CN116474606B - Preparation device, process and method of electrolytic neutral ion mouthwash - Google Patents

Abstract

The invention relates to the technical field of preparation of oral health care preparations, and in particular discloses a device, a process and a method for preparing electrolytic neutral ion mouthwash. The device comprises a device main body, wherein the device main body comprises a first mounting table and a second mounting table, and a tank body is arranged between the first mounting table and the second mounting table; the tank body is arranged between the first mounting table and the second mounting table through a rotating mechanism; the tank body is internally provided with a first cavity, a second cavity and a third cavity, a driving mechanism is arranged in the second cavity, and sealing mechanisms are arranged between the second cavity and the first cavity and between the second cavity and the third cavity. The liquid medicine mixing device can repeatedly smash liquid medicine from a high place to a low place, solves the problem of low liquid medicine mixing efficiency, and achieves the effect of improving the liquid medicine mixing efficiency. The preparation process is completed through four steps of preparing ionized water, mixing, stirring and bottling. The preparation method comprises the steps of mixing hydrogen peroxide, sorbitol, peppermint essence, sucralose, sodium pyrophosphate and alkaline ionized water according to a proportion of 3:10:1:1:2:83 is prepared by mixing the components according to the proportion.

Description

Preparation device, process and method of electrolytic neutral ion mouthwash

Technical Field

The invention relates to the technical field of preparation of oral health care preparations, in particular to a device, a process and a method for preparing electrolytic neutral ion mouthwash.

Background

In the preparation process of the electrolytic neutral ion mouthwash, firstly, alkaline ion water is prepared through electrolysis by an ion water generator, then ingredients are added into the alkaline ion water according to a certain proportion, and finally, the mixed alkaline ion water is added into a stirring kettle for stirring.

Because the stirring method at present is to stir the liquid medicine in the stirring kettle by driving the stirring rod to rotate clockwise or anticlockwise by a motor, the stirring method can lead the stirring rod to drive the liquid medicine in the stirring kettle to rotate along the same direction, thereby forming a circulation, and the circulation is easy to lead the liquid to be layered, thereby leading to lower liquid medicine mixing efficiency in the stirring kettle and being unfavorable for the mixing of the liquid medicine.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a preparation device, a process and a method of electrolytic neutral ion mouthwash. The liquid medicine stirring device can realize the function that liquid medicine can not form circulation when being stirred by repeatedly smashing the liquid medicine from a high place to a low place, solves the problem of lower liquid medicine mixing efficiency, and achieves the effect of improving the liquid medicine mixing efficiency.

In order to solve the technical problems, the invention is solved by the following technical scheme:

the preparation device of the electrolytic neutral ion mouthwash comprises a preparation device of the electrolytic neutral ion mouthwash, and comprises a device main body, wherein the device main body comprises a first mounting table and a second mounting table, and a tank body which is vertically arranged is arranged between the first mounting table and the second mounting table; the tank body is arranged between the first mounting table and the second mounting table through a rotating mechanism; the rotating mechanism is used for realizing the rotation of the tank body on the vertical surface, and the length direction of the tank body is perpendicular to the rotating axis of the rotating mechanism; the tank body is internally provided with a first cavity, a second cavity and a third cavity which are independent in sequence along the length direction of the tank body, and two ends of the tank body are respectively provided with a first feeding and discharging hole and a second feeding and discharging hole which are communicated with the first cavity and the third cavity; a driving mechanism is arranged in the second cavity, and sealing mechanisms are arranged between the second cavity and the first and third cavities; the sealing mechanism is used for maintaining the cut-off state between the second cavity and the first cavity and the third cavity at the same time, and the driving mechanism is used for realizing the switching to the conduction state between the second cavity and the first cavity and between the second cavity and the third cavity at the same time when the tank body is in the vertical state.

Through the setting of device main part, first mount table, second mount table, jar body, first business turn over discharge gate, second business turn over discharge gate, first cavity, second cavity, third cavity, slewing mechanism, actuating mechanism and sealing mechanism in this embodiment, make the more even of liquid medicine mixing, the mixing effect of liquid medicine has also been promoted to the while preferred.

