CN116969554B

CN116969554B - Electrolytic reduction water making machine

Info

Publication number: CN116969554B
Application number: CN202311226645.2A
Authority: CN
Inventors: 潘峰
Original assignee: Health Care Holdings Ltd
Current assignee: Health Care Holdings Ltd
Priority date: 2023-09-22
Filing date: 2023-09-22
Publication date: 2024-01-12
Anticipated expiration: 2043-09-22
Also published as: CN116969554A

Abstract

The invention relates to the technical field of electrolytic water, in particular to an electrolytic reduction water making machine. The invention provides an electrolytic reduction water making machine, comprising: the water-making machine body is characterized in that an electrode tube is arranged in the center of the water-making machine body, a plurality of separation parts are arranged by taking the electrode tube as a central annular array, separation chambers are formed among the separation parts, the electrode tube and the water-making machine body, electrode plates and water-blocking ion-passing composite membranes for separating the electrode plates and the electrode tube are arranged in the separation chambers, the areas of the electrode plates are the same, the distance from the electrode tube to the electrode tube along a certain rotation direction is sequentially increased or decreased, an electrolysis chamber I is formed by the separation parts, the electrode plates, the water-blocking ion-passing composite membranes and the water-making machine body, and an electrolysis chamber II is formed by the separation parts, the electrode tube, the water-blocking ion-passing composite membranes and the water-making machine body. The invention avoids the problems of influencing the service life of a knob and a machine caused by high operation frequency and high misoperation probability, saves energy consumption by utilizing hydrodynamic force, and is more environment-friendly.

Description

Electrolytic reduction water making machine

Technical Field

The invention relates to the technical field of electrolytic water, in particular to an electrolytic reduction water making machine.

Background

Electrolytic reduction water generators are commonly referred to as "ion exchange electrolyzed water generators" or "alkaline water machines". Tap water reaching the standard of direct drinking water is scattered, reduced and rearranged by the action of positive and negative electrodes, so that one part of the tap water has positive potential, the other part of the tap water has negative potential, and the positive electrolyzed water and the negative electrolyzed water are separated by utilizing a membrane separation technology. Electrolyzed water with different pH values has different purposes: electrolyzed water of different alkalinity: slightly alkaline water (pH 7.5-8.0) provides potable water for infants and small animals; light alkaline water (pH 8.5-9.0), for initial consumption and for food; moderately alkaline water (pH 9.5-10.5), for daily consumption and cooking; strongly alkaline water (pH 11.0+), was used as a cleaner. Electrolyzed water of different acidity: slightly acidic water (pH 6.5-7.0) for daily drinking by pets or as irrigation water for certain plants, especially those plants requiring slightly acidic soil; slightly acidic water (pH 5.5-6.0), washing face and sensitive skin; moderately acidic water (pH 4.0-5.0), skin and hair care; strongly acidic water (pH 2.5-3.5), disinfection and sterilization.

The electrolytic reduction water generator generally comprises an electrolytic chamber, an ionic membrane is arranged in the electrolytic chamber to be divided into an anion chamber and a cation chamber, OH & H & lt+ & gt is formed by the electrolysis of the cathode and the anode, hydroxide ions are continuously accumulated at the cathode and are called alkaline electrolyzed water, and hydrogen ions are accumulated at the anode and are called acidic electrolyzed water or electrolyzed oxidized water. In the prior art, the electrolytic reduction water generator generates the electrolytic water with the required pH value by adjusting the proportion of water flowing through the anode and the cathode, adjusting the magnitude of current or the length of electrolysis time according to the requirement, basically the design of a knob, which is applicable to household use, but the electrolytic reduction water generator applied to public places often has different requirements on the electrolytic water, but basically the electrolytic water generator is in the pH value range, so that the knob capable of changing the generated pH value is required to be continuously operated, the operation frequency is high, the misoperation probability is high, and the service life of the knob and the machine is influenced.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides an electrolytic reduction water generator, which can effectively solve the problems of high operation frequency, high misoperation probability and influence on the knob and the service life of the machine of the electrolytic reduction water generator applied to public places in the prior art.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides an electrolytic reduction water making machine, comprising:

