the front-end purification waterway further comprises a living water runner, and one end of the living water runner is communicated with one end of the front-end water outlet runner, which is far away from the front-end filter element water outlet; the other end is communicated with a domestic water outlet arranged on the installation side surface.

Preferably, the domestic water outlet and the raw water inlet are adjacently arranged along the length direction of the integrated waterway board.

Preferably, the membrane purification waterway comprises a membrane water inlet channel, a membrane pure water channel and a membrane wastewater channel;

One end of the membrane water inlet runner is communicated with one end of the front water outlet runner, which is far away from the front filter element water outlet, and the other end of the membrane water inlet runner is communicated with a membrane filter element water inlet arranged on the mounting side surface;

One end of the membrane pure water flow channel is communicated with a pure water port of a membrane filter element arranged on the mounting plate surface, the other end of the membrane pure water flow channel is communicated with a pure water outlet of the water purifier, and the pure water outlet is arranged on the mounting side surface;

One end of the membrane waste water runner is communicated with a waste water port of the membrane filter element arranged on the mounting plate surface, the other end of the membrane waste water runner is communicated with a waste water outlet of the water purifier, and the waste water outlet is arranged on the mounting side surface.

Preferably, the domestic water outlet, the raw water inlet, the pure water outlet and the waste water outlet of the integrated waterway board are arranged along the length direction of the integrated waterway board.

Preferably, the membrane filter core water inlet, the membrane filter core pure water gap and the membrane filter core waste water gap are adjacently arranged along the length direction of the integrated waterway plate.

Preferably, the membrane purification waterway further comprises a waste water valve flow path, wherein the waste water valve flow path comprises a waste water valve water inlet flow path and a waste water valve water outlet flow path;

one end of the water inlet channel of the waste water valve is communicated with the waste water port of the membrane filter element, and the other end of the water inlet channel of the waste water valve is communicated with a water inlet of the waste water valve arranged on the surface opposite to the mounting side surface;

one end of the waste water valve water outlet runner is communicated with the waste water outlet, and the other end of the waste water valve water outlet runner is communicated with the waste water valve water outlet arranged on the surface opposite to the mounting side surface.

Preferably, the integrated waterway plate is further provided with a water inlet valve flow path formed by loose cores, and the water inlet valve flow path comprises a water inlet valve water inlet flow path and a water inlet valve water outlet flow path;

One end of the water inlet valve water inlet runner is communicated with the water outlet of the front filter element, and the other end of the water inlet valve water inlet runner is communicated with a water inlet of the water inlet valve arranged on the surface opposite to the mounting side surface;

One end of the water inlet valve water outlet runner is communicated with the water inlet of the membrane filter core, and the other end of the water inlet valve water outlet runner is communicated with the water inlet valve water outlet arranged on the surface opposite to the mounting side surface.

Preferably, the integrated waterway plate is further provided with a booster pump flow path formed by core pulling, and the booster pump flow path comprises a booster pump water inlet flow path and a booster pump water outlet flow path;

one end of the booster pump water inlet runner is communicated with the water inlet valve water outlet, and the other end of the booster pump water inlet runner is communicated with a booster pump water inlet arranged on the surface opposite to the mounting plate surface;

One end of the booster pump water outlet channel is communicated with the water inlet of the membrane filter core, and the other end of the booster pump water outlet channel is communicated with a booster pump water outlet arranged on the surface opposite to the mounting plate surface.

Preferably, the integrated waterway plate is further provided with a rear flow path formed by core pulling, and the rear flow path comprises a rear water inlet flow path and a rear water outlet flow path;

One end of the rear water inlet runner is communicated with the pure water port of the membrane filter core, and the other end of the rear water inlet runner is communicated with a water inlet of the rear filter core arranged on the mounting plate surface;

one end of the rear water outlet runner is communicated with the pure water outlet, and the other end of the rear water outlet runner is communicated with a rear filter element water outlet arranged on the mounting plate surface.

