CN210367190U - RO water and ozone water making machine - Google Patents

Abstract

The utility model discloses a water machine for producing RO water and ozone, which comprises a mixer component, an ozonizer component, a deodorizing tank component, a water tank component, an RO reverse osmosis membrane, a first TDS interface, a three-way solenoid valve, a flowmeter, a C2 filter element, a first one-way valve, a second one-way valve, a third one-way valve, a fourth one-way valve, a water outlet, a preposed filter element, a second TDS interface, a combined solenoid valve, a two-way solenoid valve, a PEM ozone generator, a booster pump, a wastewater ratio interface, a water inlet and a wastewater outlet, wherein the center of one side of the water inlet is connected with the top of one side of the preposed filter element through a pipeline, the bottom of one side of the first TDS interface at the top of the other side of the preposed filter element is connected through a pipeline, the bottom of the other side of the first TDS interface is connected with the bottom of one side of the combined solenoid, the work efficiency is reduced, and the secondary mixing structural part is additionally arranged, so that the dissolution between ozone and water is improved.

Description

RO water and ozone water making machine

Technical Field

The utility model relates to a purifier technical field specifically is a system RO water and ozone water machine.

Background

The purifier is according to the operation requirement to water to quality of water carry out deep filtration, purification treatment's water treatment facilities, and its technical core is the filtration membrane in the filter core device, and present main technique derives from milipore filter and RO reverse osmosis membrane two kinds, under the environment that people attach more and more importance to the health, has produced various purifier equipment, but the unified work of traditional purifier, extravagant electric power has increased the cost, and is not enough in the filtration to quality of water, is unfavorable for healthy.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a system RO water and ozone water machine to solve the problem that proposes among the above-mentioned background art.

In order to solve the technical problem, the utility model provides a following technical scheme: a water machine for producing RO water and ozone comprises a mixer component, an ozonizer component, a deodorizing tank component, a water tank component, an RO reverse osmosis membrane, a first TDS interface, a three-way electromagnetic valve, a flowmeter, a C2 filter element, a first one-way valve, a second one-way valve, a third one-way valve, a fourth one-way valve, a water outlet, a pre-positioned filter element, a second TDS interface, a combined electromagnetic valve, a two-way electromagnetic valve, a PEM ozone generator, a booster pump, a wastewater ratio interface, a water inlet and a wastewater outlet, wherein the center of one side of the water inlet is connected with the top of one side of the pre-positioned filter element through a pipeline, the bottom of one side of the first TDS interface at the top of the pre-positioned filter element is connected through a pipeline, the bottom of the other side of the first TDS interface is connected with the bottom of one side of the combined electromagnetic valve through a pipeline, the bottom of the other side of the combined electromagnetic valve, the opposite side bottom of RO reverse osmosis membrane and one side bottom of three solenoid valve pass through the pipe connection, be provided with the second TDS interface between RO reverse osmosis membrane and the three solenoid valve, the opposite side bottom of three solenoid valve and one side bottom of C2 filter core pass through the pipe connection, the bottom fixed connection of pipeline and delivery port is passed through to the opposite side bottom of C2 filter core, be provided with the third check valve between C2 filter core and the delivery port, and the third check valve is close to one side of C2 filter core, the delivery port is provided with mutually perpendicular pipeline with the third check valve, and the top of perpendicular pipeline and fourth check valve cup joints fixed connection, the bottom of fourth check valve and the bottom one side of ozone removing ware subassembly pass through the pipe connection, the ozone removing ware subassembly includes ozone water outlet, mixture entry, first cavity, second cavity, water float, waterproof ventilated membrane, The device comprises an air vent and a first shell, wherein the top end of a mixture inlet is fixedly connected with the bottom center of a first cavity, a second cavity is formed by the first cavity and the first shell, an ozone water outlet is formed in one side of the bottom end of the second cavity, a water floater is arranged at the top end of the first cavity, the top center of the first shell is fixedly connected with the bottom end of the air vent, the top end of the air vent is connected with a discharge port formed in the center of the top end of a deodorization tank assembly through a pipeline, the deodorization tank assembly comprises an air distribution baffle block, ozone decomposition catalytic particles, an air distribution baffle block and a second shell, the air distribution baffle block is arranged above the inner part of the second shell, the air distribution baffle block is arranged below the inner part of the second shell, the discharge port formed in the center of the bottom end of the second shell is fixedly connected with the top end of the pipeline in a sleeved mode, the mixture inlet is connected with the discharge port formed in the center of the bottom end of the, the mixer component comprises a Venturi ejector structure, a secondary mixing structure and a third shell, wherein the secondary mixing structure is arranged below the inside of the third shell, the Venturi ejector structure is arranged above the inside of the third shell, a discharge port arranged at the center of the top end of the third shell is connected with the bottom end of the three-way solenoid valve through a pipeline, a second one-way valve is arranged on one side of the pipeline close to the discharge port, the discharge port arranged at the top end of one side of the third shell is connected with one side of the top end of the water tank component through a pipeline, the water tank component comprises a cathode water tank and an anode water tank, one side of the top end of the water tank component is connected with one side of the bottom end of the two-way solenoid valve through a pipeline, the top end of the two-way solenoid valve is fixedly connected with one end of the pipeline in a sleeved mode, and the other end of the pipeline is fixedly connected with the three, the cathode water tank and the anode water tank are positioned in the water tank assembly and are mutually independent and separated, one side of the bottom end of the cathode water tank is connected with one side of the bottom end of the anode water tank through a pipeline, the other side of the bottom end of the cathode water tank is connected with one side of the bottom end of the PEM ozone generator through a pipeline, one side of the top end of the PEM ozone generator is connected with the center of the bottom end of the cathode water tank through a pipeline, the other side of the bottom end of the PEM ozone generator is connected with the other side of the bottom end of the anode water tank through a pipeline, the other side of the top end of the water tank assembly, which corresponds to the mixer assembly, is connected with one end of a first one-way valve through a pipeline, the pipeline connected with the other end of the first one-way valve is vertically connected with the pipeline connected with the combined electromagnetic valve and a wastewater port, and the bottom end, and the other end that the three-phase connects passes through the pipe connection with RO reverse osmosis membrane's bottom, the bottom that waste water is than the interface passes through the pipeline and is connected with the three-phase joint, the pipeline that waste water is connected than the top of interface is connected perpendicularly with the pipeline of being connected between combination solenoid valve and the booster pump.

