CN115341626A - Integrated water tank - Google Patents

Abstract

The invention discloses an integrated water tank, which comprises a cabinet body (1) with a table board (11) at the top, a water tank (2) with a main body arranged below the table board (11), a cleaning machine (5) arranged in the cabinet body (1) and an electrolyzed water generating device (7), and is characterized in that: the cleaning machine (5) is positioned right below the water tank (2), and the electrolyzed water generating device (7) is positioned at one side of the cleaning machine (5). Compared with the prior art, the integrated water tank disclosed by the invention can reasonably utilize the kitchen space.

Description

Integrated water tank

Technical Field

The invention relates to the technical field of kitchen equipment, in particular to an integrated water tank.

Background

Current integrated sinks integrate a variety of products that are spatially or functionally associated with the sink, including cleaning machines, water purifiers, kitchen waste disposers, kitchen utensil sanitizers, electrolyzed water generating devices, and the like.

For example, a utility model patent of multifunctional intelligent integrated sink with patent application number CN201721005040.0 (publication number CN 207109957U) discloses a multifunctional intelligent integrated sink, which comprises a sink body, and a top-open type dish washer, a water purifying device, an electrolytic water sterilizing device and an ultrasonic device which are arranged on the sink body; the water tank body at least comprises two integrally formed sub-water tanks. The integrated water tank can almost cover all functions of kitchen water, and can effectively meet various requirements of people.

However, in the integrated water tank, the layout of the water tank, the cleaning machine and the electrolyzed water generating device is not compact enough, and the kitchen space cannot be reasonably utilized; in addition, the cleaning machine and the electrolyzed water generating device are only integrated in physical space, and the functions of the cleaning machine and the electrolyzed water generating device are not related to each other.

Disclosure of Invention

The first technical problem to be solved by the invention is to provide an integrated sink which can reasonably utilize the kitchen space in view of the current situation of the prior art.

The invention aims to solve the second technical problem of providing an integrated water tank with simplified structure and low cost.

The technical scheme adopted by the invention for solving the first technical problem is as follows: an integrated water tank comprises a tank body with a table board at the top, a main body arranged on the water tank under the table board, and a cleaning machine and an electrolytic water generating device arranged in the tank body, and is characterized in that: the cleaning machine is positioned right below the water tank, and the electrolyzed water generating device is positioned at one side of the cleaning machine.

To achieve the preparation of acidic and basic water, there are three schemes:

the first scheme is as follows:

the electrolyzed water generating device comprises

The salt tank is used for mixing water and salt to generate saturated salt water, and is provided with a salt feeding port, a water inlet end and a water outlet end for discharging the saturated salt water, and the water inlet end of the salt tank is in fluid communication with a tap water supply pipeline;

the soft water tank is used for softening a water body and is provided with a water inlet end for hard water to enter and a water outlet end for soft water to be discharged, and the water inlet end of the soft water tank is in fluid communication with a tap water supply pipeline;

the concentrated water tank is used for mixing saturated salt water and soft water to generate concentrated water and is provided with a first water inlet end, a second water inlet end and a water outlet end for discharging the concentrated water, the first water inlet end of the concentrated water tank is communicated with the water outlet end of the salt tank in a fluid mode, and the second water inlet end of the concentrated water tank is communicated with the water outlet end of the soft water tank in a fluid mode; and

the electrolytic chamber is used for electrolyzing concentrated water to generate acidic water and alkaline water, and is provided with a water inlet end, a first water outlet end for discharging the acidic water and a second water outlet end for discharging the alkaline water, and the water inlet end of the electrolytic chamber is communicated with the water outlet end of the concentrated water tank in a fluid mode.

In order to electrolyze the concentrated water to generate acidic water and alkaline water, the electrolytic chamber comprises

A box body;

the diaphragm is arranged in the box body and divides the inner cavity of the box body into an anode chamber and a cathode chamber;

the anode is arranged in the anode chamber; and

the cathode is arranged in the cathode chamber;

the water inlet end of the electrolysis chamber is communicated with the anode chamber and the cathode chamber, the first water outlet end of the electrolysis chamber is communicated with the anode chamber, and the second water outlet end of the electrolysis chamber is communicated with the cathode chamber.

In order to automatically supply saturated saline water and soft water by means of water pressure, the water inlet end of the salt tank is communicated with the tap water supply pipeline through a first tap water pipe;

the water inlet end of the soft water tank is communicated with the tap water supply pipeline through a second tap water pipe;

the first tap water pipe and the second tap water pipe are respectively provided with a valve, so that the integrated water tank has at least two states:

in a first state, the first tap water pipe is communicated, and the second tap water pipe is blocked;

in the second state, the second tap water pipe is communicated, and the first tap water pipe is blocked.

In order to further solve the second technical problem, the cleaning machine is provided with a water inlet end which is communicated with the water outlet end of the soft water tank in a fluid mode.

In order to facilitate the switching of two modes of supplying soft water to the concentrated water tank and the cleaning machine, the water outlet end of the soft water tank is communicated with the second water inlet end of the concentrated water tank through a first soft water pipe and is communicated with the water inlet end of the cleaning machine through a second soft water pipe;

the first and second flexible water pipes are provided with valves, so that the integrated sink has a third state:

in a second state, the first flexible water pipe is communicated and the second flexible water pipe is blocked;

in the third state, the second tap water pipe is communicated, the first tap water pipe is blocked, the second soft water pipe is communicated, and the first soft water pipe is blocked.

In order to simplify the arrangement of the valve and facilitate the operation, the first tap water pipe and the second tap water pipe share the same first valve.

Preferably, a first communicating pipeline is connected between the tap water supply pipeline and the first valve, a second communicating pipeline is connected between the first valve and the water inlet end of the salt tank, a third communicating pipeline is connected between the first valve and the water inlet end of the soft water tank, the first communicating pipeline and the second communicating pipeline form the first tap water pipe, and the first communicating pipeline and the third communicating pipeline form the second tap water pipe;

in the first state, the inlet of the second communication pipeline is communicated, and the inlet of the third communication pipeline is blocked;

in the second and third states, the inlet of the second communication duct is blocked and the inlet of the third communication duct is communicated.

In order to simplify the valve arrangement and facilitate the operation, the first and second flexible water pipes share a second valve.

Preferably, a fifth communication pipeline is connected between the water outlet end of the soft water tank and the second valve, a sixth communication pipeline is connected between the second valve and the second water inlet end of the concentrated water tank, a seventh communication pipeline is communicated between the second valve and the water inlet end of the cleaning machine, the fifth communication pipeline and the sixth communication pipeline form the first soft water pipe, and the fifth communication pipeline and the seventh communication pipeline form the second soft water pipe;

in the first and second states, the inlet of the sixth communication passage is communicated, and the inlet of the seventh communication passage is blocked;

in the third state, the inlet of the sixth communication passage is blocked, and the inlet of the seventh communication passage is communicated.

In order to facilitate coarse adjustment of the concentration of the concentrated water, a temperature monitoring device for monitoring the temperature of saturated saline water is arranged in the salt tank, the integrated water tank is provided with a controller, and the temperature monitoring device and valves on the first tap water pipe and the second tap water pipe are electrically connected with the controller, so that the controller can receive signals collected by the temperature monitoring device and control the on-off of the first tap water pipe and the second tap water pipe.

In order to facilitate the fine adjustment of the concentration of the concentrated water, the electrolysis chamber further comprises a current monitoring device for monitoring the current between the cathode and the anode, and the current monitoring device is electrically connected with the controller, so that the controller can receive the signal collected by the current monitoring device and control the on-off of the first tap water pipe and the second tap water pipe.

In order to conveniently recover the replacement capacity of the soft water tank, the salt tank is communicated with the soft water tank through a backflushing channel, and a valve for controlling the on-off of the backflushing channel is arranged at the backflushing channel.

The second scheme is as follows:

the electrolyzed water generating device comprises

The salt tank is used for mixing water supply and salt to generate saturated salt water, and is provided with a salt feeding port, a water inlet end, a water outlet end for discharging the saturated salt water and a water return end for recovering the salt water, wherein the water inlet end of the salt tank is in fluid communication with a tap water supply pipeline;

the soft water tank is used for softening a water body and is provided with a water inlet end for hard water to enter and a water outlet end for soft water to be discharged, and the water inlet end of the soft water tank is in fluid communication with a tap water supply pipeline; and

the electrolysis chamber is used for electrolyzing saturated salt water and soft water to generate acidic water and alkaline water and is provided with a first water inlet end, a second water inlet end, a third water inlet end, a water discharging end, a first water outlet end for discharging acidic water and a second water outlet end for discharging alkaline water, wherein the first water inlet end of the electrolysis chamber is communicated with the water outlet end of the salt tank in a fluid mode, the second water inlet end and the third water inlet end of the electrolysis chamber are communicated with the water outlet end of the soft water tank in a fluid mode, and the water discharging end of the electrolysis chamber is communicated with the water return end of the salt tank in a fluid mode.

The brine is recycled in the scheme, so that the electrolyte can be saved.

In order to electrolyze the saturated brine and the soft water into acidic water and alkaline water, the electrolysis chamber comprises

A box body;

the two diaphragms which are arranged side by side are arranged in the box body and divide the inner cavity of the box body into an anode chamber, an intermediate chamber and a cathode chamber which are arranged in sequence;

the anode is arranged in the anode chamber; and

the cathode is arranged in the cathode chamber;

the first water inlet end and the water discharge end of the electrolysis chamber are communicated with the middle chamber, the second water inlet end and the first water outlet end of the electrolysis chamber are communicated with the anode chamber, and the third water inlet end and the second water outlet end of the electrolysis chamber are communicated with the cathode chamber.

In order to further solve the second technical problem, the cleaning machine is provided with a water inlet end which is communicated with the water outlet end of the soft water tank in a fluid mode.

In order to facilitate the switching of two modes of supplying soft water to the electrolysis chamber and the cleaning machine, the water outlet end of the soft water tank is communicated with the second water inlet end and the third water inlet end of the electrolysis chamber through a first soft water pipe and is communicated with the water inlet end of the cleaning machine through a second soft water pipe;

the integrated water tank is characterized in that valves are arranged on the first water hose and the second water hose, so that the integrated water tank has at least two states:

in the first state, the first flexible water pipe is communicated, and the second flexible water pipe is blocked;

in the second state, the second flexible water pipe is communicated, and the first flexible water pipe is blocked.

In order to simplify the valve arrangement and facilitate the operation, the first and second flexible water pipes share a second valve.