Preferably, the rotating mechanism comprises a vertically arranged frame body, the side walls of the upper end and the lower end of the frame body are respectively provided with a lantern ring which is sleeved on the outer side wall of the tank body, a first rotating shaft seat is arranged on the first mounting table, the side wall, close to the first rotating shaft seat, of the frame body is provided with a rotating rod which penetrates through the first rotating shaft seat and is rotationally connected with the first rotating shaft seat, and one end, far away from the first rotating shaft seat, of the rotating rod is used for power transmission.

Through the setting of framework, lantern ring, dwang and first pivot seat in this embodiment, the preferred drive jar body of having made things convenient for rotates.

Preferably, the sealing mechanism comprises a mounting ring arranged on the inner side wall of the tank body, and a first inclined surface arranged along the circumferential direction of the mounting ring is arranged on the inner side wall of the mounting ring; the installation ring department all is equipped with and cooperatees with first inclined plane to be used for shutoff two installation ring's closing plate.

By arranging the mounting ring, the first inclined surface and the sealing plate, the sealing performance of the sealing plate is better improved.

Preferably, the driving mechanism comprises a mounting sleeve arranged in the second cavity, and an electromagnet is arranged in the mounting sleeve; the two ends of the electromagnet are respectively provided with a first mounting plate connected with the inner side wall of the mounting sleeve, the openings at the two ends of the mounting sleeve are respectively provided with a sealing cover for sealing the mounting sleeve, a sliding column penetrating through the first mounting plate is arranged between the sealing covers and the first mounting plate, the side wall of the sliding column far away from one end of the first mounting plate is provided with a first sealing plate matched with the inner side wall of the mounting sleeve, and one end of the first sealing plate close to the first mounting plate is provided with a second sealing plate; a first spring sleeved on the sliding column is arranged between the second sealing plate and the first mounting plate; one end of the sliding column, which is far away from the electromagnet, is provided with a supporting plate, and one end of the supporting plate, which is far away from the sliding column, is provided with a plurality of connecting rods which penetrate through the sealing cover and are connected with the sealing plate; the outer side wall of the mounting sleeve is provided with a plurality of fixing rods connected with the inner side wall of the second cavity, and the outer side wall of the tank body is provided with a trigger mechanism for switching on the electromagnet in the vertical state of the tank body.

Through the arrangement of the mounting sleeve, the electromagnet, the first mounting plate, the sealing cover, the sliding column, the first sealing plate, the second sealing plate, the first spring, the supporting plate, the connecting rod, the fixing rod and the triggering mechanism, the mounting ring is conveniently opened and closed; simultaneously through the setting of first closing plate and second closing plate, the leakproofness in the preferred promotion installation sleeve, the preferred liquid medicine that has prevented gets into in the installation sleeve.

Preferably, the triggering mechanism comprises a mounting block arranged on the outer side wall of the tank body, and a first through hole arranged along the length direction of the tank body is arranged in the mounting block; a circular groove is formed in one end face, far away from the tank body, of the mounting block, a second through hole penetrating through the mounting block and communicated with the first through hole is formed in the center of the circular groove, a hollow tube with two ends penetrating through the side wall of the tank body and the side wall of the mounting sleeve respectively is arranged on the outer side wall of the mounting sleeve, and one end, penetrating through the side wall of the tank body, of the hollow tube is communicated with the second through hole; the upper end and the lower end of the circular groove are respectively provided with a mounting groove, a third through hole communicated with the first through hole is arranged on the bottom wall of the circular groove, which is close to the mounting groove, and a sliding groove communicated with the third through hole and the mounting groove is arranged between the third through hole and the mounting groove; a sliding plate is arranged in the mounting groove, a first sliding block is arranged in the third through hole, a connecting plate which penetrates through the sliding groove and is connected with the first sliding block is arranged on the side wall of the sliding plate, a second spring for pushing the sliding plate is arranged between the sliding plate and the bottom wall of the mounting groove, and a plugging plate for plugging the mounting groove is arranged at the opening of the mounting groove;

