CN217780821U - Water purifier device with built-in electrode bacteriostatic component - Google Patents

Abstract

The utility model provides an it has water purifier device of antibacterial subassembly of electrode to embed, including the purifier main part, be equipped with the water inlet solenoid valve of pipe connection in inlet tube kneck in the purifier main part, the output pipe connection of water inlet solenoid valve has filtering component, filtering component's output pipe connection has the antibacterial subassembly of electrode that is used for carrying out electrolysis treatment to the water source in the storage water tank with the inside cavity intercommunication of storage water tank, the output pipe connection of the antibacterial subassembly of electrode has electric heater subassembly, electric heater subassembly's output passes through the pipe connection purifier and goes out the water outlet end, it has the liquid level measurement subassembly that is used for measuring the water level in the storage water tank still to have through the pipe connection on the antibacterial subassembly of electrode. The utility model provides a pair of built-in purifier device that has bacteriostatic subassembly of electrode produces hydroxyl and ozone through the electrolysis water to reach the antibacterial action that disinfects to the water in the purifier, can reduce its treatment cost when improving the bactericidal treatment effect.

Description

Water purifier device with built-in electrode bacteriostatic component

Technical Field

The utility model relates to a water treatment technical field especially relates to a built-in purifier device that has antibacterial subassembly of electrode.

Background

At present, along with environmental pollution's gradual aggravation, the water storage containers such as pure water tank, water purification case, former water tank on the common purifier on the market, because of mostly be the UNICOM with the atmosphere, and its water tank generally in the machine the inside, the most shade and humidity of environment, use the easy bacterium of nourishing of water purification case after a period, cause secondary pollution to the water purification, influence drinking water health.

Chinese patent application No. CN201821460575.1 discloses a water purifier with hydrogen-rich and UV sterilization functions, which adopts a treatment mode of setting a hydrogen-rich device and a UV germicidal lamp in a water purification tank to sterilize and disinfect water molecules, but finds in practice that the sterilization treatment effect of the treatment mode needs higher treatment cost if the expected effect is required to be achieved, and most of the structures are complex and easily cause pollution to the environment.

Therefore, it is desirable to provide a water purifier device with an electrode bacteriostatic component to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides an it has the purifier device of electrode antibacterial component to embed, produces hydroxyl and ozone through the electrolysis water to reach the antibacterial action that disinfects to the water in the purifier, can reduce its treatment cost when improving the bactericidal treatment effect.

For solving the technical problem, the utility model discloses a technical scheme provide an it has bacteriostatic electrode assembly's water purifier device to embed, including purifier main part 1, be equipped with the water inlet solenoid valve 8 of pipe connection in inlet tube interface 10 department in the purifier main part 1, the output pipe connection of water inlet solenoid valve 8 has the filtering component 3 that is used for carrying out filtration treatment to the water source that flows in, the output pipe connection of filtering component 3 has with 2 inside cavities of storage water tank intercommunication be used for right the water source in storage water tank 2 carries out the bacteriostatic electrode assembly 4 of electrolysis treatment, the output pipe connection of bacteriostatic electrode assembly 4 has the electric heater subassembly 6 that is used for carrying out the heating to the water source of output to water purification machine 9, the output of electric heater subassembly 6 passes through the pipe connection purifier water outlet 9, it is used for measuring still to have through the pipe connection on the bacteriostatic electrode subassembly 4 the liquid level measurement subassembly 7 of the water level height in the storage water tank 2, electrode subassembly 4 electric heater subassembly 6 with the water inlet solenoid valve 8 is connected with the display and control panel 5 electricity through the intercommunication wire respectively.

