CN219363343U - Integrated acidic oxidation potential water generator - Google Patents

Abstract

The utility model discloses an integrated acidic oxidation potential water generator, which belongs to the technical field of acidic oxidation potential water generators, and adopts the technical scheme that the integrated acidic oxidation potential water generator comprises a box body, wherein a water tank is fixedly arranged at the left end inside the box body, a flow pump is arranged at the right end of the upper end surface of the water tank, and a water suction pipe is communicated with the bottom of the flow pump.

Description

Integrated acidic oxidation potential water generator

Technical Field

The utility model relates to the technical field of electrolyzed oxidizing water generators, in particular to an integrated electrolyzed oxidizing water generator.

Background

The acidic oxidation potential water, also called strong acid potential water, is added with a small amount of sodium chloride into common water, and is subjected to micro-electrolysis treatment by a special ion exchange membrane electrolysis device, and the special ionic water with high 0RP (0 reduction potential) and low PH generated in an anode region is first developed in the 80 th century in Japan, and is very suitable for the medical field because of the remarkable sterilization effect on MRSA (methicillin-resistant staphylococcus aureus with super bacteria) and the effect of rapidly killing various pathogenic microorganisms due to the acidic ammoniation potential water, and can be reduced into common water under the conditions of light and air and along with the increase of storage time, so that the novel ion exchange membrane electrolysis water is very suitable for the disinfection of medical instruments, the instrument washing disinfection of an operating room and the general object surface washing.

At present, various civil integrated acidic oxidation potential water generators exist on the market, namely, electrolyte obtained by mixing sodium chloride with water in a brine tank is fed into an electrolytic tank for electrolysis, and acidic oxidation potential water is generated after electrolysis.

Disclosure of Invention

The present utility model is directed to the above problems and provides an integrated electrolyzed oxidizing water generator to solve the above problems.

The utility model is realized in such a way, the integrated acidic oxidation potential water generator comprises a box body, wherein a water tank is fixedly arranged at the left end inside the box body, a flow pump is arranged at the right end of the upper end face of the water tank, the bottom of the flow pump is communicated with a water pumping pipe, the other end of the water pumping pipe penetrates through the upper end face of the water tank and extends to the inside of the water tank, the upper end face of the flow pump is communicated with a connecting pipe, and the other end of the connecting pipe is communicated with a mixing box fixedly arranged at the top end face inside the box body;

a feeding cylinder is arranged above the box body, a transparent blanking pipe is communicated with the bottom of the feeding cylinder, a supporting plate is arranged on the outer side wall of the blanking pipe, an electric push rod is arranged on the upper end surface of the supporting plate, and a flashboard penetrating through the outer side wall of the blanking pipe is fixedly arranged at the output end of the electric push rod;

the electrolytic cell that is located the left side of water tank is installed to the inside bottom face of box, the standing groove has been seted up to the bottom of box right side wall, the inside bottom face embedding of standing groove is installed two pressure sensor that distribute around, two pressure sensor's up end has all been placed the collecting bottle.

In order to uniformly mix water and sodium chloride, the integrated acidic oxidation potential water generator is preferably provided with a motor on the upper end surface of the box body, and the output end of the motor sequentially penetrates through the upper end surface of the box body and the upper end surface of the mixing box and is fixedly provided with a stirring rod.

In order to introduce sodium chloride in the discharging pipe into the mixing box, as an integrated acidic oxidation potential water generator, preferably, a graduated scale is arranged on the outer side wall of the discharging pipe, the other end of the discharging pipe penetrates through the upper end face of the box body and is communicated with the mixing box, and an electric valve positioned between the lower part of the supporting plate and the upper part of the box body is arranged on the outer side wall of the discharging pipe.

In order to discharge the liquid generated after electrolysis, as an integrated acidic oxidation potential water generator of the present utility model, preferably, the right side wall of the electrolysis chamber is communicated with two water outlet pipes which are distributed front and back and penetrate through the left side wall inside the placing groove.