Preferably, the integrated waterway board is further provided with a water storage flow path formed by core pulling, and the water storage flow path comprises a water storage water inlet flow path and a water storage water outlet flow path;

one end of the water storage and inflow channel is communicated with the pure water port of the membrane filter core, and the other end of the water storage and inflow channel is communicated with a water storage and inflow port arranged on the mounting side face;

One end of the water storage and outlet runner is communicated with the water inlet of the rear filter element, and the other end of the water storage and outlet runner is communicated with the water outlet of the water storage core arranged on the mounting side face.

Preferably, the integrated waterway plate is also provided with a check valve flow path formed by core pulling, and the check valve flow path comprises a check valve water inlet flow path and a check valve water outlet flow path;

One end of the one-way valve water inlet runner is communicated with the pure water port of the membrane filter core, and the other end of the one-way valve water inlet runner is communicated with a one-way valve water inlet arranged on the surface opposite to the mounting plate surface;

one end of the one-way valve water outlet runner is communicated with the water storage water inlet, and the other end of the one-way valve water outlet runner is communicated with a one-way valve water outlet arranged on the surface opposite to the mounting plate surface.

The invention also provides a water purifier, which comprises an integrated waterway plate, wherein the integrated waterway plate comprises a waterway plate body which is integrally injection molded, one plate surface of the waterway plate body is a mounting plate surface, the adjacent plate surface is a mounting side surface, and waterway interfaces which are communicated with the outside are respectively arranged on the mounting plate surface and the mounting side surface;

the waterway plate is arranged in a strip shape, and is provided with a front purification waterway and a membrane purification waterway which are formed by core pulling; wherein, leading purification water route is located the middle part of integrated water route board, the membrane purifies the water route and is located the one end of integrated water route board.

According to the technical scheme, through the arrangement of the positions among the waterway interfaces and the arrangement among the runner positions, the integrated waterway board is more compact in structure, more reasonable in space utilization, beneficial to improving the structural compactness among all parts of the water purifier using the integrated waterway board, and more reasonable in arrangement among all waterway parts.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a water purifier according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the waterway structure of the water purifier of the present invention;

FIG. 3 is a schematic diagram of an embodiment of an integrated waterway board according to the present invention;

fig. 4 is a schematic structural view of the rear side of the integrated waterway board in fig. 3.

Reference numerals illustrate:

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It should be noted that all directional indicators (such as up, down, left, right, front, and rear … …) in the embodiments of the present invention are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture (as shown in the drawings), and if the particular posture is changed, the directional indicator is changed accordingly.

Furthermore, the description of "first," "second," etc. in this disclosure is for descriptive purposes only and is not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present invention.

The specific structure of the integrated waterway board 100 will be mainly described below. In order to make the reader more convenient to understand the technical scheme of the invention, the rear side surface of the integrated waterway board 100 is set as a mounting board surface, the top surface is set as a mounting side surface, and based on this, space coordinates as shown in fig. 3 are established, and six directions of space are represented by front, back, left, right, upper and lower directions respectively.

Referring to fig. 1 to 2, for the sake of understanding, the water purifier waterway of the present application is described in its entirety, and it should be noted that, in some embodiments, only a portion of the waterway may include a complete waterway.

Raw water (tap water) enters the front filter element 200 through the raw water flow passage and the front water inlet flow passage 121; water flowing out of the front filter element 200, one part of the water passes through the living water runner and the living water outlet 120 for a user, and the other part of the water passes through the water inlet valve water inlet runner and the water inlet valve water inlet 18a and then enters the water inlet valve 300; water flowing out of the water inlet valve 300 flows into the booster pump water inlet runner through the water inlet and outlet 18b and the water inlet valve water outlet runner; after passing through the booster pump water inlet channel and the booster pump water inlet 19a, the air enters the booster pump 400; the water pressurized by the booster pump 400 enters the membrane water inlet flow channel 151 through the booster pump water outlet 19b and the booster pump water outlet flow channel; the membrane water enters the membrane filter 500 from the membrane water inlet flow channel 151 through the membrane filter water inlet 16 a; the wastewater flowing out of the membrane filter core 500 enters the membrane wastewater runner through the membrane filter core wastewater port 16c, enters the wastewater valve water inlet runner through the membrane wastewater runner, and is discharged from the wastewater valve water outlet runner and the wastewater outlet 140 after passing through the wastewater valve 900; pure water flowing out of the membrane filter 500 enters the membrane pure water flow channel 152 through the membrane filter pure water port 16b, and enters the one-way valve water inlet flow channel through the membrane pure water flow channel 152; after passing through the one-way valve 600, the water flows into the water storage water inlet channel from the one-way valve water outlet channel; after passing through the water storage structure 700, the water enters the rear water inlet channel 181 from the water storage water outlet channel; after passing through the rear filter element 800, the water flows out of the rear water outlet 182 and the pure water outlet 110.