Preferably, including install in the electrode bacteriostatic component 4 the cavity quick-operation joint 41 on the 2 outer walls of storage water tank, be equipped with in the cavity quick-operation joint 41 with the cavity 42 of storage water tank 2 intercommunication, be equipped with on the cavity quick-operation joint 41 insert to be used for in the cavity 42 right the water source of storage water tank 2 carries out electrolysis's electrode group 43, still be equipped with on the cavity quick-operation joint 41 respectively independently with the inhalant canal 44 of cavity 42 intercommunication with go out water passageway 45, inhalant canal 44 passes through the pipe connection filtering component 3, it passes through the pipe connection to go out water passageway 45 electric heater component 6, liquid level measurement subassembly 7 passes through the pipe connection cavity quick-operation joint 41, electrode group 45 through the intercommunication wire with the purifier shows the accuse panel 5 electricity and connects.

Preferably, the electrode group 43 comprises two parallel anode strips 431 and two parallel cathode strips 432, one end of each of the anode strips 431 and the cathode strips 432 is inserted into the hollow quick connector 41, and the other end is electrically connected with the display and control panel 5 of the water purifier through a communication wire as an electric wire insertion piece.

Preferably, the anode tab 431 is an electrode made of ruthenium-iridium or iridium-tantalum-tin coating titanium as a base material, and the cathode tab 432 is an electrode made of stainless steel or titanium material.

Preferably, be equipped with on the purifier main part 1 inwards sunken be used for supplying 2 cartridges of storage water tank are in water tank groove 11 wherein, be equipped with in the water tank groove 11 be used for with 2 blocks of storage water tank establish the connecting seat 13 of connection, be equipped with in the connecting seat 13 be used for with the vertical passageway 131 of 2 inside cavities of storage water tank intercommunication, be equipped with in the vertical passageway 131 be used for with vertical passageway 131 with the valve switch of 4 intercommunications of electrode bacteriostatic component, electrode bacteriostatic component 4 locates the bottom of connecting seat 13 and with vertical passageway 131 intercommunication.

Preferably, including being used for in the valve switch 2 cartridge be in the connecting seat 13 when the valve body 133 of downward action, the cover is equipped with on the valve body 133 and is used for the storage water tank 2 follow when taking out from on the connecting seat 13 the pulling the reset spring 134 of valve body 133 upward action, valve body 133 is close to one of electrode bacteriostatic component 4 is served to the outside arch be used for with the terminal card of vertical passageway 131 establishes the chimb 135 of being connected.

Preferably, the tank 11 includes two notches 15 with different directions, wherein one of the notches 15 faces upward and the other notch 15 faces leftward.

Preferably, the water purifier main body 1 is further provided with an opening 12 for inserting the filter assembly 3 into the water purifier main body 1, and a waste water pipe interface 16 connected with the filter assembly 3 through a pipeline and used for allowing waste water in the filter assembly 3 to flow out.

Preferably, including being used for in the liquid level measurement subassembly 7 to the purifier shows control panel 5 and sends liquid level information so that the purifier shows control panel 5 control the liquid level switch and the both ends that the work was opened and close to water solenoid valve 8 communicate with each other and be used for measuring the U type pipeline 72 of water level height in the storage water tank 2, the one end of U type pipeline 72 is passed through electrode bacteriostatic component 4 inserts to in the storage water tank 2, the other end with liquid level switch connects.

The water purifier is characterized in that the front side end of the water purifier main body 1 is hinged with a water receiving box 14 which protrudes forwards and is symmetrically arranged at the lower end of the water outlet end 9 of the water purifier, and an inwards-concave groove 17 is formed between the water receiving box 14 and the water outlet end 9 of the water purifier.

The utility model has the advantages that: the utility model provides a pair of built-in purifier device that has bacteriostatic subassembly of electrode produces hydroxyl and ozone through the electrolysis water to reach the antibacterial action that disinfects to the water in the purifier, can reduce its treatment cost when improving the bactericidal treatment effect.