In order to add water into the water tank, as an integrated acidic electrolyzed oxidizing water generator of the present utility model, preferably, the upper end surface of the water tank is communicated with a water inlet pipe penetrating through the left side wall of the tank body.

In order to facilitate the water in the mixing tank to be introduced into the electrolysis chamber, the integrated electrolyzed oxidizing water generator is preferably provided with a sewer pipe communicated between the mixing tank and the electrolysis chamber.

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

this kind of civilian integrated form acid oxidation potential water generator uses the device, when using the device, with the controller respectively with the flow pump, a motor, the electricity push rod, electric valve and two pressure sensor electric connection, through setting up the water yield at every turn of flow pump on the controller, start the flow pump, make controller control flow pump carry quantitative water to the mixing tank through the connecting pipe in, then start the electricity push rod, can pull the flashboard to remove right, and make the appropriate sodium chloride in the feed cylinder fall into the unloading intraductal through observing the scale on the unloading pipe, then the electricity push rod extends and promotes the flashboard and close the upper portion of unloading pipe, open the electric valve, make quantitative sodium chloride falls into the mixing tank in the unloading pipe, thereby reach automatic control water feeding and sodium chloride volume's effect, avoid artifical water feeding batching, through making the motor drive the puddler rotate with sodium chloride and water mixing evenly, make alkaline solution and the acidic liquid that produces after the electrolysis of electrolysis chamber mix water respectively pass through two outlet pipes and arrange in two collecting bottles, pressure sensor can detect the weight of two collecting bottles, and carry the information that detects to the controller so that the collecting bottle is convenient for the work in the collecting bottle is convenient for the collecting bottle to change in time.

Drawings

FIG. 1 is a cross-sectional view of an integrated electrolyzed oxidizing water generator in accordance with the present utility model;

FIG. 2 is an enlarged view of the utility model at A in FIG. 1;

FIG. 3 is a block diagram of the feed cartridge of FIG. 1 in accordance with the present utility model.

In the figure, 1, a box body; 2. a water tank; 201. a water inlet pipe; 202. a flow pump; 203. a water pumping pipe; 204. a connecting pipe; 3. a mixing box; 301. a motor; 302. a stirring rod; 303. a water supply pipe; 4. a charging barrel; 401. discharging pipes; 402. an electric valve; 5. a support plate; 501. an electric push rod; 502. a flashboard; 6. an electrolysis chamber; 601. a water outlet pipe; 7. a placement groove; 701. a pressure sensor; 8. and (5) collecting the bottle.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

In the description of the present utility model, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present utility model and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model. Furthermore, in the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

Referring to fig. 1-3, an integrated acidic oxidation potential water generator comprises a box body 1, wherein a water tank 2 is fixedly arranged at the left end inside the box body 1, a flow pump 202 is arranged at the right end of the upper end face of the water tank 2, a water pumping pipe 203 is communicated with the bottom of the flow pump 202, the other end of the water pumping pipe 203 penetrates through the upper end face of the water tank 2 and extends to the inside of the water tank 2, a connecting pipe 204 is communicated with the upper end face of the flow pump 202, and a mixing box 3 fixedly arranged at the top end face inside the box body 1 is communicated with the other end of the connecting pipe 204;

a feeding cylinder 4 is arranged above the box body 1, a transparent blanking pipe 401 is communicated with the bottom of the feeding cylinder 4, a supporting plate 5 is arranged on the outer side wall of the blanking pipe 401, an electric push rod 501 is arranged on the upper end surface of the supporting plate 5, and a flashboard 502 penetrating through the outer side wall of the blanking pipe 401 is fixedly arranged at the output end of the electric push rod 501;

the electrolysis chamber 6 that is located water tank 2 left side is installed to the inside bottom face of box 1, and standing groove 7 has been seted up to the bottom of box 1 right side wall, and two pressure sensor 701 that distribute around the inside bottom face embedding of standing groove 7 are installed, and collecting bottle 8 has all been placed to the up end of two pressure sensor 701.