the second mounting table is provided with a second rotating shaft seat, the second rotating shaft seat is fixedly connected with a mounting rod penetrating through the side wall of the frame body, one end of the mounting rod, far away from the second rotating shaft seat, is provided with a second mounting plate, two ends of the second mounting plate are respectively provided with a second sliding block extending into the circular groove, one end, close to the circular groove, of the second sliding block is provided with a hemispherical groove, and the first sliding block is provided with an arc-shaped surface matched with the hemispherical groove; a fourth through hole reversely arranged along the length of the first sliding block is formed in the first sliding block, one end, close to the arc-shaped surface, of the fourth through hole is provided with an installation step, a copper sheet is arranged in the installation step, one end, close to the fourth through hole, of the copper sheet is provided with a conducting wire which penetrates through the fourth through hole, the third through hole, the first through hole and the hollow tube and is connected with the electromagnet; one end of the second mounting plate, which is close to the second sliding block, is provided with a copper block matched with the copper sheet by penetrating through the second sliding block.

Through the arrangement of the mounting block, the first through hole, the circular groove, the second through hole, the hollow pipe, the mounting groove, the third through hole, the sliding groove, the sliding plate, the first sliding block, the connecting plate, the second spring, the plugging plate, the second rotating shaft seat, the mounting rod, the second mounting plate, the second sliding block, the hemispherical groove, the arc surface, the fourth through hole, the mounting step, the copper sheet, the lead and the copper block, the liquid medicine in the first cavity or the third cavity is preferably prevented from being spilled in the rotation process of the tank body; simultaneously, the sealing plate can be opened under the vertical state of the tank body, so that the liquid medicine can smoothly flow downwards.

Preferably, a limiting column extending into the second through hole is arranged at the center of the second mounting plate.

By the arrangement of the limiting column, stability of the mounting block during rotation is improved better.

Preferably, a fixed sleeve connected with the inner side wall of the second cavity is arranged in the second cavity, and the side walls at the openings at the two ends of the fixed sleeve gradually decrease to the side wall at the center of the fixed sleeve to form a second inclined plane, a third inclined plane and a fifth through hole; the dead lever is connected with the inside wall of fifth through-hole, and the hollow tube passes fixed sleeve.

Through the arrangement of the fixing sleeve, the second inclined surface, the third inclined surface and the fifth through hole, the mixing efficiency of the liquid medicine is better improved.

Preferably, the sliding column is made of an iron metal material, and the second mounting plate is made of a copper metal material.

The sliding column is made of the iron metal material, and the second mounting plate is made of the copper metal material, so that the electromagnet can be conveniently attracted to the sliding column and is communicated with the electromagnet circuit.

The invention provides a preparation process of electrolytic neutral ion mouthwash, which comprises the following steps,

s1: preparing ionized water; electrolyzing water by an ion water generator to obtain alkaline ion water;

s2: mixing; respectively adding hydrogen peroxide, sorbitol, peppermint essence, sucralose and sodium pyrophosphate into the alkaline ionized water prepared in the step S1 to prepare a mixed solution;

s3: stirring; adding the mixed solution in the step S2 into a tank body, and stirring by a stirring mechanism in the tank body to prepare a mixed solution;

s4: bottling; and (3) filling the mixed solution prepared in the step (S3) into a bottle, packaging and boxing.

The invention also provides a preparation method of the electrolytic neutral ion mouthwash, which comprises the steps of mixing hydrogen peroxide, sorbitol, peppermint essence, sucralose, sodium pyrophosphate and alkaline ion water according to a ratio of 3:10:1:1:2:83, mixing and preparing the mixture; the electrolyzed mixture of high purity water and medical high purity sodium chloride (hypochlorous acid, sodium hydroxide, charged ionic state water (concentration 300 ppm), similar to hypochlorous acid secreted by human biological cells).

Drawings

Fig. 1 is a schematic view of the device body in embodiment 1.

Fig. 2 is a schematic view of a rotating mechanism in embodiment 1.

Fig. 3 is a schematic view of the second mounting plate, the second slider, the hemispherical recess, the copper block and the stopper in embodiment 1.

Fig. 4 is a schematic view of the trigger mechanism in embodiment 1.

Fig. 5 is an enlarged view of the trigger mechanism in embodiment 1.