the water-making machine body is internally provided with an electrode tube at the center, a plurality of separation parts are arranged in an annular array by taking the electrode tube as the center, separation chambers are formed among the separation parts, the electrode tube and the water-making machine body, electrode plates and water-blocking ion-passing composite membranes for separating the electrode plates and the electrode tube are arranged in the separation chambers, the areas of the electrode plates are the same, the distance from the electrode tube to the electrode tube along a certain rotation direction is sequentially increased or decreased, the separation parts, the electrode plates, the water-blocking ion-passing composite membranes and the water-making machine body form an electrolysis chamber I, and the separation parts, the electrode tube, the water-blocking ion-passing composite membranes and the water-making machine body form an electrolysis chamber II;

the starting assembly is used for adding water into one of the first electrolysis chamber and the second electrolysis chamber and electrolyzing the water;

the valve closing reset assembly is used for stopping water addition to one of the first electrolysis chamber and the second electrolysis chamber;

and the automatic valve opening assembly is used for respectively discharging the electrolyzed acidic water and the electrolyzed alkaline water.

Further, a mounting frame is fixedly connected with the partition part in the first electrolytic chamber, the mounting frame is used for mounting an electrode plate, and a gap exists between the lower part of the electrode plate and the inner bottom surface of the first electrolytic chamber of the water making machine body; the electrode tube is longitudinally provided with water holes at the corresponding positions of the first electrolytic chambers.

Further, the starting assembly comprises an upper rotating cavity and an annular array which are arranged at the upper part of the water making machine body, and an upper valve groove which is communicated with the upper rotating cavity and corresponds to one position of each electrolysis chamber, the water making machine body is communicated with an upper water passage channel at each upper valve groove, an upper valve plate is hermetically and slidingly connected in the upper valve groove, an upper water passage channel which can be communicated with the upper water passage channel is arranged in the upper valve plate, one side of the upper valve plate, far away from the axis of the water making machine body, is fixedly connected with a pressing rod, the other end of the pressing rod is communicated with the upper valve groove, a spring I is sleeved outside the pressing rod, and two ends of the spring I are fixedly connected with the upper valve plate and the inner wall of the upper valve groove respectively;

the side surface of the upper valve plate is provided with at least one accommodating groove, a clamping ball is connected in the accommodating groove in a sliding way, a spring II is fixedly connected with the inner end of the clamping ball and the inner wall of the accommodating groove, and a clamping groove which can be clamped with the accommodating groove is formed in the inner wall of the upper valve groove; when the accommodating groove is clamped with the clamping groove, the upper water through groove is completely communicated with the upper water through channel.

Further, the starting component also comprises a signal contact arranged on the inner wall of the clamping groove;

the valve closing reset assembly comprises a first bulge which is arranged at the upper end of the water making machine body and is provided with a straight pipe section and a funnel section, a first electromagnetic valve which is in signal connection with a signal contact is arranged in the straight pipe section, a water turbine generating part is fixedly arranged in the straight pipe section, the water turbine generating part is connected with an electrode pipe in series and is connected with a plurality of electrode plates in parallel, the current direction can be converted through a converter, a pipe shaft is fixedly inserted into the water turbine generating part, and the lower end of the pipe shaft penetrates through the water making machine body, is in airtight rotation connection with the water making machine body and is communicated with a second electrolytic chamber;

the tube shaft is fixedly connected with a rotating disc, and the periphery of the rotating disc is integrally formed with bulges with the same number as that of the electrolysis chambers.

Further, the automatic valve opening assembly comprises a lower rotating cavity arranged at the lower part of the water making machine body and a lower valve groove which is arranged in an annular array, is communicated with the lower rotating cavity and corresponds to one position of each electrolysis chamber, the water making machine body is communicated with a lower water passage at each lower valve groove, a lower valve plate is hermetically and slidingly connected in the lower valve groove, a lower water passage groove which can be communicated with the lower water passage groove is arranged in the lower valve plate, and a spring III is fixedly connected with the inner wall of the lower valve groove at one side of the lower valve plate far away from the axis of the water making machine body;

the lower extreme of system water organism just has the groove in the inboard link up of electrode pipe, the inslot is provided with the water round, the rigid coupling has the rotating cam who rotates the intracavity under in the water round, and the rotating cam has a plurality of curved surfaces the lower valve plate contacts the in-process with the curved surface down the water channel intercommunication, the inslot just is provided with solenoid valve two in the water round top, and solenoid valve two pass through time delay module and solenoid valve one signal connection, the lower extreme of system water organism has drain pipe one and drain pipe two in the corresponding position department rigid coupling of groove and lower water channel.