Preferably, a fifth communication pipeline is connected between the water outlet end of the soft water tank and the second valve, a sixth communication pipeline is connected between the second valve and the second water inlet end and the third water inlet end of the electrolysis chamber, a seventh communication pipeline is communicated between the second valve and the water inlet end of the cleaning machine, the fifth communication pipeline and the sixth communication pipeline form the first soft water pipe, and the fifth communication pipeline and the seventh communication pipeline form the second soft water pipe;

in the first state, the inlet of the sixth communication passage is communicated, and the inlet of the seventh communication passage is blocked;

in the second state, the inlet of the sixth communication passage is blocked, and the inlet of the seventh communication passage is communicated.

In order to conveniently recover the replacement capability of the soft water tank, the salt tank and the soft water tank are communicated through a backflushing channel, and a valve for controlling the on-off of the backflushing channel is arranged at the backflushing channel.

The third scheme is as follows:

a water purifier is arranged in the cabinet body, and is provided with a water inlet end, a water purifying end and a waste water end, wherein the water inlet end of the water purifier is in fluid communication with a tap water supply pipeline;

the electrolyzed water generating device comprises

The soft water tank is used for softening a water body and is provided with a water inlet end for hard water to enter and a water outlet end for soft water to be discharged, and the water inlet end of the soft water tank is communicated with the wastewater end of the water purifier in a fluid mode so that wastewater enters the soft water tank to be softened and generate concentrated water;

a concentrate tank for storing concentrate water having a water inlet end and a water outlet end, the water inlet end of the concentrate tank being in fluid communication with the water outlet end of the soft water tank; and

the electrolysis chamber is used for electrolyzing concentrated water to generate acidic water and alkaline water, and is provided with a water inlet end, a first water outlet end for discharging the acidic water and a second water outlet end for discharging the alkaline water, and the water inlet end of the electrolysis chamber is in fluid communication with the water outlet end of the concentrated water tank.

In order to electrolyze the concentrated water to generate acidic water and alkaline water, the electrolytic chamber comprises

A box body;

the diaphragm is arranged in the box body and divides the inner cavity of the box body into an anode chamber and a cathode chamber;

the anode is arranged in the anode chamber; and

the cathode is arranged in the cathode chamber;

the water inlet end of the electrolysis chamber is communicated with the anode chamber and the cathode chamber, the first water outlet end of the electrolysis chamber is communicated with the anode chamber, and the second water outlet end of the electrolysis chamber is communicated with the cathode chamber.

In order to further solve the second technical problem, the cleaning machine has a water inlet end, the water inlet end of the soft water tank is in fluid communication with a tap water supply pipeline, and the water outlet end of the soft water tank is in fluid communication with the water inlet end of the cleaning machine.

In order to facilitate the switching between two modes of supplying concentrated water to the concentrated water tank and supplying soft water to the cleaning machine, the water inlet end of the water purifier is communicated with the tap water supply pipeline through a third tap water pipe, and the wastewater end of the water purifier is communicated with the water inlet end of the soft water tank through a wastewater pipe;

the water inlet end of the soft water tank is communicated with the tap water supply pipeline through a second tap water pipe, the water outlet end of the soft water tank is communicated with the water inlet end of the concentrated water tank through a first soft water pipe, and the water outlet end of the soft water tank is communicated with the water inlet end of the cleaning machine through a second soft water pipe;

the third tap water pipe, the second tap water pipe, the first soft water pipe and the second soft water pipe are respectively provided with a valve, so that the integrated water tank has at least two states:

in the first state, the third tap water pipe is communicated with the first soft water pipe, and the second tap water pipe is blocked from the second soft water pipe;

in the second state, the second and third flexible water pipes are in communication, and the first and second flexible water pipes are blocked.

In order to simplify the arrangement of the valve and facilitate the operation, the third tap water pipe and the second tap water pipe share one first valve.

Preferably, a first communicating pipeline is connected between the tap water supply pipeline and the first valve, a second communicating pipeline is connected between the first valve and the water inlet end of the water purifier, a third communicating pipeline is connected between the first valve and the water inlet end of the soft water tank, the first communicating pipeline and the second communicating pipeline form the third tap water pipe, and the first communicating pipeline and the third communicating pipeline form the second tap water pipe;

in a first state, the inlet of the second communication pipeline is communicated, and the inlet of the third communication pipeline is blocked;

in the second state, the inlet of the second communication duct is blocked and the inlet of the third communication duct is communicated.

To simplify the valve arrangement and facilitate operation, the first and second flexible water pipes share a second valve.

Preferably, a fifth communicating pipeline is connected between the water outlet end of the soft water tank and the second valve, a sixth communicating pipeline is connected between the second valve and the water inlet end of the concentrated water tank, a seventh communicating pipeline is communicated between the second valve and the water inlet end of the cleaning machine, the fifth communicating pipeline and the sixth communicating pipeline form the first soft water pipe, and the fifth communicating pipeline and the seventh communicating pipeline form the second soft water pipe;

in the first state, the inlet of the sixth communication passage is communicated, and the inlet of the seventh communication passage is blocked;

in the second state, the inlet of the sixth communication passage is blocked, and the inlet of the seventh communication passage is communicated.

In order to provide purified water for users conveniently, the table board is provided with a purified water faucet which is provided with a water inlet end and a water outlet end, the water inlet end of the purified water faucet is communicated with the purified water end of the water purifier through a purified water pipe, and the water outlet end of the purified water faucet faces the top opening of the water tank.

In order to store the acidic water and the alkaline water conveniently, the electrolyzed water generating device also comprises

An acid water tank for storing acid water having a water inlet end and a water outlet end, the water inlet end of the acid water tank being in fluid communication with the first water outlet end of the electrolysis chamber; and

an alkaline water tank for storing alkaline water having a water inlet end and a water outlet end, the water inlet end of the alkaline water tank being in fluid communication with the second water outlet end of the electrolysis chamber.

In order to facilitate the treatment of kitchen oil stains and the sterilization of various articles, the table top is provided with a spraying pot, the spraying pot is provided with a water inlet end and a water outlet end, the water inlet end of the spraying pot is communicated with the water outlet ends of the acidic water tank and the alkaline water tank through an acidic water pipe and an alkaline water pipe respectively, and the water outlet end of the spraying pot is exposed on the upper surface of the table top.

In order to facilitate grease removal and sterilization during cleaning of the cleaning machine, a cleaning cavity for accommodating articles to be cleaned is formed inside the cleaning machine, a first cleaning medium supply pipe is mounted on the cleaning machine, the first cleaning medium supply pipe is provided with a water inlet end and a water outlet end, the water inlet end of the first cleaning medium supply pipe is communicated with the water outlet ends of the acidic water tank and the alkaline water tank through the acidic water pipe and the alkaline water pipe respectively, a first spray head is arranged at the water outlet end of the first cleaning medium supply pipe, and spray holes of the first spray head face the articles to be cleaned accommodated in the cleaning cavity.

In order to facilitate grease removal and sterilization during self-cleaning of the garbage disposer, the garbage disposer is arranged in the cabinet body and comprises a disposal bin and an annular spray pipe used for cleaning the disposal bin, the annular spray pipe is provided with a water inlet end and a water outlet end, the water inlet end of the annular spray pipe is communicated with the water outlet ends of the acidic water tank and the alkaline water tank through an acidic water pipe and an alkaline water pipe respectively, the circumferential wall of one side of the annular spray pipe, facing the inner cavity of the disposal bin, is provided with at least two spray holes arranged at intervals along the circumferential direction, and the spray holes form the water outlet end of the annular spray pipe.

In order to facilitate the grease removal and sterilization of the kitchen utensils in the kitchen utensil sterilizer, the kitchen utensil sterilizer is arranged on the table top and comprises

A housing having a sterilization chamber therein and an opening at a top thereof;

the draining rack is accommodated in the disinfection cavity and used for placing kitchenware; and

the second cleaning medium supply pipe is provided with a water inlet end and a water outlet end, the water inlet end of the second cleaning medium supply pipe is communicated with the water outlet ends of the acidic water tank and the alkaline water tank through an acidic water pipe and an alkaline water pipe respectively, the water outlet end of the second cleaning medium supply pipe is provided with a second spray head, and spray holes of the second spray head face to kitchen utensils placed on the draining rack.

In order to avoid the interference between the water outlet pipe of the water tank and the cleaning machine, the bottom surface of the water tank is provided with a water outlet, and the water outlet and the cleaning machine are arranged in a staggered mode in the vertical direction.

Compared with the prior art, the invention has the advantages that:

(1) The kitchen space is reasonably utilized by reasonably arranging the water tank, the cleaning machine and the electrolyzed water generating device;

(2) Through with brineelectrolysis emergence device and cleaning machine sharing salt case and softened water tank, perhaps through with brineelectrolysis emergence device and cleaning machine sharing softened water tank, utilize water purifier exhaust waste water simultaneously, under the condition that does not increase cost, guaranteed that the electrolysis chamber can produce acidity and alkaline brineelectrolysis, diaphragm and electrode are difficult for becoming invalid by incrustation scale jam simultaneously, have prolonged life greatly, above-mentioned scheme structure is simplified and with low costs.