Further, a flow meter is arranged between the three-way electromagnetic valve and the C2 filter element.

Furthermore, the inner space formed by the upper part of the gas distribution baffle block and the lower part of the gas distribution baffle block is provided with ozone decomposition catalytic particles.

Further, a high water level and a low water level are arranged inside the water tank assembly.

Furthermore, a waterproof breathable film is arranged at the interface of the first shell and the air outlet.

Compared with the prior art, the utility model discloses the beneficial effect who reaches is: the utility model discloses a, the single ozone state or the drinking water state of being, through independent running state, avoided the load work of machine, cause the damage of machine, reduced the life of machine, and set up a plurality of check valves in this utility model, avoided the streaming of gas or water, and the secondary mixed structure spare that sets up has strengthened dissolving to ozone, has improved work efficiency.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of area A of FIG. 1;

in the figure: 1. a mixer assembly; 2. an ozone remover component; 3. a deodorizing tank assembly; 4. a water tank assembly; 5. an RO reverse osmosis membrane; 6. a first TDS interface; 7. a three-way electromagnetic valve; 8. a flow meter; 9. a C2 filter element; 10. a first check valve; 11. a second one-way valve; 12. a third check valve; 13. a fourth check valve; 14. a water outlet; 15. a front filter element is arranged; 16. a second TDS interface; 17. a combined electromagnetic valve; 18. a two-way solenoid valve; 19. a PEM ozone generator; 20. a booster pump; 21. a waste water ratio interface; 22. a water inlet; 23. a waste water port; 101. a venturi ejector structural member; 102. a secondary mixed structural member; 103. a third housing; 201. an ozone water outlet; 202. a mixture inlet; 203. a first cavity; 204. a second cavity; 205. a water float; 206. a waterproof breathable film; 207. an exhaust port; 208. a first housing; 301. the gas distribution baffle block; 302. ozone decomposing catalytic particles; 303. the gas distribution baffle block is arranged below the gas distribution baffle block; 304. a second housing; 401. a cathode water tank; 402. an anode water tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a water machine for preparing RO water and ozone comprises a mixer component 1, a ozone removing component 2, a smell removing tank component 3, a water tank component 4, an RO reverse osmosis membrane 5, a first TDS interface 6, a three-way electromagnetic valve 7, a flowmeter 8, a C2 filter element 9, a first one-way valve 10, a second one-way valve 11, a third one-way valve 12, a fourth one-way valve 13, a water outlet 14, a preposed filter element 15, a second TDS interface 16, a combined electromagnetic valve 17, a two-way electromagnetic valve 18, a PEM ozone generator 19, a booster pump 20, a wastewater ratio interface 21, a water inlet 22 and a wastewater outlet 23, wherein the center of one side of the water inlet 22 is connected with the top of one side of the preposed filter element 15 through a pipeline, the bottom of one side of the first TDS interface 6 at the top of the preposed filter element 15 is connected with the bottom of the other side of the first TDS interface 6 through a pipeline, the bottom of the other side of the first TDS interface 6, the bottom end of the other side of the booster pump 20 is connected with the bottom end of one side of the RO reverse osmosis membrane 5 through a pipeline, the bottom end of the other side of the RO reverse osmosis membrane 5 is connected with the bottom end of one side of the three-way solenoid valve 7 through a pipeline, a second TDS interface 16 is arranged between the RO reverse osmosis membrane 5 and the three-way solenoid valve 7, the bottom end of the other side of the three-way solenoid valve 7 is connected with the bottom end of one side of the C2 filter element 9 through a pipeline, a flowmeter 8 is arranged between the three-way solenoid valve 7 and the C2 filter element 9 to facilitate knowing the water inlet amount, the bottom end of the other side of the C2 filter element 9 is fixedly connected with the bottom end of the water outlet 14 through a pipeline, a third one-way valve 12 is arranged between the C2 filter element 9 and the water outlet 14, the third one-way valve 12 is close to one side of the C2 filter element 9, the water outlet 14 and the, the ozone removing device component 2 comprises an ozone water outlet 201, a mixture inlet 202, a first cavity 203, a second cavity 204, a water float 205, a waterproof breathable film 206, an air outlet 207 and a first shell 208, wherein the top end of the mixture inlet 202 is fixedly connected with the center of the bottom end of the first cavity 203, the second cavity 