In this embodiment: when the device is used, the controller is electrically connected with the flow pump 202, the motor 301, the electric push rod 501, the electric valve 402 and the two pressure sensors 701 respectively, the flow pump 202 is started by setting the water yield of the flow pump 202 each time on the controller, the controller controls the flow pump 202 to convey quantitative water into the mixing box 3 through the connecting pipe 204, then the electric push rod 501 is started, the flashboard 502 can be pulled to move rightwards, a proper amount of sodium chloride in the charging barrel 4 falls into the discharging pipe 401 by observing the scale on the discharging pipe 401, then the electric push rod 501 stretches to push the flashboard 502 to close the upper part of the discharging pipe 401, the electric valve 402 is opened, quantitative sodium chloride in the discharging pipe 401 falls into the mixing box 3, the effect of automatically controlling the water yield and the sodium chloride yield is achieved, manual water adding and proportioning are avoided, the motor 301 is enabled to drive the stirring rod 302 to rotate to uniformly mix the sodium chloride and the water, the alkaline liquid and the acidic liquid generated after the electrolytic chamber 6 is enabled to be mixed with the water to be discharged into the two collecting bottles 8 through the two water outlet pipes 601 respectively, the pressure sensors can detect the weight of the two collecting bottles and the two collecting bottles can be conveniently detected, and the water yield of the two collecting bottles 8 can be conveniently changed by people, and the collecting bottles can be conveniently controlled, and the water yield can be conveniently changed, and the water can be conveniently and conveniently stored.

As a technical optimization scheme of the utility model, a motor 301 is installed on the upper end face of the box body 1, and an output end of the motor 301 sequentially penetrates through the upper end face of the box body 1 and the upper end face of the mixing box 3 and is fixedly provided with a stirring rod 302.

In this embodiment: by starting the motor 301, the stirring rod 302 is rotated to uniformly mix sodium chloride with water.

As a technical optimization scheme of the utility model, the outer side wall of the blanking pipe 401 is provided with a graduated scale, the other end of the blanking pipe penetrates through the upper end face of the box body 1 and is communicated with the mixing box 3, and an electric valve 402 positioned between the lower side of the supporting plate 5 and the upper side of the box body 1 is arranged on the outer side wall of the blanking pipe 401.

In this embodiment: by opening the electric valve 402, sodium chloride falling into the discharging pipe 401 can fall into the mixing tank 3 to be mixed with water.

As a technical optimization scheme of the utility model, the right side wall of the electrolysis chamber 6 is communicated with two water outlet pipes 601 which are distributed front and back and penetrate through the left side wall inside the placing groove 7.

In this embodiment: by installing the water outlet pipes 601, the electrolytic chamber 6 discharges the electrolyzed alkaline liquid and the electrolyzed acidic liquid through the two water outlet pipes 601 respectively.

As a technical optimization scheme of the utility model, the upper end surface of the water tank 2 is communicated with a water inlet pipe 201 penetrating through the left side wall of the tank body 1.

In this embodiment: by providing the water inlet pipe 201, it is convenient to add water into the water tank 2.

As a technical optimization scheme of the utility model, a sewer pipe 303 is communicated between the mixing box 3 and the electrolysis chamber 6.

In this embodiment: by providing the downcomer 303, the mixing tank 3 is caused to discharge the mixed water inside thereof into the electrolytic chamber 6 through the downcomer 303.