Drawings

Fig. 1 is a schematic perspective view of an integrated sink embodiment 1 according to the present invention;

fig. 2 is a schematic perspective view of the cabinet of fig. 1 with a part of side panels omitted;

FIG. 3 is a schematic perspective view of FIG. 1 with the top cover omitted and the top cover in another direction;

FIG. 4 is a schematic perspective view of the electrolyzed water forming apparatus shown in FIG. 2;

FIG. 5 is a longitudinal sectional view of FIG. 4 with the electrolytic cell, the acid water tank and the alkaline water tank omitted;

FIG. 6 is a longitudinal cross-sectional view of the electrolytic cell of FIG. 4;

fig. 7 is a schematic perspective view of an integrated sink in accordance with an embodiment 2 of the present invention, with a side plate of the sink body partially omitted;

FIG. 8 is a longitudinal cross-sectional view of the washer of FIG. 7;

FIG. 9 is a schematic perspective view of an integrated sink embodiment 3 with a side panel of the sink body omitted;

FIG. 10 is a schematic perspective view of the garbage disposer shown in FIG. 9;

FIG. 11 is a longitudinal cross-sectional view of the table and waste disposer of FIG. 9;

fig. 12 is a schematic perspective view of the integrated sink embodiment 4 of the present invention with a side plate of the cabinet omitted;

FIG. 13 is a schematic perspective view of the kitchen utensil sterilizer of FIG. 12;

FIG. 14 is a longitudinal cross-sectional view of the kitchen utensil sterilizer of FIG. 12;

FIG. 15 is a schematic perspective view of an integrated sink embodiment 5 of the present invention with a side panel of the sink body partially omitted;

FIG. 16 is a schematic perspective view of the electrolyzed water forming apparatus shown in FIG. 15;

FIG. 17 is a longitudinal sectional view of FIG. 16 with the electrolytic cell, acid water tank and alkaline water tank omitted;

FIG. 18 is a longitudinal cross-sectional view of the electrolytic cell of FIG. 16;

fig. 19 is a schematic perspective view of an integrated sink according to embodiment 6 of the present invention, with a side plate of the sink body partially omitted;

fig. 20 is a schematic perspective view of an integrated sink embodiment 7 of the present invention with a side plate of the sink body partially omitted;

fig. 21 is a schematic perspective view of an integrated sink embodiment 8 with a side panel of the sink body omitted;

fig. 22 is a schematic perspective view of an integrated sink embodiment 9 of the present invention with a side plate of the sink body partially omitted;

FIG. 23 is a schematic perspective view of the electrolyzed water forming apparatus shown in FIG. 22;

fig. 24 is a schematic perspective view of the integrated sink embodiment 10 of the present invention with a side panel of the cabinet omitted;

FIG. 25 is a schematic perspective view of the integrated sink embodiment 11 with a side panel of the sink body omitted;

fig. 26 is a schematic perspective view of the integrated sink embodiment 12 of the present invention with a part of the side panel of the cabinet omitted.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

Example 1:

as shown in fig. 1 to 6, a first preferred embodiment of the integrated sink of the present invention is shown. The integrated water tank comprises a cabinet body 1, a water tank 2, a garbage processor 3, a cleaning machine 5, a kitchen utensil sterilizing machine 6 and an electrolytic water generating device 7.

Wherein, the top of the cabinet body 1 has a table top 11, the top surface of the table top 11 is partially recessed downwards to form a recessed part 111, the left part of the bottom surface of the recessed part 111 is provided with a garbage putting port 1111, the position of the bottom surface of the recessed part 111 behind the garbage putting port 1111 is provided with a hinged seat 1112, the rear part of the middle surface of the table top 11 is provided with a water purifying tap 112, the water purifying tap 112 is provided with a water inlet end and a water outlet end, the water outlet end of the water purifying tap 112 faces the top opening of the sink 2, and the rear part of the left side surface of the table top 11 is provided with a mounting port 113 and a mounting groove 114; a top cover 12 is covered above the garbage input port 1111, the rear end of the top cover 12 is hinged on a hinge base 1112 for opening and closing the garbage input port 1111, and the top surface of the top cover 12 is substantially flush with the top surface of the table top 11 in a state that the top cover 12 closes the garbage input port 1111; a bracket 13 is arranged at the left side of the inner cavity of the cabinet body 1; the watering can 14 is inserted into the mounting groove 114, the bottom of the watering can 14 has a water inlet end, the upper portion of the watering can 14 has a nozzle as a water outlet end, and the water outlet end is exposed on the upper surface of the table 11.

The sink 2 is embedded in the right part of the bottom surface of the concave part 111, the main body of the sink is arranged below the table-board 11 and is close to the garbage throwing-in port 1111, so that garbage can be conveniently thrown in, and the left part of the bottom surface of the sink 2 is provided with a water outlet 21.

The garbage disposer 3 is installed on the upper portion of the stand 13 and disposed opposite to the garbage input port 1111.

The washing machine 5 is disposed in the cabinet 1, under the sink 2, and at the right side of the rack 13, for washing dishes waiting for washing. The cleaning machine 5 and the lower water gap 21 of the water tank 2 are arranged in a staggered way in the vertical direction, so that the water outlet pipe of the water tank 2 can be prevented from interfering with the cleaning machine 5, and the height of the inner cavity of the cleaning machine 5 is increased to the maximum extent. In this embodiment, the space is allocated according to the value, and the space such as the water tank 2, the drainer, the skirting line and the like is reserved in the cleaning machine 5, so that the volume of the cleaning machine 5 is remarkably increased, and the cleaning capacity is larger.

The kitchen sterilizer 6 is disposed in the cabinet 1 and faces the mounting opening 113.

The electrolyzed water generating apparatus 7 is installed at the lower portion of the bracket 13, and as shown in fig. 4 to 6, the electrolyzed water generating apparatus 7 includes a salt tank 71, a soft water tank 72, a thick water tank 73, an electrolysis chamber 74, an acidic water tank 75, and an alkaline water tank 76.

Specifically, the salt tank 71 is used for mixing water and salt to produce a saturated salt solution, and has a salt inlet 710, a water inlet end and a water outlet end. A rotary cover 7101 is detachably connected at the salt feeding port 710 of the salt box 71; the water inlet end of the salt tank 71 is connected to the tap water supply line through a first tap water pipe 711.

The soft water tank 72 is used to soften a body of water and has a water inlet end and a water outlet end. The soft water tank 72 has a water inlet end communicating with the tap water supply line through a second tap water pipe 721. In addition, the salt tank 71 and the soft water tank 72 are communicated through a backflushing channel 720, a valve for controlling the on-off of the backflushing channel 720 is arranged at the position of the backflushing channel 720, when the soft water tank 72 runs for a certain time, the soft water resin in the soft water tank 72 can reach exchange balance and lose replacement capacity, at the moment, the backflushing channel 720 can be opened, and saturated salt water in the salt tank 71 is led into the soft water tank 72 through the backflushing channel 720 to backflush the soft water resin.

The concentrate tank 73 is used for mixing saturated salt water and soft water to generate concentrated water, and has a first water inlet end, a second water inlet end and a water outlet end. The water outlet end of the salt tank 71 is communicated with the first water inlet end of the rich water tank 73 through a saturated salt water pipe 712; in addition, the above-mentioned washing machine 5 has a water inlet end, and the water outlet end of the soft water tank 72 is communicated with the second water inlet end of the rich water tank 73 through a first soft water pipe 722 and is communicated with the water inlet end of the washing machine 5 through a second soft water pipe 723.

The electrolytic chamber 74 is a single-diaphragm double-chamber electrolytic chamber for electrolyzing concentrated water to generate acidic water and alkaline water, and comprises a box 741, a diaphragm 742, an anode 743 and a cathode 744. The tank 741 has a water inlet end, a first water outlet end and a second water outlet end, the water outlet end of the concentrate tank 73 is communicated with the water inlet end of the tank 741 through a concentrate pipe 731, and the concentrate pipe 731 is provided with a first delivery pump 7311 capable of delivering water from an inlet to an outlet thereof; the diaphragm 742 is a cation exchange membrane and is arranged in the box body 741 to divide an inner cavity of the box body 741 into an anode chamber 7411 and a cathode chamber 7412, a water inlet end on the box body 741 is communicated with the anode chamber 7411 and the cathode chamber 7412, a first water outlet end on the box body 741 is communicated with the anode chamber 7411, and a second water outlet end on the box body 741 is communicated with the cathode chamber 7412; anode 743 is disposed in anode compartment 7411; cathode 744 is disposed in cathode chamber 7412.

The acid tank 75 is for storing acid water and has a water inlet end and a water outlet end. The inlet end of the acid tank 75 is in fluid communication with the first outlet end of the electrolytic cell 74, and the outlet end of the acid tank 75 is in communication with the inlet end of the watering can 14 via an acid water line 751.

The alkaline water tank 76 is used for storing alkaline water and has a water inlet end and a water outlet end. The inlet end of the alkaline water tank 76 is in fluid communication with the second outlet end of the electrolysis chamber 74, and the outlet end of the alkaline water tank 76 is in communication with the inlet end of the watering can 14 via an alkaline water line 761.

Valves are provided on the first tap water pipe 711, the second tap water pipe 721, the saturated salt water pipe 712, the first soft water pipe 722, the second soft water pipe 723, the acidic water pipe 751 and the alkaline water pipe 761.

In this embodiment, the first tap water pipe 711 and the second tap water pipe 721 share the first valve 77. A first communicating pipeline is connected between the tap water supply pipeline and the first valve 77, a second communicating pipeline is connected between the first valve 77 and the water inlet end of the salt tank 71, a third communicating pipeline is connected between the first valve 77 and the water inlet end of the soft water tank 72, the first communicating pipeline and the second communicating pipeline form a first tap water pipe 711, and the first communicating pipeline and the third communicating pipeline form a second tap water pipe 721.

In this embodiment, the saturated salt water pipe 712, the first and second flexible water pipes 722 and 723 share one second valve 78. The first water inlet end and the second water inlet end of the concentrated water tank 73 share the same water inlet end, a fourth communication pipeline is connected between the water outlet end of the salt tank 71 and the second valve 78, a fifth communication pipeline is connected between the water outlet end of the soft water tank 72 and the second valve 78, a sixth communication pipeline is connected between the second valve 78 and the water inlet end of the concentrated water tank 73, a seventh communication pipeline is communicated between the second valve 78 and the water inlet end of the cleaning machine 5, the fourth communication pipeline and the sixth communication pipeline form a saturated salt water pipe 712, the fifth communication pipeline and the sixth communication pipeline form a first soft water pipe 722, and the fifth communication pipeline and the seventh communication pipeline form a second soft water pipe 723.

By switching the first valve 77 and the second valve 78, the integrated water tank has at least three states:

in the first state, the inlets of the second communication ducts are communicated, the inlet of the third communication duct is blocked, so that the first tap water pipe 711 is communicated, and the second tap water pipe 721 is blocked; the inlet of the sixth communication passage is communicated and the inlet of the seventh communication passage is blocked so that the first soft water pipe 722 is communicated and the second soft water pipe 723 is blocked; thus, the tap water in the tap water supply line is introduced into the salt tank 71 through the first tap water pipe 711, and the saturated saline solution formed by mixing the water and the salt is introduced into the concentrate tank 73 through the saturated saline water pipe 712 under the hydraulic pressure;

in the second state, the inlet of the second communicating pipe is blocked, the inlet of the third communicating pipe is communicated so that the second tap water pipe 721 is communicated, and the first tap water pipe 711 is blocked; the inlet of the sixth communication passage is communicated and the inlet of the seventh communication passage is blocked so that the first soft water pipe 722 is communicated and the second soft water pipe 723 is blocked; thus, the tap water in the tap water supply line is introduced into the soft water tank 72 through the second tap water pipe 721, and the soft water formed by the softening of the tap water is introduced into the rich water tank 73 through the first soft water pipe 722 under the above-mentioned water pressure;

in the third state, the inlet of the second communication pipe is blocked, the inlet of the third communication pipe is communicated so that the second tap water pipe 721 is communicated with the first tap water pipe 711; the inlet of the sixth communication passage is blocked and the inlet of the seventh communication passage is communicated to communicate the second soft water pipe 723 and the first soft water pipe 722; thus, the tap water in the tap water supply line is introduced into the soft water tank 72 through the second tap water pipe 721, and the soft water formed by softening the tap water is introduced into the washing machine 5 through the second soft water pipe 723 by the aforementioned water pressure.