204 is divided inside the first cavity 203 and the first shell 208, the waterproof breathable film 206 is arranged at the interface of the first shell 208 and the air outlet 207 and can only allow gas to pass through but can not allow water to pass through, an ozone water outlet 201 is arranged on one side of the bottom end of the second cavity 204, the water float 205 is arranged at the top end of the first cavity 203, the center of the top end of the first shell 208 is fixedly connected with the bottom end of the air outlet 207, the top end of the air outlet 207 is connected with a discharge port arranged at the center of the top end of the odor removing tank component 3 through a pipeline, the odor removing tank component, A gas distribution block lower 303 and a second shell 304, wherein the gas distribution block upper 301 is arranged above the inside of the second shell 304, the ozone decomposition catalytic particles 302 are placed in the inner space formed by the gas distribution block upper 301 and the gas distribution block lower 303, which is beneficial to the separation of ozone, the gas distribution block lower 303 is arranged below the inside of the second shell 304, the discharge port arranged at the center of the bottom end of the second shell 304 is fixedly connected with the top end of a pipeline in a sleeved mode, the mixture inlet 202 is connected with the discharge port arranged at the center of the bottom end of the mixer assembly 1 through a pipeline, the mixer assembly 1 comprises a venturi ejector structural part 101, a secondary mixing structural part 102 and a third shell 103, the secondary mixing structural part 102 is arranged below the inside of the third shell 103, the venturi ejector structural part 101 is arranged above the inside of the third shell 103, the discharge port arranged at the center of the top end of the third shell 103 is connected with the bottom end of the three-way electromagnetic valve 7 through, and one side of the pipeline close to the discharge port is provided with a second one-way valve 11, the discharge port opened at the top end of one side of the third shell 103 is connected with one side of the top end of the water tank assembly 4 through a pipeline, the water tank assembly 4 comprises a cathode water tank 401 and an anode water tank 402, one side of the top end of the water tank assembly 4 is connected with one side of the bottom end of the two-way solenoid valve 18 through a pipeline, the top end of the two-way solenoid valve 18 is fixedly connected with one end of the pipeline in a sleeved manner, the other end of the pipeline is fixedly connected with the pipeline connected with the three-way solenoid valve 7 and the second one-way valve 11 in a sleeved manner, the cathode water tank 401 and the anode water tank 402 are positioned in the water tank assembly 4 and are mutually independent and separated, the water tank assembly 4 is internally provided with a high water level and a low water level to facilitate the understanding of the water capacity in the water tank assembly 4, one side of the bottom end of the cathode, one side of the top end of a PEM ozone generator 19 is connected with the center of the bottom end of a cathode water tank 401 through a pipeline, the other side of the bottom end of the PEM ozone generator 19 is connected with the other side of the bottom end of an anode water tank 402 through a pipeline, the other side of the top end of the PEM ozone generator 19 is connected with the center of the bottom end of the anode water tank 402 through a pipeline, the other side of the top end of a water tank component 4 corresponding to a mixer component 1 is connected with one end of a first one-way valve 10 through a pipeline, the pipeline connected with the other end of the first one-way valve 10 is vertically connected with the pipeline connected with a combined electromagnetic valve 17 and a waste water port 23, the bottom, the other end of the three-phase joint is connected with the bottom end of the RO reverse osmosis membrane 5 through a pipeline, the bottom end of the wastewater ratio interface 21 is connected with the three-phase joint through a pipeline, and the pipeline connected with the top end of the wastewater ratio interface 21 is vertically connected with the pipeline connected between the combined electromagnetic valve 17 and the booster pump 20; water enters from a water inlet 22 and flows through a preposed filter element 15, a first TDS interface 6, a combined electromagnetic valve 17, a booster pump 20 and an RO reverse osmosis membrane 5, is filtered into pure water through the RO reverse osmosis membrane 5, flows through a second TDS interface 16, a three-way electromagnetic valve 7, a flow meter 8 and a C2 filter element 9, is filtered by the C2 filter element 9 and then flows out from a water outlet 14 through a third one-way