Further, the rotating cam and the rotating disc are provided with a plurality of weight reducing grooves.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

the invention forms the first annular array arranged electrolysis chamber and the second annular array arranged electrolysis chamber in the water making machine body, the acid water or alkaline water to be electrolyzed can be selected according to the requirement, the upper water channel is communicated with the upper water channel by pressing the pressing rod, the first electromagnetic valve is opened to enable direct drinking water to flow in, the upper valve plate is plugged again for the upper water channel by utilizing the hydrodynamic force when the direct drinking water flows in the electrolysis chamber, the second electromagnetic valve is automatically opened within a certain time after electrolysis, the lower water channel is communicated with the lower water channel by utilizing the hydrodynamic force of the second electrolysis chamber to discharge the required electrolysis water, the single electrolysis water generation is realized by pressing, the problems that the operation frequency is high, the misoperation probability greatly affects the service life of a knob and a machine are avoided, and meanwhile, the energy consumption is saved by utilizing the hydrodynamic force, and the water is more environment-friendly.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic view of a three-dimensional structure of the present invention;

FIG. 2 is a front view of the present invention;

FIG. 3 is a cross-sectional view taken along the direction A-A in FIG. 2;

FIG. 4 is a cross-sectional view taken along the direction B-B in FIG. 2;

FIG. 5 is a cross-sectional view taken along the direction C-C in FIG. 2;

FIG. 6 is an enlarged schematic view of the structure of FIG. 4 at E;

FIG. 7 is a top view of the present invention;

fig. 8 is a sectional view taken along the direction D-D in fig. 7.

Reference numerals in the drawings represent respectively: 1. a water producing machine body; 11. a partition portion; 12. a compartment; 13. a mounting frame; 14. an electrode plate; 15. an electrode tube; 151. a water through hole; 16. water-blocking ion-passing composite membrane; 2. a start assembly; 21. an upper rotating chamber; 22. an upper valve spool; 23. a water flow passage is arranged on the upper part; 24. an upper valve plate; 25. pressing a pressing rod; 26. a water channel is arranged on the upper part; 27. a first spring; 28. a receiving groove; 29. ball clamping; 210. a second spring; 211. a clamping groove; 212. a signal contact; 3. a shut-off valve reset assembly; 31. a tube shaft; 32. a rotating disc; 33. a protrusion; 34. a first electromagnetic valve; 35. a hydro-power generation member; 4. an automatic valve opening assembly; 41. a lower rotating chamber; 42. a lower valve spool; 43. a water drain pipe I; 44. a second electromagnetic valve; 45. a water wheel; 46. a third spring; 47. a lower valve plate; 48. a lower water channel; 49. a lower water flow passage; 410. rotating the cam; 411. and a water discharge pipe II.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples: referring to fig. 1 to 8, an electrolytic reduction water generator includes a water generator body 1 forming a plurality of first and second electrolysis chambers distributed in a ring-shaped array, a start assembly 2 for adding water to one of the first and second electrolysis chambers and electrolyzing the water, a valve closing reset assembly 3 for stopping the water addition to one of the first and second electrolysis chambers, and an automatic valve opening assembly 4 for discharging acidic water and alkaline water after electrolysis, respectively. The basic conception of the design of the invention is that: referring to fig. 3, the electrode in the second electrolytic chamber is set differently from the electrode in the first electrolytic chambers according to a rotation direction on the basis of ensuring the same area of the electrode plate 14 in the first electrolytic chamber, since the distance between the two electrodes is inversely proportional to the intensity of the electrolytic effect, i.e., a stronger electrolytic effect is obtained at a closer distance and a weaker electrolytic effect is obtained at a further distance. Then water that is more acidic or alkaline can be obtained by the electrolysis effect at the electrode in the first electrolysis chamber, which is located at a distance from the second electrolysis chamber.