In this embodiment, the sour water line 751 and the alkaline water line 761 share a common third valve 79. An eighth communication pipeline is connected between the water outlet end of the acidic water tank 75 and the third valve 79, a ninth communication pipeline is connected between the water outlet end of the alkaline water tank 76 and the third valve 79, a tenth communication pipeline is connected between the third valve 79 and the water inlet end of the sprinkling can 14, a second delivery pump 7511 capable of delivering water from an inlet to an outlet of the tenth communication pipeline is installed on the tenth communication pipeline, the eighth communication pipeline and the tenth communication pipeline form an acidic water pipe 751, and the ninth communication pipeline and the tenth communication pipeline form an alkaline water pipe 761. Thus, the third valve 75 is switched to selectively connect the acidic water pipe 751 and the alkaline water pipe 761, and the second delivery pump 7511 is activated to deliver the acidic water or the alkaline water to the watering can 14.

In order to accurately prepare the required high-concentration concentrated water (in this embodiment, the concentration of NaCl in the concentrated water is 0.1 wt%), in this embodiment, a temperature monitoring device 713 for monitoring the temperature of the saturated brine is provided in the salt tank 71, the electrolysis chamber 74 further includes a current monitoring device 740 for monitoring the current between the cathode and the anode, and the integrated water tank has a controller, and the temperature monitoring device 713, the current monitoring device 740, the first valve 77 and the second valve 78 are electrically connected to the controller, so that the controller can receive signals collected by the temperature monitoring device 713 and the current monitoring device 740 and control the on/off of the first tap water pipe 711, the second tap water pipe 721, the saturated brine pipe 712, the first soft water pipe 722 and the second soft water pipe 723. In this embodiment, the temperature monitoring device 713 is a temperature probe and is installed at the bottom inside the salt tank 71; the current monitoring device 740 is a current monitor, is installed outside the case 741, and is electrically connected to the anode 743 and the cathode 744, thereby feeding back the current applied to the anode and the cathode in real time.

The design idea is as follows: the water provided by the salt tank 71 is saturated saline water, the water provided by the softening tank 72 is soft water (the concentration of NaCl in the soft water is 0), the volume of the thick water tank 73 is constant, the concentration of NaCl in the saturated saline water can be calculated through the temperature measured by the temperature monitoring device 713 because the concentration of NaCl in the saturated saline water is related to the temperature (see table 1 for details), then the introduction ratio of the saturated saline water to the soft water is determined, during actual operation, the supply time of the saturated saline water and the soft water is controlled by switching the first valve 77, the concentration of the thick water can be preliminarily realized to be about 0.1wt%, but because the flow of tap water fluctuates, the volume of the liquid obtained according to the flow time mode has certain errors, and the mode can only roughly adjust the concentration of NaCl in the thick water. During the operation of the electrolysis chamber 74, the current monitoring device 740 can monitor the current between the cathode and the anode in real time, when the concentration of NaCl in the concentrated water is 0.1wt%, the current measured by the current monitoring device 740 is 2A, when the concentration is higher than 2A, the concentration is higher, when the concentration is lower than 2A, the concentration is lower, when the concentration is higher, the second tap water pipe 721 can be opened by switching the first valve 77, a certain amount of soft water can be supplemented until the current is reduced to 2A, when the concentration is lower, the first tap water pipe 711 can be opened by switching the first valve 77, a certain amount of saturated salt water can be supplemented until the current is increased to 2A, and therefore the concentration of NaCl in the concentrated water can be finely adjusted.

TABLE 1 relationship between NaCl concentration in saturated brine and temperature

Temperature (. Degree.C.)	NaCl concentration (wt%) in saturated brine
		0±5	26.31
10±5	26.36
		20±5	26.47
30±5	26.63

The control method of the electrolyzed water forming apparatus 7 is as follows:

after the electrolyzed water generating device 7 is started, corresponding actions are carried out according to the instruction of a user:

(1) A first operating mode: when a user indicates to produce acidic water and alkaline water, the first valve 77 and the second valve 78 are switched to a first state and a second state, tap water enters the salt tank 71 through the first tap water pipe 711 and is mixed with salt to form saturated salt water, then the saturated salt water enters the concentrated water tank 73 through the saturated salt water pipe 712, tap water enters the soft water tank 72 through the second tap water pipe 721 and is softened into soft water, then the soft water enters the concentrated water tank 73 through the first soft water pipe 722, the saturated salt water and the soft water are mixed in the concentrated water tank 73 to form concentrated water, then the concentrated water is conveyed to the electrolysis chamber 74 through the concentrated water pipe 731 under the action of the first conveying pump 7311 to be electrolyzed, acidic water is generated in the anode chamber 7411, alkaline water is generated in the cathode chamber 7412, and then the concentrated water flows out of the acidic water tank 75 and the alkaline water tank 76 through the first water outlet end and the second water outlet end respectively to be stored;

in this process, the concentration of the concentrated water is roughly adjusted by the following means: the temperature monitoring device 713 measures the temperature of the saturated salt water in the salt tank 71, the controller calculates the concentration C of the saturated salt water according to the temperature measured by the temperature monitoring device 713, then the volume ratio V of the saturated salt water and the soft water introduced into the concentrated water tank 73 is determined according to the target concentration Ct of the concentrated water, and V = Ct/(C-Ct);

the concentration of the concentrated water is finely adjusted by the following method: the current monitoring device 740 measures the real-time current I between the cathode and the anode in the electrolysis chamber 74, the controller determines the magnitude between the real-time current I and the target current It, if I is smaller than It, saturated salt water is supplemented into the concentrated water tank 73, and if I is larger than It, soft water is supplemented into the concentrated water tank 73;

(2) A second operating mode: when the user instructs to supply soft water to the washing machine, the first valve 77 and the second valve 78 are switched to the third state, tap water enters the soft water tank 72 through the second tap water pipe 721 to be softened into soft water, and then the soft water enters the washing machine 5 through the second soft water pipe 723;

(3) The third working mode is as follows: when the user instructs to supply the acid water to the watering can 14, the third valve 79 is switched to connect the acid water pipe 751, and the acid water in the acid water tank 75 is pumped into the watering can 14 through the acid water pipe 751 by the second delivery pump 7511, so that the acid water can be used for the sterilization of the surface of the toy, the appliance and the like;

(4) A fourth operating mode: when the user instructs to supply alkaline water to the sprinkling can 14, the third valve 79 is switched to communicate the alkaline water pipe 761, and the alkaline water in the alkaline water tank 76 is pumped into the sprinkling can 14 through the alkaline water pipe 761 under the action of the second delivery pump 7511, so that the alkaline water can be used for cleaning greasy dirt on the surfaces of a table board, a range hood and the like.

It can be seen that in the present embodiment, the salt tank 71 and the soft water tank 72 are shared by the electrolyzed water generating apparatus 7 and the cleaning machine 5, so that the electrolytic chamber 74 can generate acidic and alkaline electrolyzed water without increasing the cost, and the diaphragm and the electrodes are not easily blocked by the scale to be invalid, thereby greatly prolonging the service life.

Example 2:

fig. 7 and 8 show a second preferred embodiment of the integrated water tank of the present invention. The difference from example 1 is that:

in this embodiment, a cleaning chamber 50 for accommodating articles to be cleaned is formed inside the cleaning machine 5, and a first cleaning medium supply pipe 51 is installed on the cleaning machine 5, the first cleaning medium supply pipe 51 has a water inlet end and a water outlet end, the water inlet end of the first cleaning medium supply pipe 51 is respectively communicated with the water outlet ends of the acidic water tank 75 and the alkaline water tank 76 through an acidic water pipe 751 and an alkaline water pipe 761, the water outlet end of the first cleaning medium supply pipe 51 is provided with a first spray head 511, and a spray hole of the first spray head 511 faces the articles to be cleaned accommodated in the cleaning chamber 50.

In this embodiment, the alkaline water is suitable for first grease removal (replacing dishwashing powder), and the acidic water is suitable for last sterilization (long-time storage can be realized), so as to be skillfully matched with the cleaning function of the cleaning machine 5.

In this embodiment, the number of the first cleaning medium supply pipes 51 is two, and the first nozzles 511 of the two first cleaning medium supply pipes 51 are respectively installed on the top wall and the rear side wall of the cleaning chamber 50. In addition, the two first cleaning medium supply pipes 51 share one fourth valve 52, when only the bowl rack on the lower layer in the cleaning cavity 50 has bowls, the fourth valve 52 can be switched to enable the first cleaning medium supply pipes 51 corresponding to the first spray heads 511 on the rear side wall of the cleaning cavity 50 to be communicated, and when the bowls are arranged on the upper layer and the lower layer in the cleaning cavity 50, the fourth valve 52 can be switched to enable the two first cleaning medium supply pipes 51 to be communicated.

The control method of the electrolyzed water forming apparatus 7 is as follows:

after the electrolyzed water generating device 7 is started, corresponding actions are carried out according to the instruction of a user:

(1) A first operating mode: the same as example 1;

(2) A second working mode: the same as example 1;

(3) A third working mode: when a user indicates to supply alkaline water to the cleaning machine 5, the third valve 79 is switched to enable the alkaline water pipe 761 to be communicated, under the action of the second delivery pump 7511, the alkaline water in the alkaline water tank 76 is pumped into the first cleaning medium supply pipe 51 through the alkaline water pipe 761, then the alkaline water is uniformly sprayed onto the object to be cleaned through the first spray head 511 to react with oily substances, and meanwhile, the alkaline water is matched with the spray arm of the cleaning machine 5 to be washed, so that grease can be washed quickly and efficiently;

(4) The fourth working mode: when the user instructs to supply the acidic water to the washing machine 5, the third valve 79 is switched to connect the acidic water pipe 751, the acidic water in the acidic water tank 75 is pumped into the first washing medium supply pipe 51 through the acidic water pipe 751 by the second delivery pump 7511, and then the acidic water is uniformly sprayed to the surface of the object to be washed through the first spray nozzle 511 for sterilization, and simultaneously the spray arm of the washing machine 5 is used for washing, so that the bacteria can be killed quickly and efficiently.