valve 12, when ozone water is manufactured, the pure water (the conductivity is less than or equal to 5 Us/cm) manufactured by the RO reverse osmosis membrane 5 flows into a PEM ozone generator 19 through the three-way electromagnetic valve 7, ozone generated by an anode at the PEM ozone generator 19 flows to a Venturi ejector structural element 101 arranged at the upper end of a mixer assembly 1 for ozone discharging and closing, the pure water enters a secondary mixing structural element 102 through the discharging and is subjected to the first mixing (dissolving about 20% -30% of the, then the ozone is mixed for the second time (the solubility is improved by 40 percent to 50 percent) at the lower end, the hydrogen generated by the cathode is discharged as waste gas from the first one-way valve 10 through the water purifier pipeline, the mixture of the ozone water, the undissolved ozone and the oxygen enters the first cavity 203 through the mixer component 1 and is filled with the second cavity 204, the water float 205 blocks the ozone to be discharged, the ozone water flows to the water outlet 14, as the ozone and oxygen increase within the second cavity 204, they collect at the upper end of the second cavity 204, its backpressure is to float 205 downward effort, opens ozone gas vent 207, and ozone and oxygen mixture flow direction remove flavor jar subassembly 3, separates ozone water and undissolved ozone with oxygen through ozone remover subassembly 2, and ozone water flows out from ozone water outlet 201 of ozone remover subassembly 2, and undissolved ozone and oxygen flow direction remove flavor jar subassembly 3, and ozone decomposes into oxygen through removing flavor jar subassembly 3 and discharges.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a system RO water and ozone water machine, including blender subassembly (1), remove ozone subassembly (2), remove flavor jar subassembly (3), water tank set spare (4), RO reverse osmosis membrane (5), first TDS interface (6), three way solenoid valve (7), flowmeter (8), C2 filter core (9), first check valve (10), second check valve (11), third check valve (12), fourth check valve (13), delivery port (14), put preceding filter core (15), second TDS interface (16), combination solenoid valve (17), two way solenoid valve (18), PEM ozone generator (19), booster pump (20), waste water is than interface (21), water inlet (22) and waste water mouth (23), its characterized in that: the water inlet (22) is connected with the top of one side of the pre-filter element (15) at the center of one side, the bottom of one side of the first TDS interface (6) at the top of the other side of the pre-filter element (15) is connected with the bottom of one side of the combined solenoid valve (17) at the bottom of the other side of the pre-filter element (15) through a pipeline, the bottom of the other side of the combined solenoid valve (17) is connected with the bottom of one side of the booster pump (20) through a pipeline, the bottom of the other side of the booster pump (20) is connected with the bottom of one side of the RO reverse osmosis membrane (5) through a pipeline, the bottom of the other side of the RO reverse osmosis membrane (5) is connected with the bottom of one side of the three-way solenoid valve (7) through a pipeline, a second TDS interface (16) is arranged between the RO reverse osmosis membrane (5) and the three-way solenoid valve (7), the bottom of the other, the bottom end of the other side of the C2 filter element (9) is fixedly connected with the bottom end of the water outlet (14) through a pipeline, a third one-way valve (12) is arranged between the C2 filter element (9) and the water outlet (14), the third one-way valve (12) is close to one side of the C2 filter element (9), the water outlet (14) and the third one-way valve (12) are provided with mutually vertical pipelines, the vertical pipelines are sleeved and fixedly connected with the top end of a fourth one-way valve (13), the bottom end of the fourth one-way valve (13) is connected with one side of the bottom end of the ozone remover component (2) through a pipeline, the ozone remover component (2) comprises an ozone water outlet (201), a mixture inlet (202), a first cavity (203), a second cavity (204), a water float (205), a waterproof breathable film (206), an air outlet (207) and a first shell (208), the top end of the mixture inlet (202) is fixedly connected with the center of the bottom end of the first cavity (, a second cavity (204) is partitioned inside the first cavity (203) and the first shell (208), an ozone water outlet (201) is formed in one side of the bottom end of the second cavity (204), a water float (205) is arranged at the top end of the first cavity (203), the center of the top end of the first shell (208) is fixedly connected with the bottom end of the air outlet (207), the