Drawings

Fig. 1 is an internal structure diagram of a water purifier device with an electrode bacteriostatic component built in according to the present invention;

fig. 2 is a whole structure diagram of a water purifier device with an electrode bacteriostatic component built in according to the present invention;

fig. 3 is an angle complete machine structure diagram of another angle complete machine structure diagram of a water purifier device with an electrode bacteriostatic component built in according to the present invention;

FIG. 4 is a view of the entire machine of the water removal storage tank and the filter assembly shown in FIG. 3;

FIG. 5 is a diagram of the usage state of the liquid level measuring assembly and the electrode bacteriostatic assembly;

FIG. 6 is a structural diagram of an electrode bacteriostatic component;

FIG. 7 is a cross-sectional view of the structure shown in FIG. 6 at A;

fig. 8 is a front view structural diagram of the water purifier main body;

FIG. 9 is a cross-sectional view of the structure shown in FIG. 8 at B;

fig. 10 is an enlarged view of the structure shown in fig. 9 at C.

The names of the parts corresponding to the numerical identifiers in the drawings of the specification are respectively as follows:

a water purifier main body 1; a water storage tank 2; a filter assembly 3; an electrode bacteriostatic component 4; a display control panel 5 of the water purifier; an electric heater assembly 6; a liquid level measuring assembly 7; a water inlet electromagnetic valve 8; a water outlet end 9 of the water purifier; a water inlet pipe interface 10; a tank 11; an opening 12; a connecting seat 13; a water receiving box 14; a notch 15; a waste pipe interface 16; a groove 17; a card slot 21; a nozzle 22; a hollow quick connector 41; a cavity 42; an electrode group 43; a water inlet passage 44; a water outlet passage 45; a liquid level switch 71; a U-shaped pipe 72; a vertical channel 131; a valve switch 132; a valve body 133; a return spring 134; a rim 135; an anode tab 431; the cathode sheet 432.

Detailed Description

The technical solution of the present invention will be described in detail with reference to the drawings.

Referring to fig. 1 to 10, the water purifier device with built-in electrode bacteriostatic component of the present embodiment includes a water purifier main body 1, a water inlet solenoid valve 8 connected to a water inlet pipe joint 10 in the water purifier main body 1 via a pipeline, a filter component 3 connected to an output end of the water inlet solenoid valve 8 for filtering an inflowing water source, an electrode bacteriostatic component 4 connected to an output end of the filter component 3 and communicated with an internal cavity of the water storage tank 2 for electrolyzing the water source in the water storage tank 2, an electric heater component 6 connected to an output end of the electrode bacteriostatic component 4 for heating the water source output to a water outlet end 9 of the water purifier, an output end of the electric heater component 6 connected to a water outlet end 9 of the water purifier via a pipeline, a liquid level measuring component 7 connected to the electrode bacteriostatic component 4 via a pipeline for measuring a water level in the water storage tank 2, and the electrode bacteriostatic component 4, the electric heater component 6 and the water inlet solenoid valve 8 are electrically connected to a water purifier display and control panel 5 via a connecting wire.

In this embodiment, the user controls the start of the water inlet solenoid valve 8 through the water purifier display control panel 5 arranged on the front end face of the water purifier main body 1, so that tap water enters the filtering component 3 from the water inlet pipe interface 10 for filtration and purification, then the filtered tap water can flow to the electrode bacteriostatic component 4 through a pipeline, and then enters the water storage tank 2, then the electrode bacteriostatic component 4 can perform electrolytic reaction on water molecules stored in the water storage tank 2 and release hydroxyl and ozone when the current applied from the outside is received, so as to achieve the sterilization and bacteriostasis effects on the water in the overflowing electrode bacteriostatic device, then the user controls the water outlet end 9 of the water purifier through the water purifier display control panel 5 to discharge water downwards, the water in the water storage tank 2 can be pumped into the electric heater component 6 through the water suction pump, so that the electric heater component 6 can rapidly heat the flowing water and then flow to the water outlet end 9 of the water purifier.

In this embodiment, when the water level in storage water tank 2 exceeded the response scope of liquid level measurement subassembly 7, liquid level measurement subassembly 7 can show the control panel 5 with this signal feedback to the purifier, can show the water level condition in current storage water tank 2 on the purifier display control panel 5 afterwards, but later the purifier display control panel 5 self-closing intake solenoid valve 8 stops system water, avoids the water source in the storage water tank 2 to overflow.