Example 3:

as shown in fig. 9 to 11, a third preferred embodiment of the integrated water tank of the present invention is provided. The difference from example 1 is that:

in this embodiment, the garbage disposer 3 is a drying type garbage disposer, and includes a housing 31, a disposal bin 32, a crushing device 33, a heating device 34, an exhaust device 35, and an annular nozzle 36, where the crushing device 33, the heating device 34, and the exhaust device 35 form a disposal assembly for disposing the kitchen garbage in the disposal bin 32 into dry garbage.

Specifically, the housing 31 is attached to the bracket 13.

The disposal container 32 is accommodated in the housing 31, the garbage input port 1111 is located corresponding to the top opening of the disposal container 32, a user can input garbage into the disposal container 32 through the garbage input port 1111, and the disposal container 32 can be taken out through the garbage input port 1111. The arrangement mode has the advantages that firstly, the kitchen space is reasonably utilized, and the space above the ground or the table top is not required to be additionally occupied; secondly, the user can directly put the kitchen garbage generated in the cleaning process into the treatment barrel 32 through the garbage putting port 1111, so that the operation is convenient; thirdly, the garbage after being treated is accumulated to a certain amount, and then can be conveniently taken out of the treatment barrel 32 through the garbage feeding port 1111, so that the dry garbage is convenient to transfer and treat, and the kitchen garbage is directly discharged, thereby being more environment-friendly.

The crushing device 33 is used for crushing the garbage in the treatment tank 32. In this embodiment, the crushing device 33 includes a cutter 331 and a driving member 332. The cutter 331 is rotatably connected to the bottom wall inside the processing barrel 32; the driving member 332 is a motor, and is installed at the bottom of the casing 31, the power output end of the driving member sequentially penetrates through the casing 31 and the processing barrel 32 and extends into the processing barrel 32, and the power output end of the driving member 332 is detachably connected with the cutter 331, so that the processing barrel 32 can be conveniently taken out of the casing 31.

The heating device 34 is used for heating the garbage in the treatment tank 32. In this embodiment, the heating device 34 is a heating plate, which is installed at the bottom inside the housing 31, and the top surface of the heating plate is closely attached to the bottom surface of the processing barrel 32.

The exhaust device 35 is used to extract the gas generated in the tub 32 during the garbage disposal process. In this embodiment, the exhaust unit 35 includes a catalytic decomposition tube 351, an exhaust fan 352, and a heating jacket 353. A catalytic decomposition tube 351 vertically disposed outside the casing 31 and having an odor inlet at the bottom thereof and a first purified gas outlet and a second purified gas outlet at the top thereof for catalytically decomposing the odor into purified gas, the odor inlet of the catalytic decomposition tube 351 being in fluid communication with the inner chamber of the above-mentioned treating tub 32 through an exhaust tube 3511; the exhaust fan 352 is provided with an air suction port and an air exhaust port, and can suck air flow from the air suction port and exhaust the air flow through the air exhaust port, the second purified air outlet of the catalytic decomposition tube 351 is communicated with the air suction port of the exhaust fan 352 through a purified air tube 3512, and the air exhaust port of the exhaust fan 352 can be directly exposed in the cabinet body 1 or communicated with the air exhaust port of a kitchen; the heating jacket 353 is sleeved on the periphery of the catalytic decomposition tube 351 and used for heating the catalytic decomposition tube 351, and the catalytic efficiency is improved.

A ring-shaped spray pipe 36 for washing the treating tub 32 is installed at the top of the treating tub 32 and around the periphery of the top opening of the treating tub 32. The annular nozzle 36 has a water inlet end and a water outlet end, the water inlet end of the annular nozzle 36 is connected to the water outlet ends of the acid water tank 75 and the alkaline water tank 76 through an acid water pipe 751 and an alkaline water pipe 761, the circumferential wall of the annular nozzle 36 facing the inner cavity of the treatment tank 32 is provided with at least two circumferentially spaced spray holes 361, and the spray holes 361 form the water outlet end of the annular nozzle 36.

The electrolytic water generator 7 is controlled as follows:

after the electrolyzed water generating device 7 is started, corresponding actions are carried out according to the instruction of a user:

(1) A first operating mode: the same as example 1;

(2) A second working mode: the same as example 1;

(3) The third working mode is as follows: when a user instructs to supply alkaline water to the garbage disposer 3, the third valve 79 is switched to enable the alkaline water pipe 761 to be communicated, under the action of the second delivery pump 7511, the alkaline water in the alkaline water tank 76 is pumped into the annular spray pipe 36 through the alkaline water pipe 761, then the alkaline water is uniformly sprayed onto the wall surface of the treatment barrel 3 through the spray holes 361 to react with oily substances, and meanwhile, the bottom of the treatment barrel 32 and the cutter 331 are cleaned in cooperation with the rotation of the cutter 331, so that grease can be quickly and efficiently washed away;

(4) The fourth working mode: when the user instructs to supply the acidic water to the garbage disposer 3, the third valve 79 is switched to connect the acidic water pipe 751, and the acidic water in the acidic water tank 75 is pumped into the annular nozzle 36 through the acidic water pipe 751 by the second delivery pump 7511, and then the acidic water is uniformly sprayed to the wall of the treating tub 3 through the spray holes 361 for sterilization, and simultaneously the bacteria on the bottom of the treating tub 32 and the cutter 331 are rapidly and efficiently killed in cooperation with the rotation of the cutter 331.

Example 4:

fig. 12 to 14 show a fourth preferred embodiment of the integrated water tank of the present invention. The difference from example 1 is that:

in this embodiment, the kitchen machine 6 comprises a housing 61, a draining rack 62 and a second cleaning medium supply pipe 63. Specifically, the inside of the housing 61 has a sterilization chamber 611, and the top has an opening 612, and the top periphery of the housing 61 is connected to the periphery of the mounting opening 113; the draining rack 62 is detachably mounted on the housing 61 and can enter and exit the sterilizing cavity 611 from the opening 612 for placing kitchen utensils such as chopping boards, cutters, chopsticks and the like; the second cleaning medium supply pipe 63 has a water inlet end and a water outlet end, the water inlet end of the second cleaning medium supply pipe 63 communicates with the water outlet ends of the acid water tank 75 and the alkaline water tank 76 through an acid water pipe 751 and an alkaline water pipe 761, respectively, and the water outlet end of the second cleaning medium supply pipe 63 is provided with a second spray head 631 having spray holes facing the kitchen utensils resting on the draining rack 62.

In this embodiment, the number of the second cleaning medium supply pipes 63 is two, and the second nozzles 631 of the two second cleaning medium supply pipes 63 are respectively installed on the left and right side walls of the sterilization chamber 611.

The control method of the electrolyzed water forming apparatus 7 is as follows:

after the electrolyzed water generating device 7 is started, corresponding actions are carried out according to the instruction of a user:

(1) A first operating mode: the same as example 1;

(2) A second working mode: the same as example 1;

(3) The third working mode is as follows: when a user instructs to supply alkaline water to the kitchen appliance sterilizer 6, the third valve 79 is switched to communicate the alkaline water pipe 761, the alkaline water in the alkaline water tank 76 is pumped into the second cleaning medium supply pipe 63 through the alkaline water pipe 761 under the action of the second delivery pump 7511, and then the alkaline water is uniformly sprayed to the kitchen appliance through the second spray head 631 to react with oily substances, and simultaneously the alkaline water is flushed by matching with the high pressure of the second delivery pump 7511, so that grease can be flushed quickly and efficiently;

(4) The fourth working mode: when the user instructs to supply the acidic water to the kitchen sterilizer 6, the third valve 79 is switched to connect the acidic water pipe 751, the acidic water in the acidic water tank 75 is pumped into the second cleaning medium supply pipe 63 through the acidic water pipe 751 by the second transfer pump 7511, and then the acidic water is uniformly sprayed to the surface of the kitchen ware through the second spray head 631 to be sterilized, so that the bacteria can be rapidly and efficiently killed.

Example 5:

as shown in fig. 15 to 18, a fifth preferred embodiment of the integrated water tank of the present invention. The difference from example 1 is that:

in this embodiment, the electrolyzed water forming apparatus 7 omits the concentrate tank 73.

The electrolytic chamber 74 is a double-diaphragm three-chamber electrolytic chamber for electrolyzing the saturated saline and soft water to produce acidic water and alkaline water. Specifically, the box 741 has a first water inlet end, a second water inlet end, a third water inlet end, a water discharge end, a first water outlet end and a second water outlet end; the number of the diaphragms 742 is two, the diaphragms are arranged side by side, the two diaphragms 742 are respectively an anion exchange membrane and a cation exchange membrane, an inner cavity of the box body 741 is divided into an anode chamber 7411, an intermediate chamber 7413 and a cathode chamber 7412 which are arranged in sequence, a first water inlet end and a first water outlet end on the box body 741 are communicated with the intermediate chamber 7413, a second water inlet end and a first water outlet end on the box body 741 are communicated with the anode chamber 7411, and a third water inlet end and a second water outlet end on the box body 741 are communicated with the cathode chamber 7412. In addition, the anode 743 and the cathode 744 are electrically connected to an external power supply, which is a current-limiting power supply in this embodiment, so the design has the advantages that: for a double-diaphragm system, saturated saline solution is introduced into the intermediate chamber 7413, the concentration is very high, the current during the electrolytic reaction is very high, the reaction is too violent, the electrolyte consumption is high, the generated products and byproducts are uncontrollable, the current is limited within a certain range by a current-limiting power supply, the consumption of the electrolyte can be saved on the premise of ensuring that the required pH value is generated to obtain acid and alkaline electrolytic water, the safety of the reaction is ensured, and the energy-saving effect is achieved.

The salt tank 71 further has a water return end, the water outlet end of the salt tank 71 is connected to the first water inlet end of the electrolysis chamber 74 through a saturated salt water pipe 712, a third delivery pump 7121 capable of delivering water from the inlet to the outlet of the saturated salt water pipe 712 is installed on the saturated salt water pipe 712, and the water return end of the salt tank 71 is connected to the water outlet end of the electrolysis chamber 74 through a water return pipe 713.

The water outlet end of the soft water tank 72 communicates with the second and third water inlet ends of the electrolysis chamber 74 through the first soft water pipe 722, and communicates with the water inlet end of the washing machine 5 through the second soft water pipe 723.

In this embodiment, the first and second flexible water pipes 722 and 723 share one second valve 78. A fifth communication pipeline is connected between the water outlet end of the soft water tank 72 and the second valve 78, a sixth communication pipeline is connected between the second valve 78 and the second water inlet end and the third water inlet end of the electrolysis chamber 74, a seventh communication pipeline is communicated between the second valve 78 and the water inlet end of the washing machine 5, the fifth communication pipeline and the sixth communication pipeline form a first soft water pipe 722, and the fifth communication pipeline and the seventh communication pipeline form a second soft water pipe 723.