top end of the air outlet (207) is connected with a discharge opening formed in the center of the top end of the odor removal tank assembly (3) through a pipeline, the odor removal tank assembly (3) comprises an air distribution block upper part (301), ozone decomposition catalytic particles (302), an air distribution block lower part (303) and a second shell (304), the air distribution block upper part (301) is arranged above the inside of the second shell (304), the air distribution block lower part (303) is arranged below the inside of the second shell (304), the discharge opening formed in the center of the bottom end of the second shell (304) is fixedly connected with the top end of the pipeline in a sleeved mode, the mixture inlet (202) is connected with a discharge port arranged at the center of the bottom end of the mixer assembly (1) through a pipeline, the mixer assembly (1) comprises a Venturi ejector structural part (101), a secondary mixing structural part (102) and a third shell (103), the secondary mixing structural part (102) is arranged below the inside of the third shell (103), the Venturi ejector structural part (101) is arranged above the inside of the third shell (103), the discharge port arranged at the center of the top end of the third shell (103) is connected with the bottom end of a three-way electromagnetic valve (7) through a pipeline, a second one-way valve (11) is arranged at one side of the pipeline close to the discharge port, the discharge port arranged at the top end of one side of the third shell (103) is connected with one side of the top end of a water tank assembly (4) through a pipeline, the water tank assembly (4) comprises a cathode water tank (401) and an anode water tank (402), one side of the top end of the water tank assembly (4) is connected with one side of the bottom end of the two-way electromagnetic valve (18) through a pipeline, the top end of the two-way electromagnetic valve (18) is fixedly connected with one end of the pipeline in a sleeved mode, the other end of the pipeline is fixedly connected with the pipeline connected with the three-way electromagnetic valve (7) and the second one-way valve (11) in a sleeved mode, the cathode water tank (401) and the anode water tank (402) are located inside the water tank assembly (4) and are mutually independently separated, one side of the bottom end of the cathode water tank (401) is connected with one side of the bottom end of the anode water tank (402) through a pipeline, the other side of the bottom end of the cathode water tank (401) is connected with one side of the bottom end of the PEM ozone generator (19) through a pipeline, one side of the top end of the PEM ozone generator (19) is connected with the center of the bottom end of the cathode water tank (401, the other side of the top end of the PEM ozone generator (19) is connected with the center of the bottom end of the anode water tank (402) through a pipeline, the other side of the top end of the water tank component (4) corresponding to the mixer component (1) is connected with one end of a first one-way valve (10) through a pipeline, the pipeline connected with the other end of the first one-way valve (10) is vertically connected with the pipeline connected with the combined electromagnetic valve (17) and the waste water port (23), the bottom end of the other side of the combined electromagnetic valve (17) is connected with one end of the three-phase joint through a pipeline, and the other end of the three-phase joint is connected with the bottom end of the RO reverse osmosis membrane (5) through a pipeline, the bottom end of the waste water ratio interface (21) is connected with a three-phase connector through a pipeline, and the pipeline connected with the top end of the waste water ratio interface (21) is vertically connected with the pipeline connected between the combined electromagnetic valve (17) and the booster pump (20).

2. The water machine for producing RO water and ozone according to claim 1, characterized in that: and a flowmeter (8) is arranged between the three-way electromagnetic valve (7) and the C2 filter element (9).

3. The water machine for producing RO water and ozone according to claim 1, characterized in that: and ozone decomposition catalytic particles (302) are arranged in an inner space formed by the upper gas distribution block (301) and the lower gas distribution block (303).

4. The water machine for producing RO water and ozone according to claim 1, characterized in that: the inside of water tank set spare (4) is provided with high water level and low water level.

5. The water machine for producing RO water and ozone according to claim 1, characterized in that: and a waterproof breathable film (206) is arranged at the interface of the first shell (208) and the air outlet (207).

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