Fig. 6 is a cross-sectional view of the device body in example 1.

Fig. 7 is a sectional view of the drive mechanism in embodiment 1.

Fig. 8 is a cross-sectional view of the trigger mechanism in embodiment 1.

Fig. 9 is a schematic view of a sliding plate, a mounting groove, a second spring, a sliding groove, a copper sheet, and a third through hole in embodiment 1.

Fig. 10 is a schematic view of a fourth through hole, a mounting step, an arcuate surface, and a connection plate in embodiment 1.

Detailed Description

For a further understanding of the present invention, the present invention will be described in detail with reference to the drawings and examples. It is to be understood that the examples are illustrative of the present invention and are not intended to be limiting.

Example 1

As shown in fig. 1, 6 and 7, the present embodiment provides a preparation apparatus of electrolytic neutral ion mouthwash, which includes an apparatus main body 110, the apparatus main body 110 includes a first mounting table 150 and a second mounting table 160, and a tank 120 vertically disposed is disposed between the first mounting table 150 and the second mounting table 160; the tank 120 is arranged between the first mounting table 150 and the second mounting table 160 through a rotating mechanism; the rotating mechanism is used for realizing the rotation of the tank body 120 on a vertical surface, and the length direction of the tank body 120 is perpendicular to the rotating axis of the rotating mechanism; the tank 120 is internally provided with a first cavity 610, a second cavity 620 and a third cavity 630 which are independent along the length direction, and two ends of the tank 120 are respectively provided with a first feeding and discharging hole 190 and a second feeding and discharging hole 180 which are used for being communicated with the first cavity 610 and the third cavity 630; a driving mechanism is arranged in the second cavity 620, and a sealing mechanism 710 is arranged between the second cavity 620 and the first cavity 610 and the third cavity 630; the sealing mechanism 710 is used for maintaining the cut-off state between the second cavity 620 and the first and third cavities 610 and 630 at the same time, and the driving mechanism is used for switching the second cavity 620 and the first and third cavities 610 and 630 to the conduction state when the can 120 is in the vertical state.

Through the device main part 110 in this embodiment, first mount table 150, second mount table 160, jar body 120, first business turn over discharge gate 190, second business turn over discharge gate 180, first cavity 610, second cavity 620, third cavity 630, rotary mechanism, actuating mechanism and sealing mechanism's setting, make the staff with the liquid medicine that mixes in first business turn over discharge gate 190 place add interior first cavity 610, actuating mechanism opens sealing mechanism this moment, the liquid medicine falls into second cavity 620 from first cavity 610, again from second cavity 620 in entering third cavity 630, constantly bump with jar body 120 lateral wall in the liquid medicine whereabouts in-process, accomplish the stirring, after the liquid medicine finishes adding, rotary mechanism drives jar body 120 and rotates, drive mechanism makes sealing mechanism shutoff in the rotation in-process, after jar body 120 rotates 180 degrees, third cavity 630 is located first cavity 610 top, actuating mechanism makes sealing mechanism open, fall into second cavity 620 from third cavity 630 in, again from second cavity 620 in, in this second cavity 620, in this process, bump with jar body 120 lateral wall again, thereby the liquid medicine is even more evenly mixed liquid medicine has been made up like this, the jar body 120 lateral wall is bumped in this process, thereby the liquid medicine is even more evenly, the liquid medicine is mixed like this, the jar body is made, the side wall is bumped again, and the liquid medicine 120 is made, the effect of the like can be even like this, the rotation is made.

Referring to fig. 2, in this embodiment, the rotating mechanism includes a frame 130 disposed vertically, the side walls at the upper and lower ends of the frame 130 are respectively provided with a collar 210 for sleeving on the outer side wall of the tank 120, the first mounting table 150 is provided with a first rotating shaft seat 140, the side wall of the frame 130, which is close to the first rotating shaft seat 140, is provided with a rotating rod 220 passing through the first rotating shaft seat 140 and rotationally connected with the first rotating shaft seat 140, and one end of the rotating rod 220, which is far away from the first rotating shaft seat 140, is used for power transmission.

