CN108371843B

CN108371843B - Integrated waterway plate assembly and integrated waterway system

Info

Publication number: CN108371843B
Application number: CN201810377306.7A
Authority: CN
Inventors: 陈清; 陈忱; 陈良刚
Original assignee: Suzhou Litree Membrane Separation Technology Co ltd
Current assignee: Suzhou Litree Membrane Separation Technology Co ltd
Priority date: 2018-04-25
Filing date: 2018-04-25
Publication date: 2023-08-29
Anticipated expiration: 2038-04-25
Also published as: CN108371843A

Abstract

The invention relates to an integrated waterway board assembly and an integrated waterway system. The integrated waterway board assembly includes: the integrated waterway plate comprises at least two layers of waterway plates which are arranged in a layer-by-layer manner, wherein circular flow passages are formed in each layer of waterway plate, the circular flow passages of two adjacent layers of waterway plates are communicated, and the two adjacent layers of waterway plates are detachably and fixedly connected; and at least two filter element seats are fixedly connected to the integrated waterway plate, each filter element seat is internally provided with a water inlet hole and a water outlet hole corresponding to the water inlet hole, and the water inlet holes and the water outlet holes are communicated with the circular flow channel. According to the integrated waterway board assembly, the circular flow channels are positioned in each layer of waterway board, and the adjacent two layers of waterway boards are detachably and fixedly connected, so that the waterways can be disassembled, dirt deposited in the flow channels for a long time can be cleaned fully, the cleaning effect can be improved, and the integrated waterway board assembly is beneficial to application.

Description

Integrated waterway plate assembly and integrated waterway system

Technical Field

The invention relates to the technical field of water purifying equipment, in particular to an integrated waterway board assembly and an integrated waterway system.

Background

Along with the improvement of the living standard of people, the water purifier is increasingly widely applied in families. In general, a water purifier has a plurality of cartridges, and in order to simplify the connection between each cartridge and the associated waterway part in the water purifier, a waterway plate is generally provided in place of a connection line between each cartridge and the associated waterway part. Traditional integrated water route board subassembly includes water route board and filter core seat, and wherein, the water route board is an integer, after long-time use, accumulates the unable effective washing of dirt in the runner, can reduce water purification effect. Thus, the conventional integrated waterway board assembly is disadvantageous for application.

Disclosure of Invention

Accordingly, it is necessary to provide an integrated waterway board assembly and an integrated waterway system capable of improving the cleaning effect in order to solve the problem of how to improve the cleaning effect of the integrated waterway board assembly.

An integrated waterway plate assembly, comprising:

the integrated waterway board comprises at least two layers of waterway boards which are arranged in a layer-by-layer manner, wherein circular flow passages are formed in each layer of waterway boards, the circular flow passages of two adjacent layers of waterway boards are communicated, and the waterway boards of two adjacent layers are detachably and fixedly connected;

and at least two filter element seats are fixedly connected to the integrated waterway plate, each filter element seat is internally provided with a water inlet hole and a water outlet hole corresponding to the water inlet hole, and the water inlet holes and the water outlet holes are communicated with the circular flow channel.

According to the integrated waterway board assembly, the circular flow channels are positioned in each layer of waterway board, and the adjacent two layers of waterway boards are detachably and fixedly connected, so that the waterways can be disassembled, dirt deposited in the flow channels for a long time can be cleaned fully, the cleaning effect can be improved, and the integrated waterway board assembly is beneficial to application.

In one embodiment, the integrated waterway board comprises two layers of waterway boards, namely a first waterway board and a second waterway board;

the integrated waterway plate assembly comprises two filter element seats, namely a first-stage filter element seat and a reverse osmosis filter element seat; the first-stage filter core seat and the reverse osmosis filter core seat are symmetrically distributed on the first waterway plate and are positioned on the same side of the first waterway plate.

In one embodiment, a raw water channel water inlet hole, a raw water channel water outlet hole corresponding to the raw water channel water inlet hole, a coarse filtration water outlet hole corresponding to the coarse filtration water inlet hole, a first wastewater channel water outlet hole corresponding to the first wastewater channel water inlet hole, a second wastewater channel water inlet hole, and a second wastewater channel water outlet hole corresponding to the second wastewater channel water inlet hole are formed on the opposite surface of the first water channel plate far away from the first stage filter core seat;

the second wastewater waterway water outlet hole, the raw water waterway water inlet hole, the coarse filtration water inlet hole, the raw water waterway water outlet hole, the second wastewater waterway water inlet hole, the first wastewater waterway water outlet hole, the first wastewater waterway water inlet hole and the coarse filtration water outlet hole are communicated with the circular flow passage and are sequentially distributed along the direction from the primary filter element seat to the reverse osmosis filter element seat.