In this embodiment, the display and control panel 5 of the water purifier can be arranged on the front end surface of the main body 1 of the water purifier and is installed on one side of the water outlet end 9 of the water purifier, the water outlet end 9 of the water purifier can be respectively and electrically connected with the electrode bacteriostatic component 4, the electric heater component 6 and the water inlet electromagnetic valve 8 through the communication wires, and the display and control panel 5 of the water purifier can display the states of the components in the water purifier, such as the state that the electric heater component 6 is in a heating state or is heated completely.

Preferably, including installing cavity quick-operation joint 41 on storage water tank 2 outer wall in the electrode bacteriostasis subassembly 4, be equipped with the cavity 42 with storage water tank 2 intercommunication in the cavity quick-operation joint 41, be equipped with the electrode group 43 that is used for carrying out electrolysis treatment to storage water tank 2's water source that inserts to the cavity 42 in the cavity quick-operation joint 41, still independently be equipped with inhalant canal 44 and exhalant canal 45 with cavity 42 intercommunication on the cavity quick-operation joint 41 respectively, inhalant canal 44 passes through pipe connection filtering component 3, exhalant canal 45 passes through pipe connection electric heater unit 6, liquid level measurement subassembly 7 passes through pipe connection cavity quick-operation joint 41, electrode group 45 is connected with purifier display and control panel 5 electricity through the intercommunication wire.

In this embodiment, the electrode bacteriostatic component 4 of this application is connected on the bottom or the lateral wall of storage water tank 2, and this application does not do any restriction, when applying external current to electrode group 43, can produce electrolytic reaction and release hydroxyl and ozone through the hydrone that advances water passageway 44 and flow into cavity 42 to reach the water that goes up in the class electrode bacteriostatic device and disinfect the bacteriostasis.

In this embodiment, the electrode assembly 43 of the present application can continuously electrolyze in water to generate an oxidizing substance, so as to change the oxidation-reduction potential of the water body, thereby achieving the effect of inhibiting the mass propagation of bacteria,

in this embodiment, the electrode assembly 43 of the present application can continuously generate a large amount of oxidized ions, radicals, and free radicals in water during the electrolytic reaction, and under the synergistic effect with the electromagnetic field, these trace amounts of oxidizing substances can effectively prevent the mass propagation of microorganisms, and inhibit the rooting and germination of algae spores in water, thereby reducing the turbidity of circulating water, reducing the generation of biological soft scale, reducing the corrosion under scale, and replacing the addition of bactericide.

Preferably, the electrode set 43 includes two parallel anode strips 431 and cathode strips 432, one end of the anode strips 431 and the other end of the cathode strips 432 are inserted into the hollow quick connector 41, and the other end is electrically connected with the display and control panel 5 of the water purifier through a communication lead as an electric wire plug.

In this embodiment, the power of the electrode bacteriostatic component 4 of the present application is generally a low power design, and then the anode sheet 431 and the cathode sheet 432 can slowly perform complete sterilization and bacteriostatic treatment on water molecules in the water storage tank 2.

In this embodiment, the anode sheets 431 and the cathode sheets 432 may be one or more, and the present application is not limited thereto, and a certain distance is left between adjacent anode sheets 431 and cathode sheets 432.

In this embodiment, the other end of the anode sheet 431 can be conducted with the anode of the external power source, the other end of the cathode sheet 432 can be conducted with the cathode of the external power source, when the water molecules in the water storage tank 2 are in contact with the anode sheet 431, the water molecules can be in a power-off state, so that an electrolytic reaction can be generated and ozone ions can be released, and the water molecules in contact with the cathode sheet 432 can be in a power-on state, so that an electrolytic reaction can be generated and hydroxyl ions can be released.

Preferably, the anode tab 431 is an electrode made of ruthenium iridium or iridium tantalum tin coated titanium as a base material, and the cathode tab 432 is an electrode made of stainless steel or a titanium material.

In this embodiment, the anode sheet 31 and the cathode sheet 32 may be electrodes made of other inert metals, and the present application is not limited thereto.

