CN214383726U - Two integrated water route boards of play water and purifier - Google Patents

Abstract

The utility model provides a two integrated water route boards of play and purifier, include the upper plate body and be located the lower plate body of upper plate body below, the upper plate body with the lower plate body is laminated each other and is formed with a plurality of water route runners, be provided with on the water route runner and supply the pipeline to insert the back intercommunication a plurality of connectors of water route runner, part the connector is provided with first filter core, the lower surface of lower plate body is provided with the input port, supplies the first delivery outlet of domestic water output and the second delivery outlet that supplies pure water output, the second delivery outlet with one of them between the input port be provided with the more excellent second filter core of filter effect on the water route runner, the running water is followed a plurality of input flow is passed through behind the water route runner from first delivery outlet, one of them of second delivery outlet or export jointly. The utility model discloses possess the two play water functions of domestic water and pure water, reduce the filter core cost to the suitability is better.

Description

Two integrated water route boards of play water and purifier

Technical Field

The utility model belongs to the technical field of the purifier, concretely relates to two integrated water route boards of going out and purifier.

Background

Along with the improvement of people's standard of living, the purifier enters into people's daily life as a domestic appliance commonly used, need connect through waterway system between the inside filter core of purifier and each spare part of wading, in prior art, adopt PE pipe to connect each part usually, but this kind of connected mode can make the inside pipeline of purifier become complicated, and easily leak, and bulky, the equipment is inconvenient with the dismantlement, in addition, the purifier of singly going out water only has a delivery port, can increase the RO filter core loss when using live water, the filter core purchase cost is higher.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the shortcoming and not enough among the prior art, provide a two integrated water route boards of play and purifier, possess the two play water functions of domestic water and pure water, reduce the filter core cost to the suitability is better.

The utility model provides a technical scheme that its technical problem adopted is:

the water channel structure comprises an upper plate body and a lower plate body positioned below the upper plate body, wherein the upper plate body and the lower plate body are mutually attached to form a plurality of water channel flow channels;

the waterway flow passage is provided with a plurality of connectors for connecting the waterway flow passage after a pipeline is connected, and part of the connectors are provided with first filter elements;

the lower surface of the lower plate body is provided with an input port, a first output port for outputting domestic water and a second output port for outputting purified water, the second output port is connected with one of the input ports, a second filter element with a better filtering effect is arranged on the waterway channel, and tap water flows into the input port and flows through the waterway channel and then flows out of the first output port and the second output port or is output together.

Preferably, the plurality of waterway channels comprise a first channel and a second channel, the first channel is communicated with the input port and the first output port, and the second channel is communicated with the input port and the second output port;

the upper plate body is provided with a plurality of detection pieces for detecting water flow information, and the working ends of the detection pieces are inserted into the second flow channel.

Preferably, the second flow channel comprises a tap water flow channel and a purified water flow channel which are communicated, and tap water flows through the input port, the tap water flow channel, the purified water flow channel and the second output port in sequence;

the lower surface of lower plate body still is provided with the third delivery outlet that supplies waste water output, the water route runner still includes the third runner, the third runner with running water runner, third delivery outlet are linked together.

Preferably, the detection part comprises a first water quality detector, a second water quality detector and a temperature sensor;

the first water quality detector and the temperature sensor are arranged on the tap water flow channel, and the second water quality detector is arranged on the purified water flow channel.

Preferably, the waterway channel further comprises a detection channel, and a flowmeter for detecting water use information is arranged on the detection channel;

the head end of the detection flow channel and the purified water flow channel are detachably provided with a first blocking piece, and the tail end of the detection flow channel is communicated with the second output port.

Preferably, the waterway channel further comprises an adjusting channel, and a waste water valve for adjusting the waste water ratio is arranged on the adjusting channel;

and a second blocking piece is detachably arranged between the head end of the adjusting flow channel and the third flow channel, and the tail end of the adjusting flow channel is communicated with the third output port.

Preferably, the detection flow channel and the adjustment flow channel are detachably provided with plugging pieces.

Preferably, the second filter element is configured as an RO filter element.