By switching the first valve 77 and the second valve 78, the integrated water tank has at least two states:

in the first state, the inlets of the third communication pipes communicate to communicate the second tap water pipe 721; the inlet of the sixth communication passage is communicated and the inlet of the seventh communication passage is blocked so that the first soft water pipe 722 is communicated and the second soft water pipe 723 is blocked; thus, the tap water in the tap water supply line is introduced into the soft water tank 72 through the second tap water pipe 721, and the soft water formed by softening the tap water under the above-mentioned water pressure is introduced into the anode chamber 7411 and the cathode chamber 712 of the electrolysis chamber 74 through the first soft water pipe 722;

in the second state, the inlets of the third communicating pipes communicate to communicate the second tap water pipe 721; the inlet of the sixth communication passage is blocked and the inlet of the seventh communication passage is communicated such that the second soft water pipe 723 is communicated and the first soft water pipe 722 is blocked; thus, the tap water in the tap water supply line is introduced into the soft water tank 72 through the second tap water pipe 721, and the soft water formed by softening the tap water is introduced into the washing machine 5 through the second soft water pipe 723 by the aforementioned water pressure.

The control method of the electrolyzed water forming apparatus 7 is as follows:

after the electrolyzed water generating device 7 is started, corresponding actions are carried out according to the instruction of a user:

(1) A first operating mode: when a user instructs to produce acidic water and alkaline water, the first valve 77 and the second valve 78 are switched to a first state, tap water enters the salt tank 71 through the first tap water pipe 711 and is mixed with salt to form saturated salt water, under the action of the third transfer pump 7121, the saturated salt water enters the intermediate chamber 7413 of the electrolysis chamber 74 through the saturated salt water pipe 712 and is filled, tap water enters the soft water tank 72 through the second tap water pipe 721 and is softened into soft water, then the soft water enters the anode chamber 7411 and the cathode chamber 712 of the electrolysis chamber 74 through the first soft water pipe 722 and is filled, the electrolysis chamber 74 electrolyzes the saturated salt water to generate acidic water in the anode chamber 7411, generate alkaline water in the cathode chamber 7412, and then the alkaline water flows out of the acidic water tank 75 and the alkaline water tank 76 through the first water outlet and the second water outlet respectively and is stored, and simultaneously the low-concentration salt water obtained after electrolysis in the intermediate chamber 7413 returns to the salt tank 71 through the water pipe 713 and is mixed with salt water to regenerate saturated salt water;

(2) A second working mode: when the user instructs to supply soft water to the washing machine, the first valve 77 and the second valve 78 are switched to the second state, the tap water enters the soft water tank 72 through the second tap water pipe 721 to be softened into soft water, and then the soft water enters the washing machine 5 through the second soft water pipe 723;

(3) The third working mode is as follows: when the user instructs to supply the acid water to the watering can 14, the third valve 79 is switched to connect the acid water pipe 751, and the acid water in the acid water tank 75 is pumped into the watering can 14 through the acid water pipe 751 by the second delivery pump 7511, so that the acid water can be used for the sterilization of the surface of the toy, the appliance and the like;

(4) The fourth working mode: when the user instructs to supply alkaline water to the sprinkling can 14, the third valve 79 is switched to communicate the alkaline water pipe 761, and the alkaline water in the alkaline water tank 76 is pumped into the sprinkling can 14 through the alkaline water pipe 761 under the action of the second delivery pump 7511, so that the alkaline water can be used for cleaning greasy dirt on the surfaces of a table board, a range hood and the like.

Example 6:

fig. 19 shows a sixth preferred embodiment of the integrated water tank of the present invention. The difference from example 5 is that:

in this embodiment, the structure of the cleaning machine 5 is the same as that of embodiment 2, and the water inlet end of the first cleaning medium supply pipe 51 is connected to the water outlet ends of the acidic water tank 75 and the alkaline water tank 76 through the acidic water pipe 751 and the alkaline water pipe 761, respectively.

Example 7:

fig. 20 shows a seventh preferred embodiment of the integrated water tank of the present invention. The difference from example 5 is that:

in this embodiment, the structure of the garbage disposer 3 is the same as that of embodiment 3, and the water inlet end of the annular nozzle 36 is connected to the water outlet ends of the acidic water tank 75 and the alkaline water tank 76 through the acidic water pipe 751 and the alkaline water pipe 761, respectively.

Example 8:

fig. 21 shows an eighth preferred embodiment of the integrated water tank of the present invention. The difference from example 5 is that:

in this embodiment, the kitchen sterilizer 6 has the same structure as that of embodiment 4, and the water inlet end of the second cleaning medium supply pipe 63 is connected to the water outlet ends of the acid water tank 75 and the alkaline water tank 76 through the acid water pipe 751 and the alkaline water pipe 761, respectively.

Example 9:

as shown in fig. 22 and 23, a ninth preferred embodiment of the integrated water tank of the present invention is provided. The difference from example 1 is that:

in this embodiment, the electrolyzed water forming apparatus 7 omits the salt tank 71.

In addition, a water purifier 4 is arranged in the cabinet body 1, the water purifier 4 has a water inlet end, a water purifying end and a waste water end, the water inlet end of the water purifier 4 is communicated with the tap water supply pipeline through a third tap water pipe 41, the water purifying end of the water purifier 4 is communicated with the water inlet end of the water purifying tap 112 through a water purifying pipe 42, and the waste water end of the water purifier 4 is communicated with the water inlet end of the soft water tank 72 through a waste water pipe 43, so that the waste water enters the soft water tank 72 to be softened and generate concentrated water. It should be noted that: the water purifier (especially the reverse osmosis membrane is used) generates waste water (the ratio of clean water to waste water is 1.

The outlet end of the soft water tank 72 is connected to the inlet end of the rich water tank 73 through a first soft water pipe 722, so that the rich water is stored in the rich water tank 73, and the outlet end of the soft water tank 72 is connected to the inlet end of the cleaning machine 5 through a second soft water pipe 723.

Valves are provided on the third tap water pipe 41, the second tap water pipe 721, the first soft water pipe 722 and the second soft water pipe 723.

In this embodiment, the third tap water pipe 41 and the second tap water pipe 721 share the first valve 77. A first communicating pipe is connected between the tap water supply pipe and the first valve 77, a second communicating pipe is connected between the first valve 77 and the water inlet end of the water purifier 4, a third communicating pipe is connected between the first valve 77 and the water inlet end of the soft water tank 72, the first communicating pipe and the second communicating pipe form a third tap water pipe 41, and the first communicating pipe and the third communicating pipe form a second tap water pipe 721.

In this embodiment, the first and second flexible water pipes 722 and 723 share one second valve 78. A fifth communication pipeline is connected between the water outlet end of the soft water tank 72 and the second valve 78, a sixth communication pipeline is connected between the second valve 78 and the water inlet end of the thick water tank 73, a seventh communication pipeline is communicated between the second valve 78 and the water inlet end of the cleaning machine 5, the fifth communication pipeline and the sixth communication pipeline form a first soft water pipe 722, and the fifth communication pipeline and the seventh communication pipeline form a second soft water pipe 723.

By switching the first valve 77 and the second valve 78, the integrated water tank has at least two states:

in the first state, the inlets of the second and third communication passages are communicated, the inlet of the third communication passage is blocked, the inlet of the sixth communication passage is communicated, and the inlet of the seventh communication passage is blocked, so that the third and first soft water pipes 41 and 722 are communicated, and the second and second soft water pipes 721 and 723 are blocked; thus, the tap water in the tap water supply line is supplied to the water purifier 4 through the third tap water pipe 41, the purified water produced by the water purifier 4 is supplied to the purification tap 112 through the purified water pipe 42 under the aforementioned water pressure, the wastewater produced by the water purifier 4 is supplied to the soft water tank 72 through the wastewater pipe 43, and the concentrated water formed by the softening is supplied to the concentrated water tank 73 through the first soft water pipe 722 for storage;

in the second state, the inlet of the second communication pipe is blocked, the inlet of the third communication pipe is communicated, the inlet of the sixth communication passage is blocked, and the inlet of the seventh communication passage is communicated, so that the second tap water pipe 721 and the second soft water pipe 723 are communicated, and the third tap water pipe 41 and the first soft water pipe 722 are blocked; thus, the tap water in the tap water supply line is introduced into the soft water tank 72 through the second tap water pipe 721, and the soft water formed by softening the tap water is introduced into the washing machine 5 through the second soft water pipe 723 under the above-mentioned water pressure.

The control method of the electrolyzed water forming apparatus 7 is as follows:

after the electrolyzed water generating device 7 is started, corresponding actions are carried out according to the instruction of a user:

(1) A first operating mode: when the user instructs to supply purified water, the first valve 77 and the second valve 78 are switched to the first state, the tap water is introduced into the water purifier 4 through the third tap water pipe 41 to be purified to generate purified water and wastewater, wherein the purified water is supplied to the user through the purified water pipe 42 to the purification tap 112, the wastewater is introduced into the soft water tank 72 through the wastewater pipe 43 to be softened into concentrated water, is introduced into the concentrated water tank 73 to be stored, and then the concentrated water is introduced into the concentrated water tank 73 through the first soft water pipe 722 to be stored;

(2) A second operating mode: when a user indicates to produce acidic water and alkaline water, under the action of the first delivery pump 7311, the concentrated water in the concentrated water tank 73 is delivered into the electrolysis chamber 74 through the concentrated water pipe 731 for electrolysis, so as to generate acidic water in the anode chamber 7411 and alkaline water in the cathode chamber 7412, and then flows out to the acidic water tank 75 and the alkaline water tank 76 through the first water outlet end and the second water outlet end respectively for storage;

(3) The third working mode is as follows: when the user instructs to supply soft water to the washing machine, the first valve 77 and the second valve 78 are switched to the second state, the tap water enters the soft water tank 72 through the second tap water pipe 721 to be softened into soft water, and then the soft water enters the washing machine 5 through the second soft water pipe 723;

(4) The fourth working mode: when the user instructs to supply the acid water to the sprinkling can 14, the third valve 79 is switched to connect the acid water pipe 751, and the acid water in the acid water tank 75 is pumped into the sprinkling can 14 through the acid water pipe 751 by the second delivery pump 7511, so that the acid water can be used for sterilizing the surface of toys, appliances and the like;

(5) A fifth working mode: when the user instructs to supply alkaline water to the sprinkling can 14, the third valve 79 is switched to communicate the alkaline water pipe 761, and the alkaline water in the alkaline water tank 76 is pumped into the sprinkling can 14 through the alkaline water pipe 761 under the action of the second delivery pump 7511, so that the alkaline water can be used for cleaning greasy dirt on the surfaces of a table board, a range hood and the like.