In one embodiment, a water inlet of the water inlet electromagnetic valve communicated with the circular runner and a water outlet of the water inlet electromagnetic valve corresponding to the water inlet of the water inlet electromagnetic valve are arranged on the side wall of the first waterway plate, and the water inlet of the water inlet electromagnetic valve and the water outlet of the water inlet electromagnetic valve are respectively connected with the water inlet electromagnetic valve;

the side wall of the first waterway plate is also provided with a wastewater electromagnetic valve water inlet communicated with the circular runner and a wastewater electromagnetic valve water outlet corresponding to the wastewater electromagnetic valve water inlet, and the wastewater electromagnetic valve water inlet and the wastewater electromagnetic valve water outlet are respectively connected with a wastewater electromagnetic valve;

the side wall of the first waterway plate is also provided with a pressure switch connecting port connected with a pressure switch;

the water inlet electromagnetic valve water inlet, the water inlet electromagnetic valve water outlet, the wastewater electromagnetic valve water inlet, the wastewater electromagnetic valve water outlet and the pressure switch connecting port are positioned on the same side of the first waterway plate, and the opening directions of the water inlet electromagnetic valve water inlet, the water outlet electromagnetic valve water inlet, the wastewater electromagnetic valve water outlet and the pressure switch connecting port form vertical included angles with the opening directions of the water inlet hole and the water outlet hole of the filter element seat.

In one embodiment, a filter element raw water inlet cavity and a filter element coarse filtration water outlet cavity are formed in the first-stage filter element seat;

a filter element raw water inlet hole is formed in the filter element raw water inlet cavity, and the filter element raw water inlet hole is communicated with the water outlet of the water inlet electromagnetic valve;

the filter element coarse filtration water outlet cavity is internally provided with a filter element coarse filtration water outlet hole, and the filter element coarse filtration water outlet hole is communicated with the coarse filtration water inlet hole.

In one embodiment, the side wall of the first waterway plate perpendicular to the plane where the water inlet of the water inlet electromagnetic valve is positioned is provided with a raw water inlet, a waste water outlet, a water inlet connector of a water pump, a water outlet connector of the water pump and a purified water outlet;

the raw water inlet and the wastewater outlet are arranged close to the first-stage filter core seat, and the water pump water inlet port, the water pump water outlet port and the purified water outlet port are arranged close to the reverse osmosis filter core seat.

In one embodiment, a filter element coarse filtration water inlet cavity, a filter element purified water outlet cavity and a filter element wastewater outlet cavity are arranged in the reverse osmosis filter element seat;

a filter element coarse filtration water inlet hole is formed in the filter element coarse filtration water inlet cavity, and the filter element coarse filtration water inlet hole is communicated with a water inlet interface of the water pump;

a filter element purified water outlet hole is formed in the filter element purified water outlet cavity and is communicated with a purified water outlet;

the filter element wastewater outlet cavity is internally provided with a filter element wastewater outlet hole, and the filter element wastewater outlet hole is communicated with the first wastewater waterway inlet hole.

In one embodiment, the at least two cartridge holders are integrally formed with the first waterway plate.

In one embodiment, the at least two cartridge seats are evenly distributed or symmetrically distributed on the same side of the integrated waterway plate.

An integrated waterway system is also provided, including the integrated waterway board assembly described above.

In the integrated waterway system, the circular flow channel of the integrated waterway plate assembly is positioned in each waterway plate, and the adjacent two waterway plates are detachably and fixedly connected, so that the waterway can be disassembled, dirt deposited in the flow channel for a long time can be cleaned fully, the cleaning effect can be improved, and the integrated waterway system is beneficial to application.