Referring to fig. 1 to 4, in an embodiment of the present invention, the integrated water circuit board 100 is used for a water purifier, and is characterized in that the integrated water circuit board 100 includes an integrally injection molded water circuit board body, one of the boards of the water circuit board body is a mounting board, the board adjacent to the mounting board is a mounting side, and water circuit interfaces communicating with the outside are provided on the mounting board and the mounting side;

The waterway plate is arranged in a strip shape, and is provided with a front purification waterway and a membrane purification waterway which are formed by core pulling; wherein, the front purification waterway is located in the middle of the integrated waterway board 100, and the membrane purification waterway is located at one end of the integrated waterway board 100.

Specifically, in this embodiment, the integrated waterway board 100 is disposed in a strip shape, the front purification waterway is located in the middle of the integrated waterway board 100, and the membrane purification waterway is located at the right end of the integrated waterway board 100.

Wherein the pre-purification waterway comprises a raw water channel, a pre-water inlet channel 121 and a pre-water outlet channel 122; one end of the raw water channel is communicated with a raw water inlet 130 formed on the mounting side surface, and the other end of the raw water channel is communicated with the front water inlet channel 121; one end of the front water inlet channel 121, which is far away from the raw water channel, is communicated with a front filter element water inlet 15a formed on the mounting plate surface; one end of the front-mounted water outlet channel 122 is communicated with a front-mounted filter element water outlet 15b arranged on the mounting plate surface; the front filter element water inlet 15a and the front filter element water outlet 15b are used for communicating the front filter element of the water purifier.

The pre-filter water inlet 15a and the pre-filter water outlet 15b are adjacently arranged along the length direction of the integrated waterway board 100 and are positioned in the middle of the installation board surface of the integrated waterway board 100. The openings of the pre-filter water inlet 15a and the pre-filter water outlet 15b are perpendicular to the mounting plate surface (rear side surface).

To provide a user with more water options, the pre-purification waterway further comprises a living water flow channel, one end of which is communicated with one end of the pre-water flow channel 122 away from the pre-filter water outlet 15 b; the other end is communicated with a domestic water outlet 120 arranged on the installation side surface.

Wherein, the domestic water outlet 120 and the raw water inlet 130 are adjacently disposed along the length direction of the integrated waterway board 100. The raw water inlet 130 is positioned right above the front filter element water inlet 15a, and the domestic water outlet 120 is positioned right above the front filter element water outlet 15 b. The opening directions of the raw water outlet 120 and the raw water inlet 130 are perpendicular to the top surface of the integrated waterway plate 100.

The membrane purification waterway comprises a membrane water inlet channel 151, a membrane pure water channel 152 and a membrane wastewater channel;

One end of the membrane water inlet flow channel 151 is communicated with one end of the front water outlet flow channel 122, which is far away from the front filter element water outlet 15b, and the other end of the membrane water inlet flow channel is communicated with the membrane filter element water inlet 16a which is arranged on the installation side surface;

one end of the membrane pure water flow channel 152 is communicated with a membrane filter element pure water port 16b arranged on the mounting plate surface, the other end of the membrane filter element pure water flow channel is communicated with a pure water outlet 110 of the water purifier, and the pure water outlet 110 is arranged on the mounting side surface;

One end of the membrane wastewater channel is communicated with a membrane filter element wastewater port 16c formed in the mounting plate surface, the other end of the membrane wastewater channel is communicated with a wastewater outlet 140 of the water purifier, and the wastewater outlet 140 is formed in the mounting side surface.