It can be seen that in the present embodiment, by using the water softening tank 72 in common with the electrolyzed water generating apparatus 7 and the cleaning machine 5 and by using the waste water discharged from the water purifier 4, the electrolytic chamber 74 can generate acidic and alkaline electrolyzed water without increasing the cost, and the diaphragm and the electrode are not easily blocked by the scale, so as to be ineffective, and the service life is greatly prolonged.

Example 10:

as shown in fig. 24, a tenth preferred embodiment of the integrated sink of the present invention. The difference from example 9 is that:

in this embodiment, the structure of the cleaning machine 5 is the same as that of embodiment 2, and the water inlet end of the first cleaning medium supply pipe 51 is connected to the water outlet ends of the acidic water tank 75 and the alkaline water tank 76 through an acidic water pipe 751 and an alkaline water pipe 761, respectively.

Example 11:

fig. 25 shows an eleventh preferred embodiment of the integrated water tank of the present invention. The difference from example 9 is that:

in this embodiment, the structure of the garbage disposer 3 is the same as that of embodiment 3, and the water inlet end of the annular nozzle 36 is connected to the water outlet ends of the acidic water tank 75 and the alkaline water tank 76 through the acidic water pipe 751 and the alkaline water pipe 761, respectively.

Example 12:

fig. 26 shows a twelfth preferred embodiment of the integrated water tank of the present invention. The difference from example 9 is that:

in this embodiment, the kitchen sterilizer 6 has the same structure as that of embodiment 4, and the water inlet end of the second cleaning medium supply pipe 63 is connected to the water outlet ends of the acid water tank 75 and the alkaline water tank 76 through the acid water pipe 751 and the alkaline water pipe 761, respectively.

The term "fluid communication" as used herein refers to a spatial relationship between two components or portions (hereinafter collectively referred to as a first portion and a second portion, respectively), i.e., a fluid (gas, liquid or a mixture of both) can flow along a flow path from the first portion or/and be transported to the second portion, and may be a direct communication between the first portion and the second portion, or an indirect communication between the first portion and the second portion via at least one third element, such as a fluid channel, e.g., a pipe, a channel, a conduit, a flow guide, a hole, a groove, or a chamber that allows a fluid to flow through, or a combination thereof.

Claims (35)

1. The utility model provides an integrated water tank, includes that the top has cabinet body (1) of mesa (11), the main part is located basin (2) under mesa (11) and locate cleaning machine (5) and electrolytic water generating device (7) in the cabinet body (1), its characterized in that: the cleaning machine (5) is positioned right below the water tank (2), and the electrolyzed water generating device (7) is positioned on one side of the cleaning machine (5).

2. The integrated sink of claim 1, wherein: the electrolyzed water generating device (7) comprises

A salt tank (71) for mixing water and salt to produce a saturated salt solution, having a water inlet end and a water outlet end for discharging the saturated salt solution, the water inlet end of the salt tank (71) being in fluid communication with a tap water supply line;

the soft water tank (72) is used for softening the water body and is provided with a water inlet end for hard water to enter and a water outlet end for soft water to be discharged, and the water inlet end of the soft water tank (72) is communicated with a running water supply pipeline in a fluid mode;

the concentrated water tank (73) is used for mixing saturated salt water and soft water to generate concentrated water, and is provided with a first water inlet end, a second water inlet end and a water outlet end for discharging the concentrated water, the first water inlet end of the concentrated water tank (73) is communicated with the water outlet end of the salt tank (71) in a fluid mode, and the second water inlet end of the concentrated water tank (73) is communicated with the water outlet end of the soft water tank (72) in a fluid mode; and

an electrolysis chamber (74) for electrolyzing concentrate to produce acidic water and alkaline water, having a water inlet end, a first water outlet end for discharge of the acidic water, and a second water outlet end for discharge of the alkaline water, the water inlet end of the electrolysis chamber (74) being in fluid communication with the water outlet end of the concentrate tank (73).

3. The integrated sink of claim 2, wherein: the electrolytic chamber (74) comprises

A case (741);

a diaphragm (742) provided in the tank (741) and dividing an inner cavity of the tank (741) into an anode chamber (7411) and a cathode chamber (7412);

an anode (743) disposed in the anode chamber (7411); and

a cathode (744) disposed in the cathode chamber (7412);

the water inlet end of the electrolysis chamber (74) is communicated with the anode chamber (7411) and the cathode chamber (7412), the first water outlet end of the electrolysis chamber (74) is communicated with the anode chamber (7411), and the second water outlet end of the electrolysis chamber (74) is communicated with the cathode chamber (7412).

4. The integrated sink of claim 2, wherein: the water inlet end of the salt tank (71) is communicated with the tap water supply pipeline through a first tap water pipe (711);

the water inlet end of the soft water tank (72) is communicated with the tap water supply pipeline through a second tap water pipe (721);

the first tap water pipe (711) and the second tap water pipe (721) are respectively provided with a valve, so that the integrated water tank has at least two states:

in a first state, the first tap water pipe (711) is communicated, and the second tap water pipe (721) is blocked;

in a second state, the second tap water pipe (721) is connected and the first tap water pipe (711) is blocked.

5. The integrated sink of claim 4, wherein: the washer (5) has a water inlet end in fluid communication with the water outlet end of the soft water tank (72).

6. The integrated sink of claim 5, wherein: the water outlet end of the soft water tank (72) is communicated with the second water inlet end of the concentrated water tank (73) through a first soft water pipe (722), and is communicated with the water inlet end of the cleaning machine (5) through a second soft water pipe (723);

the first soft water pipe (722) and the second soft water pipe (723) are respectively provided with a valve, so that the integrated water tank has a third state:

in the second state, the first soft water pipe (722) is communicated, and the second soft water pipe (723) is blocked;

in the third state, the second tap water pipe (721) is connected, the first tap water pipe (711) is blocked, the second soft water pipe (723) is connected, and the first soft water pipe (722) is blocked.

7. The integrated sink of claim 6, wherein: the first tap water pipe (711) and the second tap water pipe (721) share a first valve (77).

8. The integrated sink of claim 7, wherein: a first communication pipeline is connected between the tap water supply pipeline and the first valve (77), a second communication pipeline is connected between the first valve (77) and the water inlet end of the salt tank (71), a third communication pipeline is connected between the first valve (77) and the water inlet end of the soft water tank (72), the first communication pipeline and the second communication pipeline form the first tap water pipe (711), and the first communication pipeline and the third communication pipeline form the second tap water pipe (721);

in a first state, the inlet of the second communication pipeline is communicated, and the inlet of the third communication pipeline is blocked;

in the second and third states, the inlet of the second communication conduit is blocked and the inlet of the third communication conduit is communicated.

9. The integrated sink of claim 6, wherein: the first and second flexible water pipes (722, 723) share a second valve (78).

10. The integrated sink of claim 9, wherein: a fifth communication pipeline is connected between the water outlet end of the soft water tank (72) and the second valve (78), a sixth communication pipeline is connected between the second valve (78) and the second water inlet end of the thick water tank (73), a seventh communication pipeline is communicated between the second valve (78) and the water inlet end of the cleaning machine (5), the fifth communication pipeline and the sixth communication pipeline form the first soft water pipe (722), and the fifth communication pipeline and the seventh communication pipeline form the second soft water pipe (723);

in the first and second states, the inlet of the sixth communication passage is communicated, and the inlet of the seventh communication passage is blocked;

in the third state, the inlet of the sixth communication passage is blocked, and the inlet of the seventh communication passage is communicated.

11. The integrated sink of claim 4, wherein: the salt tank (71) is internally provided with a temperature monitoring device (713) for monitoring the temperature of saturated saline water, the integrated water tank is provided with a controller, and the temperature monitoring device (713) and valves on the first tap water pipe (711) and the second tap water pipe (721) are electrically connected with the controller, so that the controller can receive signals collected by the temperature monitoring device (713) and control the on-off of the first tap water pipe (711) and the second tap water pipe (721).

12. The integrated sink of claim 11, wherein: the electrolytic chamber (74) also comprises a current monitoring device (740) for monitoring the current between the cathode and the anode, and the current monitoring device (740) is electrically connected with the controller, so that the controller can receive signals collected by the current monitoring device (740) and control the on-off of the first tap water pipe (711) and the second tap water pipe (721).

13. The integrated sink of claim 2, wherein: the salt tank (71) is communicated with the soft water tank (72) through a backflushing channel (720), and a valve for controlling the on-off of the backflushing channel (720) is arranged at the backflushing channel.

14. The integrated sink of claim 1, wherein: the electrolyzed water generating device (7) comprises

The salt tank (71) is used for mixing water and salt to generate saturated salt water, and is provided with a water inlet end, a water outlet end for discharging the saturated salt water and a water return end for recovering the salt water, and the water inlet end of the salt tank (71) is communicated with a tap water supply pipeline in a fluid mode;

the soft water tank (72) is used for softening a water body and is provided with a water inlet end for hard water to enter and a water outlet end for soft water to be discharged, and the water inlet end of the soft water tank (72) is in fluid communication with a tap water supply pipeline; and

the electrolysis chamber (74) is used for electrolyzing saturated salt water and soft water to generate acidic water and alkaline water and is provided with a first water inlet end, a second water inlet end, a third water inlet end, a water discharging end, a first water outlet end for discharging the acidic water and a second water outlet end for discharging the alkaline water, the first water inlet end of the electrolysis chamber (74) is in fluid communication with the water outlet end of the salt tank (71), the second water inlet end and the third water inlet end of the electrolysis chamber (74) are in fluid communication with the water outlet end of the soft water tank (72), and the water discharging end of the electrolysis chamber (74) is in fluid communication with the water return end of the salt tank (71).

15. The integrated sink of claim 14, wherein: the electrolytic chamber (74) comprises

A case (741);

two diaphragms (742) arranged side by side are arranged in the box body (741), and the inner cavity of the box body (741) is divided into an anode chamber (7411), an intermediate chamber (7413) and a cathode chamber (7412) which are arranged in sequence;

an anode (743) disposed in the anode chamber (7411); and

a cathode (744) disposed in the cathode chamber (7412);

the first water inlet end and the first water outlet end of the electrolysis chamber (74) are communicated with the intermediate chamber, the second water inlet end and the first water outlet end of the electrolysis chamber (74) are communicated with the anode chamber (7411), and the third water inlet end and the second water outlet end of the electrolysis chamber (74) are communicated with the cathode chamber (7412).