The working principle and the using flow of the utility model are as follows: firstly, when the device is used, the device is connected with a controller, firstly, the controller is provided with the water yield of the flow pump 202 each time, then, after water is added into the water tank 2 through the water inlet pipe 201, the flow pump 202 is started, the controller controls the flow pump 202 to convey quantitative water into the mixing box 3 through the connecting pipe 204, then, the electric push rod 501 is started, the flashboard 502 is pulled to move rightwards by shrinkage, the upper part of the material discharging pipe 401 can be opened, sodium chloride in the charging cylinder 4 is caused to fall into the material discharging pipe 401, as the electric valve 402 is closed, a worker can observe scales on the material discharging pipe 401, when the material discharging pipe 401 falls into a proper amount of sodium chloride, the electric push rod 501 is started again, the flashboard 502 is pushed to be stretched to close the upper part of the material discharging pipe 401, then, the electric valve 402 is opened, quantitative sodium chloride in the material discharging pipe 401 falls into the mixing box 3, the motor 301 is started, the stirring rod 302 is rotated, the sodium chloride and the water is uniformly mixed, then, the mixed water flows into the electrolysis chamber 6 through the material discharging pipe 303, the electrolysis chamber 6 is caused to enable the alkaline liquid and the two alkaline liquid and the two water liquid to fall into the two water discharging pipes 8 to be detected through the two water discharging pipes 701, the two water collecting bottles 8 are detected, the weight of the water collecting bottles 8 can be conveniently and the water collecting bottles 8 can be collected, the weight of the workers can be conveniently detected, and the water collecting bottles 8 can be conveniently detected, and the weight of the water collecting bottles can be conveniently detected, and the water can be conveniently and the water can be discharged and the water can be discharged.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (6)

1. The utility model provides an integrated form acidic oxidation potential water generator, includes box (1), its characterized in that: the water tank is characterized in that a water tank (2) is fixedly arranged at the left end inside the tank body (1), a flow pump (202) is arranged at the right end of the upper end face of the water tank (2), a water pumping pipe (203) is communicated with the bottom of the flow pump (202), the other end of the water pumping pipe (203) penetrates through the upper end face of the water tank (2) and extends to the inside of the water tank (2), a connecting pipe (204) is communicated with the upper end face of the flow pump (202), and a mixing tank (3) fixedly arranged at the top end face inside the tank body (1) is communicated with the other end of the connecting pipe (204);

a feeding cylinder (4) is arranged above the box body (1), a transparent blanking pipe (401) is communicated with the bottom of the feeding cylinder (4), a supporting plate (5) is arranged on the outer side wall of the blanking pipe (401), an electric push rod (501) is arranged on the upper end face of the supporting plate (5), and a flashboard (502) penetrating through the outer side wall of the blanking pipe (401) is fixedly arranged at the output end of the electric push rod (501);

the utility model discloses a water tank, including box (1), collecting bottle, electrolysis room (6) that is located water tank (2) left side are installed to the inside bottom face of box (1), standing groove (7) have been seted up to the bottom of box (1) right side wall, pressure sensor (701) that distributes around two are installed in the inside bottom face embedding of standing groove (7), two collecting bottle (8) have all been placed to the up end of pressure sensor (701).

2. An integrated electrolyzed oxidizing water generator in accordance with claim 1, wherein: the stirring device is characterized in that a motor (301) is mounted on the upper end face of the box body (1), and the output end of the motor (301) sequentially penetrates through the upper end face of the box body (1) and the upper end face of the mixing box (3) and is fixedly provided with a stirring rod (302).

3. An integrated electrolyzed oxidizing water generator in accordance with claim 1, wherein: the outer side wall of the blanking pipe (401) is provided with a graduated scale, the other end of the blanking pipe penetrates through the upper end face of the box body (1) and is communicated with the mixing box (3), and an electric valve (402) located between the lower portion of the supporting plate (5) and the upper portion of the box body (1) is installed on the outer side wall of the blanking pipe (401).

4. An integrated electrolyzed oxidizing water generator in accordance with claim 1, wherein: the right side wall of the electrolysis chamber (6) is communicated with two water outlet pipes (601) which are distributed front and back and penetrate through the left side wall inside the placing groove (7).

5. An integrated electrolyzed oxidizing water generator in accordance with claim 1, wherein: the upper end face of the water tank (2) is communicated with a water inlet pipe (201) penetrating through the left side wall of the tank body (1).

6. An integrated electrolyzed oxidizing water generator in accordance with claim 1, wherein: a sewer pipe (303) is communicated between the mixing box (3) and the electrolysis chamber (6).