The domestic water outlet 120, the raw water inlet 130, the pure water outlet 110 and the waste water outlet 140 of the integrated waterway board 100 are arranged along the length direction of the integrated waterway board 100. The living water outlet 120, the raw water inlet 130, the pure water outlet 110, and the waste water outlet 140 are arranged in a straight line on the top surface of the integrated waterway board 100. The membrane filter cartridge water inlet 16a, the membrane filter cartridge pure water port 16b and the membrane filter cartridge waste water port 16c are adjacently arranged along the length direction of the integrated waterway plate 100. The opening directions of the membrane filter element water inlet 16a, the membrane filter element pure water outlet 16b and the membrane filter element waste water outlet 16c are perpendicular to the installation plate surface, and a space is reserved between the membrane filter element waste water outlet 16c and the front filter element water inlet 15 a. The wastewater outlet 140 is positioned directly above the membrane cartridge wastewater port 16 c.

In order to more accurately control the discharge of the wastewater, the membrane purification waterway further comprises a wastewater valve flow path, wherein the wastewater valve flow path comprises a wastewater valve water inlet flow path and a wastewater valve water outlet flow path;

one end of the water inlet channel of the waste water valve is communicated with the waste water port 16c of the membrane filter element, and the other end of the water inlet channel of the waste water valve is communicated with the water inlet 21a of the waste water valve which is arranged on the surface opposite to the mounting side surface;

One end of the waste water valve water outlet runner is communicated with the waste water outlet 140, and the other end is communicated with a waste water valve water outlet 21b arranged on the surface opposite to the mounting side surface.

Wherein, the waste water valve water inlet 21a and the waste water valve water outlet 21b are arranged on the lower side surface of the integrated waterway board 100, and are adjacently arranged along the length direction of the integrated waterway board 100.

For better control of water intake, the integrated waterway plate 100 further has a water intake valve flow path formed by loose cores, the water intake valve flow path including a water intake valve water intake flow path and a water intake valve water outlet flow path;

one end of the inlet valve inlet runner is communicated with the front filter element water outlet 15b, and the other end is communicated with the inlet valve inlet 18a arranged on the surface opposite to the mounting side surface;

one end of the inlet valve outlet runner is communicated with the membrane filter core water inlet 16a, and the other end is communicated with the inlet valve water outlet 18b arranged on the surface opposite to the mounting side surface.

In order to ensure the pressure in the waterway, the integrated waterway plate 100 further has a booster pump flow path formed by core pulling, the booster pump flow path including a booster pump water inlet flow path and a booster pump water outlet flow path;

one end of the booster pump water inlet runner is communicated with the water inlet valve water outlet 18b, and the other end of the booster pump water inlet runner is communicated with a booster pump water inlet 19a arranged on the surface opposite to the mounting plate surface;

one end of the booster pump water outlet runner is communicated with the membrane filter core water inlet 16a, and the other end is communicated with a booster pump water outlet 19b arranged on the surface opposite to the mounting plate surface.

For further purifying the purified water before drinking, the integrated waterway board 100 further has a rear flow path formed by core pulling, including a rear water inlet flow path 181 and a rear water outlet flow path 182;

one end of the rear water inlet runner 181 is communicated with the pure water port 16b of the membrane filter element, and the other end of the rear water inlet runner is communicated with a water inlet 17a of the rear filter element arranged on the mounting plate surface;

one end of the rear water outlet runner 182 is communicated with the pure water outlet 110, and the other end is communicated with a rear filter element water outlet 17b arranged on the mounting plate surface.

In order to ensure that the user has enough pure water supply when using water, the integrated waterway board 100 is further provided with a water storage flow path formed by loose cores, wherein the water storage flow path comprises a water storage water inlet flow path and a water storage water outlet flow path;

One end of the water storage and inflow channel is communicated with the pure water port 16b of the membrane filter element, and the other end of the water storage and inflow channel is communicated with a water storage inlet 23a formed on the mounting side surface;

one end of the water storage and outlet runner is communicated with the water inlet 17a of the rear filter element, and the other end of the water storage and outlet runner is communicated with the water outlet of the water storage core arranged on the installation side face.