16. The integrated sink of claim 14, wherein: the washer (5) has a water inlet end in fluid communication with the water outlet end of the soft water tank (72).

17. The integrated sink of claim 16, wherein: the water outlet end of the soft water tank (72) is communicated with the second water inlet end and the third water inlet end of the electrolysis chamber (74) through a first soft water pipe (722), and is communicated with the water inlet end of the cleaning machine (5) through a second soft water pipe (723);

the first flexible water pipe (722) and the second flexible water pipe (723) are respectively provided with a valve, so that the integrated water tank has at least two states:

in the first state, the first soft water pipe (722) is communicated, and the second soft water pipe (723) is blocked;

in the second state, the second soft water pipe (723) is communicated, and the first soft water pipe (722) is blocked.

18. The integrated sink of claim 17, wherein: the first flexible water pipe (722) and the second flexible water pipe (723) share a second valve (78).

19. The integrated sink of claim 18, wherein: a fifth communication pipeline is connected between the water outlet end of the soft water tank (72) and the second valve (78), a sixth communication pipeline is connected between the second valve (78) and the second water inlet end and the third water inlet end of the electrolysis chamber (74), a seventh communication pipeline is communicated between the second valve (78) and the water inlet end of the cleaning machine (5), the fifth communication pipeline and the sixth communication pipeline form the first soft water pipe (722), and the fifth communication pipeline and the seventh communication pipeline form the second soft water pipe (723);

in the first state, the inlet of the sixth communication channel is communicated, and the inlet of the seventh communication channel is blocked;

in the second state, the inlet of the sixth communication passage is blocked, and the inlet of the seventh communication passage is communicated.

20. The integrated sink of claim 14, wherein: the salt tank (71) is communicated with the soft water tank (72) through a backflushing channel (720), and a valve for controlling the on-off of the backflushing channel (720) is arranged at the backflushing channel.

21. The integrated sink of claim 1, wherein: a water purifier (4) is arranged in the cabinet body (1), the water purifier (4) is provided with a water inlet end, a water purifying end and a waste water end, and the water inlet end of the water purifier (4) is in fluid communication with a tap water supply pipeline;

the electrolyzed water generating device (7) comprises

The soft water tank (72) is used for softening a water body and is provided with a water inlet end for hard water to enter and a water outlet end for soft water to be discharged, and the water inlet end of the soft water tank (72) is communicated with the wastewater end of the water purifier (4) in a fluid mode so that wastewater enters the soft water tank (72) to be softened and generates concentrated water;

a concentrate tank (73) for storing concentrate having a water inlet end and a water outlet end, the water inlet end of the concentrate tank (73) being in fluid communication with the water outlet end of the soft water tank (72); and

an electrolysis chamber (74) for electrolyzing concentrate to produce acidic water and alkaline water, having a water inlet end, a first water outlet end for discharge of acidic water and a second water outlet end for discharge of alkaline water, the water inlet end of the electrolysis chamber (74) being in fluid communication with the water outlet end of the concentrate tank (73).

22. The integrated sink of claim 21, wherein: the electrolytic chamber (74) comprises

A case (741);

a diaphragm (742) provided in the tank (741) and dividing an inner cavity of the tank (741) into an anode chamber (7411) and a cathode chamber (7412);

an anode (743) disposed in the anode chamber (7411); and

a cathode (744) disposed in the cathode chamber (7412);

the water inlet end of the electrolysis chamber (74) is communicated with the anode chamber (7411) and the cathode chamber (7412), the first water outlet end of the electrolysis chamber (74) is communicated with the anode chamber (7411), and the second water outlet end of the electrolysis chamber (74) is communicated with the cathode chamber (7412).

23. The integrated sink of claim 21, wherein: the cleaning machine (5) is provided with a water inlet end, the water inlet end of the soft water tank (72) is communicated with a tap water supply pipeline in a fluid mode, and the water outlet end of the soft water tank (72) is communicated with the water inlet end of the cleaning machine (5) in a fluid mode.

24. The integrated sink of claim 23, wherein: the water inlet end of the water purifier (4) is communicated with the tap water supply pipeline through a third tap water pipe (41), and the wastewater end of the water purifier (4) is communicated with the water inlet end of the soft water tank (72) through a wastewater pipe (43);

the water inlet end of the soft water tank (72) is communicated with the tap water supply pipeline through a second tap water pipe (721), the water outlet end of the soft water tank (72) is communicated with the water inlet end of the concentrated water tank (73) through a first soft water pipe (722), and the water outlet end of the soft water tank (72) is communicated with the water inlet end of the cleaning machine (5) through a second soft water pipe (723);

valves are arranged on the third tap water pipe (41), the second tap water pipe (721), the first soft water pipe (722) and the second soft water pipe (723), so that the integrated water tank has at least two states:

in the first state, the third tap water pipe (41) is communicated with the first soft water pipe (722), and the second tap water pipe (721) and the second soft water pipe (723) are blocked;

in the second state, the second tap water pipe (721) and the second soft water pipe (723) are communicated, and the third tap water pipe (41) and the first soft water pipe (722) are blocked.

25. The integrated sink of claim 24, wherein: the third tap water pipe (41) and the second tap water pipe (721) share a first valve (77).

26. The integrated sink of claim 25, wherein: a first communication pipeline is connected between the tap water supply pipeline and the first valve (77), a second communication pipeline is connected between the first valve (77) and the water inlet end of the water purifier (4), a third communication pipeline is connected between the first valve (77) and the water inlet end of the soft water tank (72), the first communication pipeline and the second communication pipeline form the third tap water pipe (41), and the first communication pipeline and the third communication pipeline form the second tap water pipe (721);

in the first state, the inlet of the second communication pipeline is communicated, and the inlet of the third communication pipeline is blocked;

in the second state, the inlet of the second communication channel is blocked and the inlet of the third communication channel is communicated.

27. The integrated sink of claim 24, wherein: the first flexible water pipe (722) and the second flexible water pipe (723) share a second valve (78).

28. The integrated sink of claim 27, wherein: a fifth communication pipeline is connected between the water outlet end of the soft water tank (72) and the second valve (78), a sixth communication pipeline is connected between the second valve (78) and the water inlet end of the concentrated water tank (73), a seventh communication pipeline is communicated between the second valve (78) and the water inlet end of the cleaning machine (5), the fifth communication pipeline and the sixth communication pipeline form the first soft water pipe (722), and the fifth communication pipeline and the seventh communication pipeline form the second soft water pipe (723);

in the first state, the inlet of the sixth communication channel is communicated, and the inlet of the seventh communication channel is blocked;

in the second state, the inlet of the sixth communication passage is blocked, and the inlet of the seventh communication passage is communicated.

29. The integrated sink of claim 21, wherein: the water purifier is characterized in that a water purifying faucet (112) is mounted on the table top (11), the water purifying faucet (112) is provided with a water inlet end and a water outlet end, the water inlet end of the water purifying faucet (112) is communicated with the water purifying end of the water purifier (4) through a water purifying pipe (42), and the water outlet end of the water purifying faucet (112) faces towards the top opening of the water tank (2).

30. The integrated sink according to any one of claims 2 to 29, wherein: the electrolyzed water generating device (7) also comprises

An acid water tank (75) for storing acid water having an inlet end and an outlet end, the inlet end of the acid water tank (75) being in fluid communication with the first outlet end of the electrolysis chamber (74); and

an alkaline water tank (76) for storing alkaline water having an inlet end and an outlet end, the inlet end of the alkaline water tank (76) being in fluid communication with the second outlet end of the electrolysis chamber (74).

31. The integrated sink of claim 30, wherein: the spraying pot (14) is arranged on the table board (11), the spraying pot (14) is provided with a water inlet end and a water outlet end, the water inlet end of the spraying pot (14) is communicated with the water outlet ends of the acidic water tank (75) and the alkaline water tank (76) through an acidic water pipe (751) and an alkaline water pipe (761), and the water outlet end of the spraying pot (14) is exposed on the upper surface of the table board (11).

32. The integrated sink of claim 30, wherein: the cleaning machine (5) is internally provided with a cleaning cavity (50) for accommodating articles to be cleaned, the cleaning machine (5) is provided with a first cleaning medium supply pipe (51), the first cleaning medium supply pipe (51) is provided with a water inlet end and a water outlet end, the water inlet end of the first cleaning medium supply pipe (51) is communicated with the water outlet ends of the acidic water tank (75) and the alkaline water tank (76) through an acidic water pipe (751) and an alkaline water pipe (761), the water outlet end of the first cleaning medium supply pipe (51) is provided with a first spray head (511), and a spray hole of the first spray head (511) faces the articles to be cleaned accommodated in the cleaning cavity (50).

33. The integrated sink of claim 30, wherein: the garbage disposer is characterized in that a garbage disposer (3) is arranged in the cabinet body (1), the garbage disposer (32) comprises a disposal barrel (32) and an annular spray pipe (36) used for cleaning the disposal barrel (32), the annular spray pipe (36) is provided with a water inlet end and a water outlet end, the water inlet end of the annular spray pipe (36) is respectively communicated with the water outlet ends of the acidic water tank (75) and the alkaline water tank (76) through an acidic water pipe (751) and an alkaline water pipe (761), at least two spray holes (361) arranged at intervals along the circumferential direction are formed in the circumferential wall of one side, facing the inner cavity of the disposal barrel (32), of the annular spray pipe (36), and the spray holes (361) form the water outlet end of the annular spray pipe (36).

34. The integrated sink of claim 30, wherein: the table top (11) is provided with a kitchen utensil sterilizer (6), and the kitchen utensil sterilizer (6) comprises

A housing (61) having a sterilization chamber (611) therein and an open top (612);

a draining rack (62) accommodated in said disinfection chamber (611) for kitchen utensils to rest on; and

and the second cleaning medium supply pipe (63) is provided with a water inlet end and a water outlet end, the water inlet end of the second cleaning medium supply pipe (63) is communicated with the water outlet ends of the acidic water tank (75) and the alkaline water tank (76) through an acidic water pipe (751) and an alkaline water pipe (761), the water outlet end of the second cleaning medium supply pipe (63) is provided with a second spray head (631), and spray holes of the second spray head (631) face to kitchen utensils placed on the draining rack (62).

35. The integrated sink according to any one of claims 1 to 29, wherein: and a water outlet (21) is formed in the bottom surface of the water tank (2), and the water outlet (21) and the cleaning machine (5) are arranged in a staggered manner in the vertical direction.

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