Compared with the prior art, the beneficial effects of the utility model are that:

in the scheme, a plurality of water path channels are formed after the upper plate body and the lower plate body are mutually attached, a plurality of connecting ports for communicating the water path channels are arranged on the upper surface of the upper plate body, filter elements are arranged on part of the connecting ports, an input port, a first output port, a second output port and a third output port are arranged on the lower surface of the lower plate body, an RO filter element with better filtering effect is arranged on one of the water path channels between the second output port and the input port, the use cost of the filter element is reduced, tap water is input into the input port, tap water passes through the water path channels and is filtered, live water can be output from the first output port or purified water can be output from the second output port according to the requirements of a user, the domestic water and the purified water can be output, and meanwhile, waste water can be discharged from the third output port, the application range of the product is widened by the double water outlet function, and the water circuit board can meet the configuration requirement of multiple products and realize the integration of multiple modules.

It is understood that within the scope of the present invention, the above-mentioned technical features of the present invention and those specifically described below (e.g. in the examples) can be combined with each other to constitute new or preferred technical solutions. Not to be reiterated herein, but to the extent of space.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Fig. 1 is an exploded schematic view of the present invention.

Fig. 2 is a schematic top view of the present invention.

Fig. 3 is a schematic view of the bottom view structure of the present invention.

Fig. 4 is a schematic view of the waterway flow passage of the present invention.

Wherein:

1-upper plate, 101-first filter element water outlet, 102-third filter element water inlet, 103-third filter element water outlet, 104-first filter element water inlet, 105-second detector mounting hole, 106-high-voltage switch mounting hole, 107-flowmeter mounting hole, 1071-flowmeter water inlet, 1072-flowmeter water outlet, 108-water inlet valve mounting hole, 1081-water inlet valve water inlet, 1082-water inlet valve water outlet, 109-temperature sensor mounting hole, 1010-first detector mounting hole, 1011-booster pump mounting hole, 10111-booster pump water inlet, 10112-booster pump water outlet, 1012-waste water valve mounting hole; 10121-a waste water valve inlet, 10122-a waste water valve outlet, 1013-a second filter element inlet, 1014-a second filter element first outlet, 1015-a second filter element second outlet;

2-lower plate body, 201-input port, 202-second output port, 203-third output port, 204-first output port;

3-a first barrier;

4-second barrier.

Detailed Description

In order to make the above objects, features and advantages of the present invention more clearly understood, the present invention will be described in detail with reference to the accompanying drawings and detailed description. In addition, the embodiments and features of the embodiments of the present application may be combined with each other without conflict. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, and the described embodiments are merely some embodiments, rather than all embodiments, of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work all belong to the protection scope of the present invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

As shown in fig. 1 to 4, the embodiment discloses a dual-outlet integrated water circuit board, which includes an upper board body 1 and a lower board body 2 located below the upper board body 1, wherein a plurality of water channel channels are formed after the opposite surfaces of the upper board body 1 and the lower board body 2 are attached, the water channel channels are provided with a plurality of connectors for connecting pipelines and then communicating the water channel channels, part of the connectors are provided with first filter elements, the first filter elements are arranged on the connectors through which the living water flows, so as to complete the preliminary filtration of the tap water, so that the filtered water quality meets the requirement of the living water, the lower surface of the lower board body 2 is provided with an inlet 201, a first outlet 204 for outputting the living water, a second outlet 202 for outputting the purified water and a third outlet 203 for outputting the waste water, one of the water channel channels between the second outlet 202 and the inlet 201 is provided with a second filter element with a better filtering effect, the second filter core sets up to the RO filter core, can accomplish the further filtration to the domestic water, makes the quality of water after the filtration satisfy the pure water requirement, has avoided the water route board of singly going out water no matter export pure water or domestic water all needs the filtration of RO filter core to make the problem of the loss increase of RO filter core, the use cost of reducible RO filter core. Tap water flows through a plurality of waterway channels from the input port 201, then fresh water flows from the first output port 204 or purified water flows from the second output port 202, and filtered waste water (concentrated water) flows from the third output port 203. Certainly, the double-water-outlet function of simultaneously outputting the domestic water and the purified water can be met, and the applicability is better. The double-water-outlet integrated water circuit board in the embodiment can meet the configuration requirements of multiple products, and the integration of multiple modules is realized.