In order to avoid pure water backflow in the water storage structure, the integrated waterway plate 100 is further provided with a check valve flow path formed by core pulling, wherein the check valve flow path comprises a check valve water inlet flow path and a check valve water outlet flow path;

one end of the one-way valve water inlet runner is communicated with the pure water port 16b of the membrane filter element, and the other end of the one-way valve water inlet runner is communicated with a one-way valve water inlet 22a arranged on the surface opposite to the mounting plate surface;

One end of the one-way valve water outlet runner is communicated with the water storage water inlet 23a, and the other end of the one-way valve water outlet runner is communicated with the one-way valve water outlet 22b arranged on the surface opposite to the mounting plate surface.

For a clearer understanding of the positional relationship between the water inlets and water outlets in the integrated waterway board 100, the following description will be made in detail with reference to fig. 3 and 4.

On the installation plate surface (rear side surface) of the integrated waterway plate 100, a membrane filter element water inlet 16a, a membrane filter element pure water inlet 16b, a membrane filter element waste water inlet 16c, a pre-filter element water inlet 15a, a pre-filter element water outlet 15b, a post-filter element water inlet 17a and a post-filter element water outlet 17b are sequentially (refer to a coordinate system in fig. 3 from left to right), and the openings are arranged in a straight line along the length direction of the integrated waterway plate 100, wherein the membrane filter element water inlet 16a, the membrane filter element pure water inlet 16b and the membrane filter element waste water inlet 16c are arranged in close proximity, and the pre-filter element water inlet 15a and the pre-filter element water outlet 15b are arranged in close proximity, and the post-filter element water inlet 17a and the post-filter element water outlet 17b are arranged in close proximity.

On the installation side (top surface) of the integrated waterway board 100, a pure water outlet 110, a domestic water outlet 120, a raw water inlet 130, a waste water outlet 140, and a water storage inlet 23a and a water storage outlet 23b provided at the right end of the integrated waterway board 100, which are arranged in a straight line along the length direction of the integrated waterway board 100, are sequentially (from left to right with reference to a coordinate system in fig. 3). Wherein, pure water delivery port 110 is located directly over post-filter element delivery port 17b, and domestic water delivery port 120 is located directly over pre-filter element delivery port 15b, and raw water inlet 130 is located directly over pre-filter element water inlet 15a, and waste water delivery port 140 is located directly over membrane filter element waste water port 16c, and water storage water inlet 23a and water storage delivery port 23b are arranged near membrane filter element pure water port 16 b.

On the front side surface of the integrated waterway plate 100, a booster pump water inlet 19a, a check valve water inlet 22a, a booster pump water outlet 19b, and a check valve water outlet 22b provided along the longitudinal direction of the integrated waterway plate 100 are sequentially (from left to right with reference to a coordinate system in fig. 3). Wherein, booster pump water inlet 19a is located raw water inlet 130 directly below, and check valve water inlet 22a corresponds the setting with membrane filter core pure water gap 16b, and booster pump delivery port 19b corresponds with membrane filter core water inlet 16a, and check valve delivery port 22b is located water storage water inlet 23a and water storage delivery port 23b directly below.

On the lower side of the integrated waterway plate 100, a water inlet valve water inlet 18a, a water inlet valve water outlet 18b, a waste water valve water inlet 21a, and a waste water valve water outlet 21b are opened in this order (from left to right with reference to the coordinate system in fig. 3), and the water inlets are aligned in a straight line along the length direction of the integrated waterway plate 100. Wherein the inlet valve water inlet 18a and inlet valve water outlet 18b are disposed in close proximity, and the waste valve water inlet 21a and waste valve water outlet 21b are disposed in close proximity; the inlet valve water inlet 18a and the inlet valve water outlet 18b are positioned right below the booster pump water inlet 19a, the front filter element water inlet 15a and the front filter element water outlet 15 b; the waste water valve water inlet 21a and the waste water valve water outlet 21b are positioned right below the membrane filter element waste water port 16 c.