Preferably, purifier main part 1 is last to be equipped with inside sunken water tank groove 11 that is used for supplying 2 cartridge of storage water tank to wherein, is equipped with in the water tank groove 11 to be used for establishing the connecting seat 13 of being connected with 2 calories of storage water tank, is equipped with in the connecting seat 13 to be used for establishing the vertical passageway 131 of being connected with the inside cavity of storage water tank 2, is equipped with in the vertical passageway 131 to be used for the valve switch with vertical passageway 131 and the intercommunication of electrode bacteriostatic component 4, electrode bacteriostatic component 4 locates the bottom of connecting seat 13 and communicates with vertical passageway 131.

In this embodiment, the valve switch is equivalent to a water stop valve, and when storage water tank 2 cartridge was at connecting seat 13, the valve switch can be in the on-state, and then circulates to the vertical passageway 131 upflow of water accessible of electrode bacteriostatic component 4, and when storage water tank 2 was taken out, the valve switch is accessible time closed to rivers in making the vertical passageway can not flow.

Preferably, the valve switch includes a valve body 133 for moving downwards when the water storage tank 2 is inserted into the connecting seat 13, the valve body 133 is sleeved with a return spring 134 for pulling the valve body 133 to move upwards when the water storage tank 2 is pulled away from the connecting seat 13, and a flange 135 for being connected with the end of the vertical channel 131 is protruded outwards at one end of the valve body 133 close to the electrode bacteriostatic component 4.

In this embodiment, the valve body 133 can do up-and-down telescopic motion at the opening of the vertical channel 131, when the water storage tank 2 is inserted in the connecting seat 13, the valve body 133 can be moved downward by the force of the downward movement of the water storage tank 2, and then the valve body 133 can be changed into an open state from the state of being originally closed at the opening of the vertical channel 131, and then a gap for water to flow in can be formed between the valve body 133 and the opening of the vertical channel 131, and when the water storage tank 2 is drawn away, the force exerted on the valve body can disappear along with the drawing away of the water storage tank 2, then the return spring 134 can be changed into a telescopic state from a compressed state, and then the valve body 133 can be pulled to move upward until the convex edge 135 of the valve body 133 is clamped at the tail end of the vertical channel 131, and then the valve body 133 can be closed and arranged at the opening of the vertical channel 131, and no water flows in from the gap.

In this embodiment, the bottom of storage water tank 2 is upwards sunken to have and is used for supplying connecting seat 13 card to go into the draw-in groove wherein, and the middle part of draw-in groove is equipped with the mouth of pipe that is used for making vertical passageway 131 and 2 inside cavities of storage water tank communicate, is equipped with the valve that switches on when storage water tank 2 cartridge is on connecting seat 13 in the mouth of pipe.

In this embodiment, the effect of valve is the same with the valve switch, also is equivalent to a stagnant water valve, and when storage water tank 2 cartridge was in connecting seat 13, the valve can be in the on-state, and then circulates to the water accessible mouth of pipe upflow of vertical passageway 131, and when storage water tank 2 was taken out from, the valve can in time be closed to make the water in the mouth of pipe can not flow backwards out.

In this embodiment, a handle convenient for extraction is further provided on the outer side wall of the water storage tank 2.

Preferably, the tank sump 11 includes two differently oriented notches 15, one notch 15 oriented upward and the other notch 15 oriented to the left.

In this embodiment, the design of notch 15 of this application water tank groove 11 can let storage water tank 2 when being convenient for the cartridge, let storage water tank 2 stabilize the setting, can not take place to empty because of the collision.

In this embodiment, the upper wall of the water storage tank 2 may be provided with a spout protruding outward, and the upper wall of the tank 11 may be recessed downward with a notch 15 for matching with the spout 23.

Preferably, the water purifier body 1 is further provided with an opening 12 for inserting the filtering component 3 into the water purifier body 1, and a waste water pipe interface 16 connected with the filtering component 3 through a pipeline and used for discharging waste water in the filtering component 3.