Drawings

FIG. 1 is a schematic view of an integrated waterway board assembly according to an embodiment of the present invention;

FIG. 2 is a schematic diagram illustrating the disassembly of an integrated waterway board assembly according to an embodiment of the present invention;

FIG. 3 is another exploded view of an integrated waterway board assembly according to an embodiment of the present invention;

fig. 4 is a cross-sectional view of an integrated waterway plate assembly in accordance with an embodiment of the present invention;

fig. 5 is a front view of an integrated waterway board assembly in accordance with an embodiment of the present invention;

fig. 6 is a bottom view of an integrated waterway board assembly in accordance with an embodiment of the present invention;

fig. 7 is a schematic perspective view of a first waterway board according to an embodiment of the present invention;

FIG. 8 is a schematic rear view of a first waterway board according to an embodiment of the present invention;

fig. 9 is a schematic perspective view of a second waterway board according to an embodiment of the present invention;

fig. 10 is a front view of a second waterway plate according to an embodiment of the present invention;

FIG. 11 is a top view of a second waterway plate of an embodiment of the present invention;

FIG. 12 is a rear view of a second waterway plate of an embodiment of the present invention;

fig. 13 is a cross-sectional view of a second waterway plate of an embodiment of the present invention.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The present invention may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the invention, whereby the invention is not limited to the specific embodiments disclosed below.

Referring to fig. 1 to 13, an integrated waterway board assembly 100 of an embodiment includes an integrated waterway board and at least two cartridge bases.

The integrated waterway board comprises at least two layers of waterway boards which are arranged in a layer-by-layer mode, round flow passages are formed in each layer of waterway board, the round flow passages of the two adjacent layers of waterway boards are communicated, and the two adjacent layers of waterway boards are detachably and fixedly connected.

Wherein, at least two filter core bases are fixedly connected on the integrated waterway plate, each filter core base is internally provided with a water inlet hole and a water outlet hole corresponding to the water inlet hole, and the water inlet holes and the water outlet holes are communicated with the circular flow channel.

Because the flow channel inside the integrated waterway plate is fully in circular design, the pressure bearing capacity of the flow channel can be greatly increased during water purification, the flow rate of water flow can be increased, and the vortex formed by the water flow in the flow channel can be reduced, so that the product is safer and more reliable to use.

On the basis of the foregoing embodiment, the integrated waterway board includes two waterway boards, namely, a first waterway board 1 and a second waterway board 2. The integrated waterway plate assembly 100 includes two cartridge seats, a primary cartridge seat 5 and a reverse osmosis cartridge seat 6, respectively. The first-stage filter core seat 5 and the reverse osmosis filter core seat 6 are symmetrically distributed on the first waterway plate 1 and are positioned on the same side of the first waterway plate 1.

Referring to fig. 2 and 4, the first waterway board 1 and the second waterway board 2 are fixed by a plurality of bolts 4 to form an integral waterway, and are connected in a sealing manner by a plurality of O-rings 31. Since the bolts 4 are detachable parts, the main body waterway plate 1 and the second waterway plate 2 are detachable and separated, so that detachment and cleaning can be performed. Meanwhile, because the circular runner is positioned in the main body waterway plate 1 or the second waterway plate 2, only the opening part is in sealing connection through the O-shaped sealing rings 31, the water leakage points are reduced, and water leakage is difficult.

Of course, the number of layers of the integrated waterway board is not limited to two, and may be three or more. That is, the waterway is disassembled and then is arranged in the three or more layers of detachable integrated waterway boards, which is favorable for fully cleaning dirt deposited in the runner for a long time. In addition, the first-stage filter core seat 5 and the reverse osmosis filter core seat 6 are symmetrically distributed, so that the integrated waterway plate assembly 100 is placed more stably, and the noise is lower in operation.

On the basis of the foregoing embodiment, the opposite surface of the first waterway plate 1 away from the primary filter cartridge seat 5 is provided with a raw water waterway inlet hole 171, a raw water waterway outlet hole 181 corresponding to the raw water waterway inlet hole 171, a rough water filter inlet hole 191, and a rough water filter outlet hole 201 corresponding to the rough water filter inlet hole 191, a first wastewater waterway inlet hole 211, and a first wastewater waterway outlet hole 221, a second wastewater waterway inlet hole 231, and a second wastewater waterway outlet hole 241 corresponding to the first wastewater waterway inlet hole 211.

Wherein, the second water outlet 241, the raw water inlet 171, the coarse filtration inlet 191, the raw water outlet 181, the second water inlet 231, the first water outlet 221, the first water inlet 211 and the coarse filtration outlet 201 are all communicated with the circular flow channel and are sequentially arranged along the direction from the first stage cartridge 5 to the reverse osmosis cartridge 6.

On the basis of the foregoing embodiment, the side wall of the first waterway board 1 is provided with a water inlet 9 of the water inlet electromagnetic valve communicated with the circular flow passage, and a water outlet 10 of the water inlet electromagnetic valve corresponding to the water inlet 9 of the water inlet electromagnetic valve. Wherein, the water inlet 9 of the water inlet electromagnetic valve and the water outlet 10 of the water inlet electromagnetic valve are respectively connected with the water inlet electromagnetic valve.