Through the setting to the position between the mouth of a river, the setting between the runner position for integrated water route board 100's structure is compacter, and space utilization is more reasonable, is favorable to improving the compactedness between each part of the purifier that uses integrated water route board 100, makes the range between each water route part more reasonable.

It should be noted that, in some embodiments, in order to improve the installation efficiency of the waterway board, the waterway interface is provided with a connecting post 10b integrally formed with the waterway board body, the connecting post 10b is provided with a connecting runner communicating with the waterway structure, and the connecting post 10b is plugged with the plug 10 a. The connecting flow channels of the connecting columns 10b are communicated with the corresponding waterway interfaces, and when the plug connector 10a is plugged into one end of the connecting column 10b far away from the waterway board body, the plug connector 10a is communicated with the waterway of the integrated waterway board 100. The connecting flow channel is a linear flow channel formed by core pulling. The connecting posts 10b are perpendicular to the mounting side or mounting plate surface. By the vertical arrangement, the plug-in process of the plug-in connector 10a and the connecting column 10b is smooth and labor-saving.

Through setting up spliced pole 10b in water route interface department for integrated water route board 100 is very simple, swift with the connection of bayonet joint 10a, omits to be fixed in steps such as on integrated water route board 100 with bayonet joint 10a, has improved integrated water route board 100's assembly speed by a wide margin, also improves the assembly speed of purifier by a wide margin.

The invention also provides a water purifier, which comprises a plug 10a and an integrated waterway board 100, wherein the specific structure of the integrated waterway board 100 refers to the above embodiment, and the water purifier at least has all the beneficial effects brought by the technical schemes of the above embodiment because the water purifier adopts all the technical schemes of the above embodiment, and the detailed description is omitted.

The foregoing description is only of the preferred embodiments of the present invention and is not intended to limit the scope of the invention, and all equivalent structural changes made by the description of the present invention and the accompanying drawings or direct/indirect application in other related technical fields are included in the scope of the invention.

Claims (4)

1. An integrated waterway board is used for a water purifier and is characterized by comprising a waterway board body which is integrally injection molded, wherein one board surface of the waterway board body is a mounting board surface, the adjacent board surface is a mounting side surface, and waterway interfaces communicated with the outside are respectively arranged on the mounting board surface and the mounting side surface;

The integrated waterway plate is arranged in a strip shape, and is provided with a front purification waterway and a membrane purification waterway which are formed by core pulling; the front purification waterway is positioned in the middle of the integrated waterway plate, and the membrane purification waterway is positioned at one end of the integrated waterway plate;

the front purification waterway comprises a raw water runner, a front water inlet runner and a front water outlet runner, and the front purification waterway also comprises a living water runner; the membrane purification waterway comprises a membrane water inlet channel, a membrane pure water channel and a membrane wastewater channel; a membrane filter element water inlet, a membrane filter element pure water port, a membrane filter element waste water port, a front filter element water inlet, a front filter element water outlet, a rear filter element water inlet and a rear filter element water outlet are sequentially formed on the mounting plate surface of the integrated waterway plate; the installation side surface of the integrated waterway plate is sequentially provided with a pure water outlet, a domestic water outlet, a raw water inlet, a waste water outlet, a water storage inlet and a water storage outlet which are arranged at the right end of the integrated waterway plate, wherein the pure water outlet, the domestic water outlet, the raw water inlet and the waste water outlet are arranged in a straight line along the length direction of the integrated waterway plate;

one end of the raw water runner is communicated with the raw water inlet, and the other end of the raw water runner is communicated with the front water inlet runner; the front water inlet flow passage is far away from one end of the raw water flow passage and is communicated with the water inlet of the front filter element; one end of the front-end water outlet channel is communicated with the front-end filter element water outlet, and the front-end filter element water inlet and the front-end filter element water outlet are communicated with a front-end filter element of the water purifier;

One end of the living water flow channel is communicated with one end of the front water outlet flow channel, which is far away from the front filter element water outlet, and the other end of the living water flow channel is communicated with the living water outlet;