In this embodiment, can be including being equipped with the filter core body and being used for installing the installed part of filter core subassembly in the filtering component 3, after the running water got into the filter core body through water inlet solenoid valve 8 and filters, the waste water accessible pipeline of filtering flowed to on the waste pipe interface 16, and the clean water source accessible pipeline of filtering flowed to on the electrode bacteriostatic component 4.

Preferably, the liquid level measuring component 7 comprises a liquid level switch for sending liquid level information to the water purifier display and control panel 5 so that the water purifier display and control panel 5 controls the water inlet electromagnetic valve 8 to be opened and closed and a U-shaped pipeline 72 with two ends communicated with each other and used for measuring the height of the water level in the water storage tank 2, one end of the U-shaped pipeline 72 is inserted into the water storage tank 2 through the electrode bacteriostatic component 4, and the other end of the U-shaped pipeline is connected with the liquid level switch.

In this embodiment, the U-shaped pipe 72 communicates between the water storage tank 2 and the liquid level switch to form a communicating device, and then when the water in the water storage tank 2 is added to a predetermined height water level, because of the relationship of pressure, the liquid level switch of the communicating on the other end of the U-shaped pipe 72 can sense the water level height of the current water storage tank 2, and then the liquid level switch can control the water inlet electromagnetic valve 8 to close the valve to stop water production through the water purifier display control panel 5, so as to avoid the water source in the water storage tank 2 from overflowing.

Preferably, the front side end of the water purifier main body 1 is hinged with a water receiving box 14 which is protruded forwards and is symmetrically arranged at the lower end of the water outlet end 9 of the water purifier, and an inwards concave groove 17 is arranged between the water receiving box 14 and the water outlet end 9 of the water purifier.

In this embodiment, the diameter length of the two ends of the groove 17 is greater than the diameter length of the two ends of a common water cup, so that the water cup can be accommodated in the two ends of the groove 17, and further when a user places the water cup on the water receiving box 14 for receiving water, the design of the groove 17 can ensure that the water cup does not incline due to too light weight.

It can be seen that, in the water purifier device with the built-in electrode bacteriostatic component described in fig. 1 to 10, the water is electrolyzed to generate hydroxyl and ozone, so as to achieve the effect of sterilizing and bacteriostatic the water in the water purifier device, and the treatment cost can be reduced while the sterilization treatment effect is improved.

In addition, the water purifier device with the built-in electrode bacteriostatic component, which is described in fig. 1 to 10, has the advantage of more compact and simpler structure.

The above is only the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures made by the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the same reason as the protection scope of the present invention.

Claims (10)

1. The utility model provides an it has purifier device of bacteriostatic subassembly of electrode which characterized in that to embed: including purifier main part (1), be equipped with water inlet solenoid valve (8) of pipe connection in water inlet pipe interface (10) department in purifier main part (1), the output pipe connection of water inlet solenoid valve (8) has filtering component (3) that are used for carrying out filtration treatment to the water source that flows in, the output pipe connection of filtering component (3) have with storage water tank (2) inside cavity intercommunication be used for right the water source in storage water tank (2) carries out electrolysis treatment's electrode bacteriostasis subassembly (4), the output pipe connection of electrode bacteriostasis subassembly (4) has and is used for carrying out electric heater subassembly (6) that heat to the water source of exporting to purifier play water end (9), the output of electric heater subassembly (6) passes through the pipe connection purifier play water end (9), still be used for measuring through the pipe connection on electrode bacteriostasis subassembly (4) liquid level measurement subassembly (7) of water level height in storage water tank (2), electrode bacteriostasis subassembly (4), electric heater subassembly (6) with water inlet solenoid valve (8) are connected with purifier display accuse panel (5) electricity through the intercommunication wire respectively and are connected.