The side wall of the first waterway plate 1 is also provided with a waste water electromagnetic valve water inlet 13 communicated with the circular runner and a waste water electromagnetic valve water outlet 14 corresponding to the waste water electromagnetic valve water inlet 13. Wherein, the waste water electromagnetic valve water inlet 13 and the waste water electromagnetic valve water outlet 14 are respectively connected with a waste water electromagnetic valve (not shown).

The side wall of the first waterway plate 1 is also provided with a pressure switch connection port 8 connected with a pressure switch (not shown).

Wherein, the water inlet 9, the water outlet 10, the water inlet 13, the water outlet 14 and the pressure switch connection port 8 are located on the same side of the first waterway plate 1, and the opening directions of the water inlet and the water outlet of the filter element seat form vertical included angles. Wherein the filter core seat is a first-stage filter core seat 5 or a reverse osmosis filter core seat 6.

On the basis of the foregoing embodiment, a cartridge raw water inlet chamber 37 and a cartridge coarse filtration water outlet chamber 38 are formed in the primary cartridge seat 5.

Wherein, the filter element raw water inlet cavity 37 is provided with a filter element raw water inlet hole 32, and the filter element raw water inlet hole 32 is communicated with the water inlet electromagnetic valve water outlet 10.

Wherein, filter element coarse filtration water outlet hole 33 is arranged in filter element coarse filtration water outlet cavity 38, and filter element coarse filtration water outlet hole 33 is communicated with coarse filtration water inlet hole 191.

On the basis of the foregoing embodiment, the side wall of the first waterway board 1 perpendicular to the plane where the water inlet 9 of the water inlet solenoid valve is located is provided with a raw water inlet 7, a waste water outlet 15, a water pump water inlet 11, a water pump water outlet 12 and a purified water outlet 16.

Wherein, the raw water inlet 7 and the waste water outlet 15 are arranged close to the first-stage filter core seat 5, and the water pump inlet 11, the water pump outlet 12 and the purified water outlet 16 are arranged close to the reverse osmosis filter core seat 6.

On the basis of the foregoing embodiment, the reverse osmosis cartridge seat 5 is provided therein with a cartridge coarse filtration water inlet chamber 39, a cartridge purified water outlet chamber 40 and a cartridge waste water outlet chamber 41.

Wherein, the filter element coarse filtration water inlet cavity 39 is provided with a filter element coarse filtration water inlet hole 34, and the filter element coarse filtration water inlet hole 34 is communicated with the water pump water inlet interface 11.

Wherein, the filter element purified water outlet cavity 40 is provided with a filter element purified water outlet hole 35, and the filter element purified water outlet hole 35 is communicated with the purified water outlet 16.

Wherein, the filter element wastewater outlet cavity 41 is provided with a filter element wastewater outlet hole 36, and the filter element wastewater outlet hole 36 is communicated with the first wastewater waterway water inlet hole 211.

On the basis of the foregoing embodiment, at least two cartridge holders are integrally formed with the first waterway plate 1. This is advantageous in reducing the water leakage ports and thus reducing the risk of water leakage.

On the basis of the foregoing embodiment, the side wall of the second waterway board 2 is provided with a second waterway board water blocking hole 301, and the second waterway board 2 further includes a runner plug 3 for sealing the second waterway board water blocking hole 301. The runner plug 3 is in sealing connection with the second waterway plate 2 by adopting ultrasonic, hot plate welding, glue and other processes.

On the basis of the foregoing embodiments, at least two filter element seats are evenly distributed or symmetrically distributed on the same side of the integrated waterway board. The integrated waterway board assembly 100 is more stable to be placed, and the noise is lower during operation.

Referring to fig. 2 to 4, 12 and 13, in the integrated waterway board assembly of the present invention, the first waterway board 1 and the second waterway board 2 are fixedly connected to each other to form a whole by a plurality of bolts 4 through the main body waterway board bolt positioning holes 26 and the second waterway board bolt positioning holes 25. The first waterway plate 1 and the second waterway plate 2 are respectively provided with a plurality of circular waterway channels. The first waterway board 1 and the second waterway board 2 are fixedly connected and then are closed to form a complete runner system. The specific connection mode is as follows:

the raw water channel water inlet hole 171 on the first water channel plate 1 is hermetically connected with the raw water channel water inlet connection port 17 on the second water channel plate 2 through the O-ring 31. The raw water channel water outlet hole 181 on the first water channel plate 1 is in sealing connection with the raw water channel water outlet connection port 18 on the second water channel plate 2 through an O-shaped sealing ring 31. The rough filtered water inlet 191 of the first waterway plate 1 is connected with the rough filtered water inlet connecting port 19 of the second waterway plate 2 in a sealing way through an O-shaped sealing ring 31. The rough filtered water outlet 201 on the first waterway plate 1 is connected with the rough filtered water outlet connection port 20 on the second waterway plate 2 in a sealing way through an O-shaped sealing ring 31. The first wastewater waterway water inlet hole 211 on the first waterway plate 1 is in sealing connection with the first wastewater waterway water inlet connection port 21 on the second waterway plate 2 through an O-shaped sealing ring 31. The first wastewater waterway water outlet 221 on the first waterway plate 1 is in sealing connection with the first wastewater waterway water outlet connection port 22 on the second waterway plate 2 through an O-shaped sealing ring 31. The second wastewater waterway water inlet 231 on the first waterway plate 1 is in sealing connection with the second wastewater waterway water inlet connection port 23 on the second waterway plate 2 through an O-shaped sealing ring 31. The second wastewater waterway water outlet 241 on the first waterway plate 1 is in sealing connection with the second wastewater waterway water outlet connection port 24 on the second waterway plate 2 through an O-shaped sealing ring 31. The second waterway plate water shutoff hole 301 on the second waterway plate 2 is connected with the runner plug 3 through ultrasonic sealing.

The water inlet of the water inlet electromagnetic valve is connected with the water inlet 9 of the water inlet electromagnetic valve on the first waterway plate 1, the water outlet of the water inlet electromagnetic valve is connected with the water outlet 10 of the water inlet electromagnetic valve on the first waterway plate 1, the water inlet of the waste water electromagnetic valve is connected with the water inlet 13 of the waste water electromagnetic valve on the first waterway plate 1, the water outlet of the waste water electromagnetic valve is connected with the water outlet 14 of the waste water electromagnetic valve on the first waterway plate 1, and the interface of the pressure switch is connected with the pressure switch connection port 8 on the first waterway plate 1. The water inlet of the water pump is connected with the water outlet 12 of the water pump on the first waterway board 1, and the water outlet of the water pump is connected with the water inlet 11 of the water pump on the first waterway board 1.

Referring to fig. 1 to 13 together, the water path principle of the integrated water path board assembly of the present invention in specific use is as follows:

the components of the water purifying device are arranged on the integrated waterway plate assembly, raw water enters from the raw water inlet 7, the water pressure is controlled by a pressure switch on the communicated pressure switch connection port 8, then the raw water flows into the raw water waterway water inlet connection port 17 on the second waterway plate 2 through the raw water waterway water inlet 171, and flows back to the raw water waterway water outlet 181 on the first waterway plate 1 from the raw water waterway water outlet connection port 18 after passing through the raw water waterway 27 of the second waterway plate.

Then flows into the water inlet electromagnetic valve through the water inlet electromagnetic valve water inlet 9 communicated with the water inlet electromagnetic valve, flows into the filter element raw water inlet hole 32 from the water inlet electromagnetic valve water outlet 10 after passing through the water inlet electromagnetic valve, and flows into the filter element raw water inlet cavity 37, and flows into the rough filtering water outlet hole 201 on the first waterway plate 1 from the rough filtering water outlet connection port 20 through the filter element rough filtering water outlet hole 33 and the rough filtering water inlet hole 191 communicated with the filter element rough filtering water outlet cavity 38 after being filtered through the rough filtering filter element connected with the water inlet electromagnetic valve water inlet hole, and flows into the rough filtering water inlet connection port 19 on the second waterway plate 2 through the rough filtering water waterway 29.

Then flows into the water pump through the water outlet interface 12 of the water pump which is communicated, is pressurized and then flows back into the water pump inlet interface 11. And then flows into the filter element rough filtration water inlet cavity 39 through the filter element rough filtration water inlet hole 34 connected with the filter element rough filtration water inlet cavity, after being purified through the connected reverse osmosis filter element, the purified water flows out from the purified water outlet 16 through the filter element purified water outlet cavity 40 and the communicated filter element purified water outlet hole 35. And the wastewater purified by the reverse osmosis filter core flows into the first wastewater waterway water inlet 211 through the filter core wastewater outlet cavity 41 and the filter core wastewater outlet hole 36 communicated with the same. Then the waste water flows into the water connection port 21 through the first waste water channel on the second water channel plate 2 connected with the waste water connection port, flows back to the first waste water channel water outlet hole 221 on the first water channel plate 1 through the first waste water channel water outlet connection port 22 after passing through the first waste water channel 28 of the second water channel plate.