Specifically, the following arrangement is made for ion exchange of the first and second electrolytic chambers with water: the center is provided with an electrode tube 15 in the water making machine body 1, a plurality of partition parts 11 are arranged in an annular array by taking the electrode tube 15 as the center, a partition chamber 12 is formed among the partition parts 11, the electrode tube 15 and the water making machine body 1, an electrode plate 14 and a water blocking ion composite membrane 16 for partitioning the electrode plate 14 and the electrode tube 15 are arranged in each partition chamber 12, the water blocking ion composite membrane 16 is formed by compositing an ion membrane and a water blocking membrane, one layer allows ion transmission, the other layer prevents water from passing through, the direct drinking water entering the first electrolysis chamber and the second electrolysis chamber is blocked, the area of each electrode plate 14 is the same, but the distance from the electrode tube 15 to the first electrolysis chamber and the second electrolysis chamber is sequentially increased or decreased along a certain rotation direction, 3-4 electrode plates 14 are set, more commonly used acid water and alkaline water are 3-4, the distance from the electrode plate 11 at the lowest relative to the partition part 14 at the bottom is sequentially increased along the counter-clockwise direction, on the premise that other conditions are basically the same, water blocking water with different acid or alkaline water is generated, the partition parts 11, the 14, the ion composite membrane 16 and the first electrolysis chamber and the second electrolysis chamber are formed by the first electrolysis chamber and the second electrolysis chamber are respectively, the electrode plate 11 and the second electrolysis chamber is formed, the water-forming the water blocking ion composite membrane 1 and the first electrolysis chamber and the second electrolysis chamber is the alkaline water-forming the water-phase-free water. In the present invention, the polarity of the electrode tube 15 and the electrode plate 14 is variable, i.e., both the electrode tube 15 and the electrode plate 14 can be used as positive or negative electrodes, depending on the specific alkaline or acidic water requirements.

One of the ion exchange hard conditions for the first and second electrolysis chambers: a mounting frame 13 is fixedly connected with the partition part 11 in the first electrolysis chamber, the mounting frame 13 is used for mounting an electrode plate 14, a gap exists between the lower part of the electrode plate 14 and the inner bottom surface of the first electrolysis chamber of the water making machine body 1, namely water can carry ions to flow through the gap between the electrode plate 14 and the water making machine body 1; the electrode tube 15 is longitudinally provided with water through holes 151 at corresponding positions of the first electrolytic chambers, and water entering the electrode tube 15 can flow in the first electrolytic chambers through the water through holes 151.

The following arrangement is made in order to allow a proper amount of drinking water to enter the electrolysis chamber (including the first electrolysis chamber and the second electrolysis chamber, hereinafter the same): the starting assembly 2 comprises an upper rotating cavity 21 arranged at the upper part of the water making machine body 1 and an annular array of upper valve grooves 22 communicated with the upper rotating cavity 21 and corresponding to one position of each electrolysis chamber, the water making machine body 1 is communicated with upper water through flow passages 23 at the positions of the upper valve grooves 22, an upper valve plate 24 is hermetically and slidingly connected in the upper valve grooves 22, an upper water through groove 26 communicated with the upper water through flow passages 23 is arranged in the upper valve plate 24, one side of the upper valve plate 24 far away from the axis of the water making machine body 1 is fixedly connected with a pressing rod 25, the other end of the pressing rod 25 penetrates through the upper valve grooves 22, a first spring 27 is sleeved outside the pressing rod 25, two ends of the first spring 27 are fixedly connected with the upper valve plate 24 and the inner wall of the upper valve groove 22 respectively, and the upper valve plate 24 is blocked by the elasticity of the first spring 27.

In order to maintain the upper water passage 26 in communication with the upper water passage 23 for a predetermined period of time, the following arrangement is made in which the direct drinking water is allowed to flow into the electrolysis chamber: at least one containing groove 28 is formed in the side face of the upper valve plate 24, a clamping ball 29 is connected in the containing groove 28 in a sliding mode, a spring II 210 is fixedly connected with the inner end of the clamping ball 29 and the inner wall of the containing groove 28, and a clamping groove 211 capable of being clamped with the containing groove 28 is formed in the inner wall of the upper valve groove 22; when the accommodating groove 28 is clamped with the clamping groove 211, the upper water passing groove 26 is completely communicated with the upper water passing channel 23, and the upper water passing channel 23 and the upper water passing groove 26 can maintain a communicated state under the condition of no external force influence by utilizing the clamping of the clamping ball 29 and the clamping groove 211.