Preferably, in this embodiment, the plurality of waterway runners include a first runner, a second runner and a third runner, the first runner is communicated with the input port 201 and the first output port 204, and tap water is input from the input port 201, flows through the first runner, and then is output from the first output port 204. The second flow channel is communicated with the input port 201 and the second output port 202, and tap water is input from the input port 201, flows through the second flow channel and then is output from the second output port 202 to be purified. The upper plate body 1 is provided with a first water quality detector, a second water quality detector and a temperature sensor which are used for detecting water flow information, and the working ends of the first water quality detector, the second water quality detector and the temperature sensor are inserted into the second flow channel. The second flow channel comprises a tap water flow channel and a purified water flow channel which are communicated, tap water flows through the input port 201, the tap water flow channel and the purified water flow channel in sequence, and finally purified water is output from the second output port 202. The third flow channel is communicated with the tap water flow channel and the third output port 203, and the wastewater filtered from the tap water flow channel flows through the third flow channel and is then output from the third output port 203. The first water quality detector and the temperature sensor are arranged on the tap water flow channel and used for detecting the water quality condition in the flow channel. The second water quality detector is arranged on the purified water flow channel and used for detecting the water quality condition of the purified water on the flow channel. The second runner is provided with a detachable first blocking part 3, and the third runner is provided with a detachable second blocking part 4.

Specifically, in this embodiment, the life water mode: tap water is input from the input port 201, then flows through the first filter element water inlet 104 and the first filter element water outlet 101 of the first flow channel in sequence, is filtered by the first filter element, and finally is output from the first output port 204.

Pure water mode (detaching first barrier 3, second barrier 4): tap water is input from the input port 201 and then flows through the tap water flow passage of the second flow passage: a first filter element water inlet 104, a first filter element water outlet 101, a booster pump water inlet 10111, a booster pump water outlet 10112, a water inlet valve water inlet 1081, a water inlet valve water outlet 1082 and a second filter element water inlet 1013, and then flows through a purified water flow channel: the first water outlet 1014 of the second filter element, the water inlet 102 of the third filter element, the water outlet 103 of the third filter element, and finally the purified water is output from the second output port 202, the second filter element is an RO filter element, and the first filter element and the third filter element are common filter elements, so that the use cost of the filter elements is reduced. And a temperature sensor (NTC thermistor) and a first water quality detector (TDS measuring instrument) are arranged on a flow channel between the water inlet valve water outlet 1082 and the second filter element water inlet 1013 to detect the water quality in a tap water flow channel section, and a high-voltage switch (for preventing the booster pump from fully rotating) and a second water quality detector (TDS measuring instrument) are arranged on a flow channel between the first water outlet 1014 of the second filter element and the third filter element water inlet 102 to further detect the water quality condition in the purified water flow channel.

Meanwhile, the filtered wastewater flows through the second outlet of the third filter element of the third flow channel from the third filter element inlet 102 at the tail end of the tap water flow channel, and finally the wastewater (concentrated water) is output from the third output port 203.

Preferably, in this embodiment, the waterway channel further includes a detection channel and an adjustment channel, and both the detection channel and the adjustment channel are detachably provided with a blocking piece (not shown in the figure). The detection flow channel is provided with a flow meter for detecting water use information, the first blocking part 3 is arranged between the head end of the detection flow channel and the purified water flow channel, and the tail end of the detection flow channel is communicated with the second output port 202. A waste water valve for adjusting the waste water ratio is arranged on the adjusting flow channel, the second blocking piece 4 is arranged between the head end of the adjusting flow channel and the third flow channel, and the tail end of the adjusting flow channel is communicated with the third output port 203. When the detection flow passage and the adjustment flow passage are not used, the blocking piece is used for blocking the detection flow passage and the adjustment flow passage, and the first blocking piece 3 and the second blocking piece 4 are detached; when the detection flow passage and the adjustment flow passage are used, the plugging piece is detached and the first blocking piece 3 and the second blocking piece 4 are installed.