The integrated waterway plate is also provided with a water inlet valve flow path formed by loose cores, and the water inlet valve flow path comprises a water inlet valve water inlet flow path and a water inlet valve water outlet flow path; one end of the water inlet valve water inlet runner is communicated with the water outlet of the front filter element, and the other end of the water inlet valve water inlet runner is communicated with a water inlet of the water inlet valve arranged on the surface opposite to the mounting side surface; one end of the water inlet valve water outlet channel is communicated with the water inlet of the membrane filter core, and the other end of the water inlet valve water outlet channel is communicated with a water inlet valve water outlet arranged on the surface opposite to the mounting side surface;

The integrated waterway plate is also provided with a booster pump flow path formed by core pulling, and the booster pump flow path comprises a booster pump water inlet flow path and a booster pump water outlet flow path; one end of the booster pump water inlet runner is communicated with the water inlet valve water outlet, and the other end of the booster pump water inlet runner is communicated with a booster pump water inlet arranged on the surface opposite to the mounting plate surface; one end of the booster pump water outlet channel is communicated with the water inlet of the membrane filter core, and the other end of the booster pump water outlet channel is communicated with a booster pump water outlet arranged on the surface opposite to the mounting plate surface;

one end of the membrane water inlet flow channel is communicated with one end of the front water outlet flow channel, which is far away from the water outlet of the front filter element, and the other end of the membrane water inlet flow channel is communicated with the water inlet of the membrane filter element; one end of the membrane pure water runner is communicated with the pure water port of the membrane filter core, and the other end of the membrane pure water runner is communicated with a pure water outlet of the water purifier; one end of the membrane wastewater channel is communicated with the membrane filter core wastewater port, and the other end of the membrane wastewater channel is communicated with a wastewater outlet of the water purifier;

the integrated waterway plate is also provided with a water storage flow path formed by core pulling, and the water storage flow path comprises a water storage water inlet flow path and a water storage water outlet flow path; one end of the water storage and inflow channel is communicated with the pure water port of the membrane filter core, and the other end of the water storage and inflow channel is communicated with a water storage and inflow port arranged on the mounting side face; one end of the water storage and outlet runner is communicated with the water inlet of the rear filter element, and the other end of the water storage and outlet runner is communicated with a water storage and outlet arranged on the mounting side face;

The integrated waterway plate is also provided with a rear flow path formed by core pulling, and the rear flow path comprises a rear water inlet flow path and a rear water outlet flow path; one end of the rear water inlet runner is communicated with the pure water port of the membrane filter core, and the other end of the rear water inlet runner is communicated with the water inlet of the rear filter core; one end of the rear water outlet runner is communicated with the pure water outlet, and the other end of the rear water outlet runner is communicated with the rear filter element outlet.

2. The integrated waterway plate of claim 1, wherein the membrane purification waterway further comprises a waste valve flowpath including a waste valve inlet flowpath and a waste valve outlet flowpath;

one end of the water inlet channel of the waste water valve is communicated with the waste water port of the membrane filter element, and the other end of the water inlet channel of the waste water valve is communicated with a water inlet of the waste water valve arranged on the surface opposite to the mounting side surface;

One end of the waste water valve water outlet runner is communicated with the waste water outlet, and the other end of the waste water valve water outlet runner is communicated with the waste water valve water outlet arranged on the surface opposite to the mounting side surface.

3. The integrated waterway board of claim 1, further comprising a check valve flow path formed of loose core, the check valve flow path comprising a check valve water inlet flow path and a check valve water outlet flow path;

One end of the one-way valve water inlet runner is communicated with the pure water port of the membrane filter core, and the other end of the one-way valve water inlet runner is communicated with a one-way valve water inlet arranged on the surface opposite to the mounting plate surface;

one end of the one-way valve water outlet runner is communicated with the water storage water inlet, and the other end of the one-way valve water outlet runner is communicated with a one-way valve water outlet arranged on the surface opposite to the mounting plate surface.

4. A water purifier comprising the integrated waterway board of any one of claims 1 to 3.