In the non-electrolytic state, referring to fig. 4 and 6, at this time, the first spring 27 is in the original length state, the upper valve plate 24 seals the upper water passage 23, the upper water passage 23 and the upper water passage 26 are dislocated, the clamping ball 29 is received in the receiving groove 28, and the second spring 210 is in the compressed state; when acidic water or alkaline water within a specific pH value range is needed, a corresponding pressing rod 25 is pushed inwards to drive the upper valve plate 24 to move towards the axis direction of the water making machine body 1, so that the upper water through channel 23 is communicated with the upper water through channel 26, and direct drinking water flows into the electrolysis chamber under the cooperation of the valve closing reset assembly 3.

The following two settings were made in order to allow the right amount of drinking water to enter the electrolysis chamber: the starting component 2 further comprises a signal contact 212 arranged on the inner wall of the clamping groove 211; on the other hand, after the clamping ball 29 moves to the corresponding position of the clamping groove 211, the clamping ball is clamped into the clamping groove 211 under the elasticity of the second spring 210 and presses against the signal contact 212, and the end part of the upper valve plate 24 protrudes out of the upper valve groove 22 and can be influenced by the protrusion 33.

Specifically, the valve closing reset assembly 3 matched with the starting assembly 2 comprises a first bulge which is hermetically fixed and covered at the upper end of the water making machine body 1, the first bulge is provided with a straight pipe section and a funnel section, a first electromagnetic valve 34 in signal connection with the signal contact 212 is arranged in the straight pipe section, when the signal contact 212 is pressed against, a physical signal can be converted into an electric signal, the first electromagnetic valve 34 is controlled to be opened, and the straight pipe section is connected with direct drinking water with a certain water pressure so as to be capable of automatically feeding water.

The straight pipe section is internally fixedly provided with a water turbine generator 35, the water turbine generator 35 is an existing product, water flow can be utilized to generate electricity, the water turbine generator 35 is connected with the electrode pipe 15 in series and connected with the electrode plates 14 in parallel, when electrolysis is carried out, only one electrode plate 14 participates in electrolysis, the current direction can be converted through a converter (not shown in the figure), when acid water or alkaline water is generated, the converter can be additionally operated, a pipe shaft 31 is fixedly inserted into the water turbine generator 35, the lower end of the pipe shaft 31 penetrates through the water generator body 1 and is in airtight rotation connection with the water generator body and is communicated with the electrolysis chamber II, in the water inlet process of the straight pipe section, a small part of direct drinking water enters the electrolysis chamber II through the pipe shaft 31, and a large part of direct drinking water enters the electrolysis chamber I through the upper water through channels 23 and the upper water through channels 26 which are mutually communicated.

When the clamping ball 29 is abutted against the signal contact 212, the first electromagnetic valve 34 is kept in an electrified state, when the clamping ball 29 is separated from the clamping groove 211 and does not abut against the signal contact 212, the first electromagnetic valve 34 is powered off and is in a closed state to be powered off, and referring to fig. 4, a rotating disc 32 is fixedly connected to a tube shaft 31, protrusions 33 with the same number as that of the first electrolysis chambers are integrally formed on the outer peripheral surface of the rotating disc 32, when the end part of the upper valve plate 24 protrudes out of the upper valve groove 22, the rotating disc 32 and the protrusions 33 are driven to rotate under the action of hydraulic power through a hydraulic generator 35, on one hand, direct drinking water entering the electrolysis chamber is electrolyzed in the electrified state, and on the other hand, the clamping ball 29 is driven to leave the clamping groove 211 by pushing the upper valve groove 22 through the protrusions 33 so as to give up the abutting action on the signal contact 212.

Specifically, referring to fig. 5 to 7, the automatic valve opening assembly 4 includes a lower rotary chamber 41 formed at the lower part of the water making machine body 1, and a lower valve groove 42 formed in an annular array, communicated with the lower rotary chamber 41 and corresponding to a position of each electrolysis chamber, a lower water passage 49 is penetrated through each lower valve groove 42 of the water making machine body 1, a lower valve plate 47 is hermetically and slidably connected in the lower valve groove 42, a lower water passage groove 48 capable of being communicated with the lower water passage 49 is formed in the lower valve plate 47, a third spring 46 is fixedly connected to the inner wall of the lower valve groove 42 at one side of the lower valve plate 47 far away from the axis of the water making machine body 1, and the third spring 46 maintains the blocking state of the lower valve plate 47 on the lower water passage 49.