In the specific embodiment, the purified water mode further comprises a detection flow channel for detecting the water flow and an adjustment flow channel for adjusting the wastewater ratio, the first barrier piece 3 and the second barrier piece 4 are assembled, the flowmeter water inlet 1071, the flowmeter water outlet 1072, the wastewater valve water inlet 10121 and the wastewater valve water outlet 10122 are opened, purified water in the purified water flow channel sequentially flows through the flowmeter water inlet 1071, the flowmeter water outlet 1072, the third filter element water inlet 102 and the third filter element water outlet 103 from the first second filter element water outlet 1014, and finally purified water is output from the second output port 202. The wastewater flows through the wastewater valve inlet 10121 and the wastewater valve outlet 10122 in sequence from the second filter element second water outlet 1015, and finally the wastewater (concentrated water) is output from the third output port 203.

In this embodiment, a plurality of corresponding water inlets and water outlets in the waterway channel are communicated by arranging each function component and a pipeline (not shown in the figure) at corresponding positions on the upper surface of the upper plate body 1, wherein the first filter core water inlet 104 is connected with the first filter core water inlet 104, the third filter core water inlet 102 is connected with the third filter core water outlet 103, the second filter core water inlet 1013 is connected with the second filter core first water outlet 1014, and the second filter core water inlet 1013 is connected with the second filter core second water outlet 1015 through pipelines, a flowmeter is arranged at the flowmeter mounting hole 107 to communicate the flowmeter water inlet 1071 with the flowmeter water outlet 1072, a water inlet valve is arranged at the water inlet valve mounting hole 108 to communicate the water inlet 1081 with the water outlet 1082 of the water inlet valve, a booster pump is arranged at the booster pump mounting hole 1011 to communicate the water inlets 10111 and the water outlet 10112 of the booster pump, and a waste water valve is arranged at the waste valve mounting hole to communicate the waste valve water inlet 10121 of the waste valve, The water outlet 10122 of the waste water valve is communicated. A first detector is installed at the first detector installation hole 1010, a second detector is installed at the second detector installation hole 105, a high-voltage switch is installed at the high-voltage switch installation hole 106, and a temperature sensor is installed at the temperature sensor installation hole 109.

Example 2

The embodiment discloses a water purifier provided with a double-outlet integrated water channel plate, which is shown in figures 1-4 and comprises an upper plate body 1 and a lower plate body 2 positioned below the upper plate body 1, wherein the upper plate body 1 and the lower plate body 2 are connected with each other, a plurality of water channel channels are formed after the opposite surfaces of the upper plate body 1 and the lower plate body 2 are attached, a plurality of connecting ports for connecting pipelines into the water channel channels are arranged on the water channel channels, part of the connecting ports are provided with first filter cores, the first filter cores are arranged on the connecting ports through which live water flows, and can finish primary filtration of tap water, so that the filtered water quality meets the requirement of domestic water, the lower surface of the lower plate body 2 is provided with an inlet 201, a first outlet 204 for outputting the domestic water, a second outlet 202 for outputting purified water and a third outlet 203 for outputting wastewater, one of the second outlet 202 and the inlet 201 is provided with a second filter core with a better filtering effect on the water channel, the second filter core sets up to the RO filter core, can accomplish the further filtration to the domestic water, makes the quality of water after the filtration satisfy the pure water requirement, has avoided the water route board of singly going out water no matter export pure water or domestic water all needs the filtration of RO filter core to make the problem of the loss increase of RO filter core, the use cost of reducible RO filter core. Tap water flows through a plurality of waterway channels from the input port 201, then fresh water flows from the first output port 204 or purified water flows from the second output port 202, and filtered waste water (concentrated water) flows from the third output port 203. Certainly, the double-water-outlet function of simultaneously outputting the domestic water and the purified water can be met, and the applicability is better.