The waste water flows into the waste water electromagnetic valve through the waste water electromagnetic valve water inlet 13 communicated with the waste water electromagnetic valve, and flows back to the waste water electromagnetic valve water outlet 14 through the waste water electromagnetic valve. Through the second water channel water inlet 231 communicated with the water inlet, the water flows into the second water channel plate second water channel through the second water channel water inlet connection port 23 on the second water channel plate 2. And then flows back to the second wastewater waterway water outlet 241 on the first waterway plate 1 through the second wastewater waterway water outlet connection port 24. Finally discharged through a waste water outlet 15 communicated with the waste water outlet.

In addition, the integrated waterway plate assembly has the advantages of simple and reasonable structure, small volume, convenient installation, convenient disassembly and cleaning, high pressure resistance and few water leakage points, and can overcome the defects that waterway channels cannot be cleaned, waterways are not concentrated, waterway strength is not high and the like.

The invention also provides an integrated waterway system comprising the integrated waterway board assembly.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims

1. An integrated waterway board assembly, comprising:

the filter element seats are fixedly connected to the integrated waterway plate, water inlets and water outlets corresponding to the water inlets are formed in each filter element seat, and the water inlets and the water outlets are communicated with the circular flow channels;

the integrated waterway plate comprises two layers of waterway plates, namely a first waterway plate and a second waterway plate;

the integrated waterway plate assembly comprises two filter element seats, namely a first-stage filter element seat and a reverse osmosis filter element seat; the first-stage filter core seat and the reverse osmosis filter core seat are symmetrically distributed on the first waterway plate and are positioned on the same side of the first waterway plate;

a raw water waterway water inlet hole, a raw water waterway water outlet hole corresponding to the raw water waterway water inlet hole, a coarse filtration water outlet hole corresponding to the coarse filtration water inlet hole, a first wastewater waterway water outlet hole corresponding to the first wastewater waterway water inlet hole, a second wastewater waterway water inlet hole and a second wastewater waterway water outlet hole corresponding to the second wastewater waterway water inlet hole are arranged on the opposite surface of the first waterway plate far away from the first stage filter core seat;

the second wastewater waterway water outlet hole, the raw water waterway water inlet hole, the coarse filtration water inlet hole, the raw water waterway water outlet hole, the second wastewater waterway water inlet hole, the first wastewater waterway water outlet hole, the first wastewater waterway water inlet hole and the coarse filtration water outlet hole are communicated with the circular flow channel and are sequentially distributed along the direction from the primary filter element seat to the reverse osmosis filter element seat;

the side wall of the second waterway plate is provided with a second waterway plate water shutoff hole, and the second waterway plate further comprises a runner plug for sealing the second waterway plate water shutoff hole.

2. The integrated waterway board assembly of claim 1, wherein a water inlet of the water inlet solenoid valve communicated with the circular runner and a water outlet of the water inlet solenoid valve corresponding to the water inlet of the water inlet solenoid valve are arranged on the side wall of the first waterway board, and the water inlet of the water inlet solenoid valve and the water outlet of the water inlet solenoid valve are respectively connected with the water inlet solenoid valve;

3. The integrated waterway plate assembly of claim 2, wherein a cartridge raw water inlet cavity and a cartridge coarse water outlet cavity are formed in the primary cartridge seat;

4. The integrated waterway board assembly of claim 1, wherein a raw water inlet, a waste water outlet, a water pump water inlet port, a water pump water outlet port and a purified water outlet port are arranged on a side wall of the first waterway board perpendicular to a plane where the water inlet valve water inlet is arranged;

5. The integrated waterway plate assembly of claim 4, wherein a cartridge coarse water inlet cavity, a cartridge purified water outlet cavity, and a cartridge wastewater outlet cavity are provided in the reverse osmosis cartridge seat;

6. The integrated waterway plate assembly of claim 1, wherein the at least two cartridge seats are integrally formed with the first waterway plate.

7. The integrated waterway plate assembly of claim 1, wherein the at least two cartridge seats are evenly distributed or symmetrically distributed on a same side of the integrated waterway plate.

8. An integrated waterway system comprising the integrated waterway board assembly of any of claims 1-7.