The lower end of the water generator 1 is provided with a groove penetrating through the inner side of the electrode tube 15, a water wheel 45 is arranged in the groove, a rotating cam 410 rotating in the lower rotating cavity 41 is fixedly connected on the water wheel 45, the electrolyzed water of the first electrolysis chamber is discharged again by utilizing the hydrodynamic force, and the water generator is additionally provided for reducing the weight of the manufacturing materials of the rotating cam 410 and the rotating disc 32: the rotating cam 410 and the rotating disk 32 each have a plurality of weight-reducing grooves.

The rotating cam 410 has curved surfaces with the same number as the first electrolytic chambers, the lower valve plate 47 is pushed by the curved surfaces to move relative to the lower valve groove 42 so that the lower water through groove 48 is communicated with the lower water through channel 49, in the process of contacting the lower valve plate 47 with the curved surfaces, the first electrolytic water in the electrolytic chambers can be discharged in the process of keeping the lower valve plate 47 in contact with the curved surfaces, before the electrolytic water is not discharged, the lower valve plate 47 is clamped between the adjacent curved surfaces, and after single water discharge, the lower valve plate 47 can be kept clamped between the next adjacent curved surfaces again, a magnetic attraction component can be additionally arranged to further ensure the positioning, a second electromagnetic valve 44 is arranged in the groove and above the water moving wheel 45, the second electromagnetic valve 44 is in signal connection with the first electromagnetic valve 34 through a delay module (not shown in the drawing), the lower end of the water making machine body 1 is fixedly connected with the first water discharge pipe 43 and the second water discharge pipe 411 in the corresponding position of the groove, and the acidic water and alkaline water can be completely discharged after each time of electrolysis, so that the water can be fully applied after changing the current flowing direction.

In the invention, when the first electromagnetic valve 34 is closed, electrolysis of water is stopped, then the second electromagnetic valve 44 is opened in a few seconds under the action of the delay module, before the first electromagnetic valve is closed, the lower valve plate 47 seals the lower water passage 49, the lower water passage 48 and the lower water passage 49 are in a dislocation state, the lower valve plate 47 is positioned between adjacent curved surfaces, after the second electromagnetic valve 44 is opened, the rotating cam 410 is driven to rotate under the action of the water impeller 45, the curved surfaces of the rotating cam 410 push the lower valve plates 47 to move towards the direction far away from the axis of the water making machine body 1, so that the lower water passage 48 is communicated with the lower water passage 49, electrolytic water is discharged through the first water discharge pipe 43 and the second water discharge pipe 411 synchronously, and the second water discharge pipe 411 can be externally connected with a waste water pipe to discharge waste water.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; these modifications or substitutions do not depart from the essence of the corresponding technical solutions from the protection scope of the technical solutions of the embodiments of the present invention.

Claims

1. An electrolytic reduction water making machine, characterized by comprising:

the water production machine comprises a water production machine body (1), wherein an electrode tube (15) is arranged in the center of the water production machine body (1), a plurality of separation parts (11) are arranged in an annular array by taking the electrode tube (15) as the center, a separation chamber (12) is formed among the separation parts (11), the electrode tube (15) and the water production machine body (1), an electrode plate (14) and a water blocking ion-passing composite membrane (16) for separating the electrode plate (14) and the electrode tube (15) are arranged in each separation chamber (12), the areas of the electrode plates (14) are the same, the distance from the electrode tube (15) to the electrode plate (14) is sequentially increased or decreased along a certain rotation direction, the separation part (11), the electrode plate (14), the water blocking ion-passing composite membrane (16) and the water production machine body (1) form a first electrolytic chamber, and the separation part (11), the electrode tube (15), the water blocking ion-passing composite membrane (16) and the water production machine body (1) form a second electrolytic chamber;

a starting assembly (2) for adding water to one of the first electrolysis chamber and the second electrolysis chamber and electrolyzing the water;

the valve closing reset assembly (3) is used for stopping water addition to one of the first electrolysis chamber and the second electrolysis chamber;

and the automatic valve opening assembly (4) is used for respectively discharging the electrolyzed acidic water and the electrolyzed alkaline water.

2. The electrolytic reduction water making machine according to claim 1, wherein a mounting frame (13) is fixedly connected with the partition part (11) in the first electrolytic chamber, the mounting frame (13) is used for mounting an electrode plate (14), and a gap exists between the lower part of the electrode plate (14) and the inner bottom surface of the first electrolytic chamber of the water making machine body (1); the electrode tube (15) is longitudinally provided with a water through hole (151) at the corresponding position of the first electrolytic chamber.