Preferably, in this embodiment, the plurality of waterway runners include a first runner, a second runner and a third runner, the first runner is communicated with the input port 201 and the first output port 204, and tap water is input from the input port 201, flows through the first runner, and then is output from the first output port 204. The second flow channel is communicated with the input port 201 and the second output port 202, and tap water is input from the input port 201, flows through the second flow channel and then is output from the second output port 202 to be purified. The upper plate body 1 is provided with a first water quality detector, a second water quality detector and a temperature sensor which are used for detecting water flow information, and the working ends of the first water quality detector, the second water quality detector and the temperature sensor are inserted into the second flow channel. The second flow channel comprises a tap water flow channel and a purified water flow channel which are communicated, tap water flows through the input port 201, the tap water flow channel and the purified water flow channel in sequence, and finally purified water is output from the second output port 202. The third flow channel is communicated with the tap water flow channel and the third output port 203, and the wastewater filtered from the tap water flow channel flows through the third flow channel and is then output from the third output port 203. The first water quality detector and the temperature sensor are arranged on the tap water flow channel and used for detecting the water quality condition in the flow channel. The second water quality detector is arranged on the purified water flow channel and used for detecting the water quality condition of the purified water on the flow channel. The second runner is provided with a detachable first blocking part 3, and the third runner is provided with a detachable second blocking part 4.

Specifically, in this embodiment, the life water mode: tap water is input from the input port 201, then flows through the first filter element water inlet 104 and the first filter element water outlet 101 of the first flow channel in sequence, is filtered by the first filter element, and finally is output from the first output port 204.

Pure water mode (detaching first barrier 3, second barrier 4): tap water is input from the input port 201 and then flows through the tap water flow passage of the second flow passage: a first filter element water inlet 104, a first filter element water outlet 101, a booster pump water inlet 10111, a booster pump water outlet 10112, a water inlet valve water inlet 1081, a water inlet valve water outlet 1082 and a second filter element water inlet 1013, and then flows through a purified water flow channel: the first water outlet 1014 of the second filter element, the water inlet 102 of the third filter element, the water outlet 103 of the third filter element, and finally the purified water is output from the second output port 202, the second filter element is an RO filter element, and the first filter element and the third filter element are common filter elements, so that the use cost of the filter elements is reduced. And a temperature sensor (NTC thermistor) and a first water quality detector (TDS measuring instrument) are arranged on a flow channel between the water inlet valve water outlet 1082 and the second filter element water inlet 1013 to detect the water quality in a tap water flow channel section, and a high-voltage switch (for preventing the booster pump from fully rotating) and a second water quality detector (TDS measuring instrument) are arranged on a flow channel between the first water outlet 1014 of the second filter element and the third filter element water inlet 102 to further detect the water quality condition in the purified water flow channel.

Meanwhile, the filtered wastewater flows through the second outlet of the third filter element of the third flow channel from the third filter element inlet 102 at the tail end of the tap water flow channel, and finally the wastewater (concentrated water) is output from the third output port 203.

Preferably, in this embodiment, the waterway channel further includes a detection channel and an adjustment channel, and both the detection channel and the adjustment channel are detachably provided with a blocking piece (not shown in the figure). The detection flow channel is provided with a flow meter for detecting water use information, the first blocking part 3 is arranged between the head end of the detection flow channel and the purified water flow channel, and the tail end of the detection flow channel is communicated with the second output port 202. A waste water valve for adjusting the waste water ratio is arranged on the adjusting flow channel, the second blocking piece 4 is arranged between the head end of the adjusting flow channel and the third flow channel, and the tail end of the adjusting flow channel is communicated with the third output port 203. When the detection flow passage and the adjustment flow passage are not used, the blocking piece is used for blocking the detection flow passage and the adjustment flow passage, and the first blocking piece 3 and the second blocking piece 4 are detached; when the detection flow passage and the adjustment flow passage are used, the plugging piece is detached and the first blocking piece 3 and the second blocking piece 4 are installed.

In the specific embodiment, the purified water mode further comprises a detection flow channel for detecting the water flow and an adjustment flow channel for adjusting the wastewater ratio, the first barrier piece 3 and the second barrier piece 4 are assembled, the flowmeter water inlet 1071, the flowmeter water outlet 1072, the wastewater valve water inlet 10121 and the wastewater valve water outlet 10122 are opened, purified water in the purified water flow channel sequentially flows through the flowmeter water inlet 1071, the flowmeter water outlet 1072, the third filter element water inlet 102 and the third filter element water outlet 103 from the first second filter element water outlet 1014, and finally purified water is output from the second output port 202. The wastewater flows through the wastewater valve inlet 10121 and the wastewater valve outlet 10122 in sequence from the second filter element second water outlet 1015, and finally the wastewater (concentrated water) is output from the third output port 203.