2. The water purifier device with built-in electrode bacteriostatic component according to claim 1, characterized in that:

including install in electrode bacteriostatic component (4) cavity quick-operation joint (41) on storage water tank (2) outer wall, be equipped with in cavity quick-operation joint (41) with cavity (42) of storage water tank (2) intercommunication, be equipped with on cavity quick-operation joint (41) insert extremely be used for in cavity (42) right the water source of storage water tank (2) carries out electrolysis treatment's electrode group (43), still independently be equipped with respectively on cavity quick-operation joint (41) with water inlet channel (44) and play water passageway (45) of cavity (42) intercommunication, water inlet channel (44) pass through the pipe connection filtering component (3), water outlet channel (45) pass through the pipe connection electric heater component (6), liquid level measurement subassembly (7) pass through the pipe connection cavity quick-operation joint (41), electrode group (43) through the intercommunication wire with purifier shows accuse panel (5) electricity and connects.

3. The water purifier device with built-in electrode bacteriostatic component according to claim 2, characterized in that:

the electrode group (43) is internally provided with two anode sheets (431) and two cathode sheets (432) which are arranged in parallel, one ends of the anode sheets (431) and the cathode sheets (432) are inserted into the hollow quick connector (41), and the other ends of the anode sheets and the cathode sheets are used as electric wire insertion sheets to be electrically connected with the water purifier display control panel (5) through a communication lead.

4. The water purifier device with built-in electrode bacteriostatic component according to claim 3, wherein: the anode sheet (431) is an electrode made of ruthenium iridium or iridium tantalum tin coating titanium as a basic material, and the cathode sheet (432) is an electrode made of stainless steel or a titanium material.

5. The water purifier device with built-in electrode bacteriostatic component according to any one of claims 1 to 4, characterized in that:

be equipped with on purifier main part (1) inwards sunken be used for supplying storage water tank (2) cartridge is in water tank groove (11) wherein, be equipped with in water tank groove (11) be used for with storage water tank (2) card establishes connecting seat (13) of connection, be equipped with in connecting seat (13) be used for with vertical passageway (131) of storage water tank (2) inside cavity intercommunication, be equipped with in vertical passageway (131) be used for with vertical passageway (131) with the valve switch of electrode antibacterial component (4) intercommunication, electrode antibacterial component (4) are located the bottom of connecting seat (13) and with vertical passageway (131) intercommunication.

6. The water purifier device with built-in electrode bacteriostatic component according to claim 5, wherein:

including being used for in the valve switch storage water tank (2) cartridge in valve body (133) of downward action when connecting seat (13) are gone up, the cover is equipped with on valve body (133) and is used for storage water tank (2) are followed pulling when taking out on connecting seat (13) reset spring (134) of valve body (133) upward action, valve body (133) are close to one of electrode antibacterial component (4) is served to outside protruding be used for with flange (135) of connecting are established to the terminal card of vertical passageway (131).

7. The water purifier device with built-in electrode bacteriostatic component according to claim 5, wherein: the water tank groove (11) comprises two notches (15) in different directions, wherein one notch (15) faces upwards, and the other notch (15) faces leftwards.

8. The water purifier device with built-in electrode bacteriostatic component according to claim 1, characterized in that:

the water purifier is characterized in that the water purifier main body (1) is also provided with an opening (12) for inserting the filtering component (3) into the water purifier main body (1) and a waste water pipe interface (16) connected with the filtering component (3) through a pipeline and used for allowing waste water in the filtering component (3) to flow out.

9. The water purifier device with built-in electrode bacteriostatic component according to claim 1, characterized in that:

including being used for in the liquid level measurement subassembly (7) to the purifier shows control panel (5) and sends liquid level information so that the purifier shows control panel (5) control the liquid level switch and the both ends that work was opened and close to water solenoid valve (8) communicate with each other and are used for measuring U type pipeline (72) of water level height in storage water tank (2), the one end of U type pipeline (72) is passed through electrode antibacterial component (4) insert to in storage water tank (2), the other end with liquid level switch connects.

10. The water purifier device with built-in electrode bacteriostatic component according to claim 1, characterized in that:

the water purifier is characterized in that a water receiving box (14) which is protruded forwards and used for being symmetrically arranged at the lower end of a water outlet end (9) of the water purifier is hinged to the front side end of the water purifier main body (1), and an inwards-sunken groove (17) is formed between the water receiving box (14) and the water outlet end (9) of the water purifier.

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