3. The electrolytic reduction water generator according to claim 1, wherein the starting assembly (2) comprises an upper rotating cavity (21) arranged at the upper part of the water generator body (1) and an annular array of upper valve grooves (22) which are arranged, communicated with the upper rotating cavity (21) and correspond to one position of each electrolysis chamber, the water generator body (1) is communicated with an upper water through flow channel (23) at each upper valve groove (22), an upper valve plate (24) is hermetically and slidingly connected in each upper valve groove (22), an upper water through channel (26) which can be communicated with the upper water through flow channel (23) is arranged in the upper valve plate (24), a pressing rod (25) is fixedly connected to one side, far away from the axis of the water generator body (1), of the upper valve plate (24), the other end of the pressing rod (25) is arranged through the upper valve groove (22), a spring one (27) is sleeved outside the pressing rod (25), and two ends of the spring one (27) are fixedly connected with the upper valve plate (24) and the inner wall of the upper valve groove (22) respectively;

at least one accommodating groove (28) is formed in the side face of the upper valve plate (24), a clamping ball (29) is connected in the accommodating groove (28) in a sliding mode, a spring II (210) is fixedly connected with the inner end of the clamping ball (29) and the inner wall of the accommodating groove (28), and a clamping groove (211) capable of being clamped with the accommodating groove (28) is formed in the inner wall of the upper valve groove (22); when the accommodating groove (28) is clamped with the clamping groove (211), the upper water through groove (26) is completely communicated with the upper water through channel (23).

4. A water machine according to claim 3, characterized in that the starting assembly (2) further comprises a signal contact (212) arranged on the inner wall of the clamping groove (211);

the valve closing reset assembly (3) comprises a first bulge which is arranged at the upper end of the water making machine body (1) in an airtight fixed cover manner, the first bulge is provided with a straight pipe section and a funnel section, a first electromagnetic valve (34) which is in signal connection with a signal contact (212) is arranged in the straight pipe section, a hydroelectric generating part (35) is fixedly arranged in the straight pipe section, the hydroelectric generating part (35) is connected with an electrode pipe (15) in series and connected with a plurality of electrode plates (14) in parallel, the current direction can be converted through a converter, a pipe shaft (31) is fixedly inserted into the hydroelectric generating part (35), and the lower end of the pipe shaft (31) penetrates through the water making machine body (1) and is in airtight rotation connection with the water making machine body and is communicated with a second electrolytic chamber;

a rotating disc (32) is fixedly connected to the tube shaft (31), and protrusions (33) the same as the electrolytic chambers in number are integrally formed on the outer peripheral surface of the rotating disc (32).

5. The electrolytic reduction water generator according to claim 4, wherein the automatic valve opening assembly (4) comprises a lower rotating cavity (41) arranged at the lower part of the water generator body (1) and a lower valve groove (42) which is arranged in an annular array, is communicated with the lower rotating cavity (41) and corresponds to one position of each electrolysis chamber, the water generator body (1) is communicated with a lower water through channel (49) at each lower valve groove (42), a lower valve plate (47) is hermetically and slidingly connected in each lower valve groove (42), a lower water through channel (48) which can be communicated with the lower water through channel (49) is arranged in the lower valve plate (47), and a spring III (46) is fixedly connected with the inner wall of the lower valve groove (42) at one side, far away from the axis of the water generator body (1), of the lower valve plate (47);

the lower extreme of system water organism (1) just has the groove in electrode pipe (15) inboard link up, the inslot is provided with water round (45), rigid coupling has on water round (45) and rotates rotating cam (410) of intracavity (41) under, and rotating cam (410) have a plurality of curved surfaces lower valve plate (47) and curved surface contact in-process, lower water channel (48) and lower water channel (49) intercommunication, inslot and be provided with solenoid valve two (44) above water round (45), and solenoid valve two (44) pass through time delay module and solenoid valve one (34) signal connection, the lower extreme of system water organism (1) is in the corresponding position department rigid coupling of groove and lower water channel (49) have drain pipe one (43) and drain pipe two (411).

6. The electrolytic reduction water generator according to claim 5, wherein the rotating cam (410) and the rotating disk (32) each have a plurality of weight-reducing grooves.