In this embodiment, a plurality of corresponding water inlets and water outlets in the waterway channel are communicated by arranging each function component and a pipeline (not shown in the figure) at corresponding positions on the upper surface of the upper plate body 1, wherein the first filter core water inlet 104 is connected with the first filter core water inlet 104, the third filter core water inlet 102 is connected with the third filter core water outlet 103, the second filter core water inlet 1013 is connected with the second filter core first water outlet 1014, and the second filter core water inlet 1013 is connected with the second filter core second water outlet 1015 through pipelines, a flowmeter is arranged at the flowmeter mounting hole 107 to communicate the flowmeter water inlet 1071 with the flowmeter water outlet 1072, a water inlet valve is arranged at the water inlet valve mounting hole 108 to communicate the water inlet 1081 with the water outlet 1082 of the water inlet valve, a booster pump is arranged at the booster pump mounting hole 1011 to communicate the water inlets 10111 and the water outlet 10112 of the booster pump, and a waste water valve is arranged at the waste valve mounting hole to communicate the waste valve water inlet 10121 of the waste valve, The water outlet 10122 of the waste water valve is communicated. A first detector is installed at the first detector installation hole 1010, a second detector is installed at the second detector installation hole 105, a high-voltage switch is installed at the high-voltage switch installation hole 106, and a temperature sensor is installed at the temperature sensor installation hole 109.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, so that any modification, equivalent change and modification made by the technical spirit of the present invention to the above embodiments do not depart from the technical solution of the present invention, and still fall within the scope of the technical solution of the present invention.

Claims (8)

1. The double-water-outlet integrated water circuit board is characterized by comprising an upper board body and a lower board body positioned below the upper board body, wherein the upper board body and the lower board body are mutually attached to form a plurality of water channel channels;

the waterway flow passage is provided with a plurality of connectors for connecting the waterway flow passage after a pipeline is connected, and part of the connectors are provided with first filter elements;

an input port, a first output port for outputting domestic water and a second output port for outputting purified water are arranged on the lower surface of the lower plate body, a second filter element with better filtering effect is arranged on one waterway channel between the second output port and the input port, and tap water is input from the input port, flows through a plurality of waterway channels and is output from one or both of the first output port and the second output port;

the plurality of waterway runners comprise a first runner and a second runner, the first runner is communicated with the input port and the first output port, and the second runner is communicated with the input port and the second output port;

the upper plate body is provided with a plurality of detection pieces for detecting water flow information, and the working ends of the detection pieces are inserted into the second flow channel.

2. The integrated circuit board of claim 1, wherein the second flow channel comprises a tap water flow channel and a purified water flow channel which are communicated with each other, and tap water flows through the input port, the tap water flow channel, the purified water flow channel and the second output port in sequence;

the lower surface of lower plate body still is provided with the third delivery outlet that supplies waste water output, the water route runner still includes the third runner, the third runner with running water runner, third delivery outlet are linked together.

3. The integrated circuit board of claim 2, wherein the detecting member comprises a first water quality detector, a second water quality detector and a temperature sensor;

the first water quality detector and the temperature sensor are arranged on the tap water flow channel, and the second water quality detector is arranged on the purified water flow channel.

4. The integrated circuit board of claim 2, wherein the waterway channel further comprises a detection channel, and a flow meter for detecting water information is disposed on the detection channel;

the head end of the detection flow channel and the purified water flow channel are detachably provided with a first blocking piece, and the tail end of the detection flow channel is communicated with the second output port.

5. The dual-outlet integrated circuit board of claim 4, wherein the waterway channels further comprise an adjusting channel, and a waste valve for adjusting the waste ratio is disposed on the adjusting channel;

and a second blocking piece is detachably arranged between the head end of the adjusting flow channel and the third flow channel, and the tail end of the adjusting flow channel is communicated with the third output port.

6. The integrated circuit board of claim 5, wherein the detection channel and the adjustment channel are detachably provided with plugs.

7. The dual outlet integrated circuit board of claim 1, wherein the second filter element is configured as an RO filter element.

8. A water purification machine, characterized in that a double-outlet integrated water circuit board according to any one of claims 1-7 is provided.

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