Through the arrangement of the frame 130, the collar 210, the rotating rod 220 and the first rotating shaft seat 140 in this embodiment, the motor drives the rotating rod 220 to rotate, the rotating rod 220 rotates to drive the frame 130 to rotate, and the frame 130 rotates to drive the can 120 to rotate, so that the can 120 is driven to rotate conveniently.

Referring to fig. 7, in this embodiment, the sealing mechanism includes a mounting ring 710 disposed on an inner sidewall of the can 120, and a first inclined surface 711 disposed along a circumferential direction of the mounting ring 710 is disposed on an inner sidewall of the mounting ring 710; the mounting rings 710 are provided with sealing plates 720 which are matched with the first inclined surfaces 711 and are used for sealing the two mounting rings 710.

Through the arrangement of the mounting ring 710, the first inclined surface 711 and the sealing plate 720 in the embodiment, when the tank body 120 is in a rotating state, the driving mechanism abuts the sealing plate 720 on the first inclined surface 711 on the mounting ring 710, so that the liquid medicine in the first cavity 610 or the third cavity 630 of the tank body 120 is prevented from falling into the second cavity 620 in the rotating process, and the sealing performance of the sealing plate 720 is improved.

In this embodiment, the driving mechanism includes a mounting sleeve 750 disposed in the second cavity 620, and an electromagnet 760 is disposed in the mounting sleeve 750; the two ends of the electromagnet 760 are respectively provided with a first mounting plate 790 connected with the inner side wall of the mounting sleeve 750, the openings at the two ends of the mounting sleeve 750 are respectively provided with a sealing cover 773 for sealing the mounting sleeve 750, a sliding column 770 penetrating through the first mounting plate 790 is arranged between the sealing cover 773 and the first mounting plate 790, the side wall of the sliding column 770 far away from one end of the first mounting plate 790 is provided with a first sealing plate 774 matched with the inner side wall of the mounting sleeve 750, and one end of the first sealing plate 774 close to the first mounting plate 790 is provided with a second sealing plate 775; a first spring 791 sleeved on the sliding column 770 is arranged between the second sealing plate 775 and the first mounting plate 790; one end of the sliding column 770 far away from the electromagnet 760 is provided with a supporting plate 771, and one end of the supporting plate 771 far away from the sliding column 770 is provided with a plurality of connecting rods 772 which penetrate through the sealing cover 773 and are connected with the sealing plate 720; the outer side wall of the mounting sleeve 750 is provided with a plurality of fixing rods 740 connected with the inner side wall of the second cavity 620, and the outer side wall of the tank 120 is provided with a triggering mechanism for switching on the electromagnet 760 in the vertical state of the tank 120.

Through the arrangement of the mounting sleeve 750, the electromagnet 760, the first mounting plate 790, the sealing cover 773, the sliding columns 770, the first sealing plate 774, the second sealing plate 775, the first spring 791, the supporting plate 771, the connecting rod 772, the fixing rod 740 and the triggering mechanism in the embodiment, when the tank 120 is in a vertical state, the triggering mechanism can energize the electromagnet 760, so that the electromagnet 760 adsorbs the two sliding columns 770, the two sliding columns 770 move towards the direction of the electromagnet 760, the sliding columns 770 move, the supporting plate 771 is pulled to move, the supporting plate 771 moves to drive the connecting rod 772 and pull the sealing plate 720 to open the mounting ring 710, and the liquid medicine above falls below under the action of gravity; when the tank 120 rotates, the trigger mechanism de-energizes the electromagnet 760, and at this time, the first spring 791 pushes the second sealing plate 775, so as to drive the sliding column 770 to move, and the sliding column 770 moves to push the connecting rod 772 and the sealing plate 720 to block the mounting ring 710; thereby preferably facilitating the opening and closing of the mounting ring 710; simultaneously, through the arrangement of the first sealing plate 774 and the second sealing plate 775, the tightness in the mounting sleeve 750 is improved, and the liquid medicine is prevented from entering the mounting sleeve 750.

In this embodiment, the triggering mechanism includes a mounting block 410 disposed on an outer sidewall of the can 120, and a first through hole 550 disposed along a length direction of the can 120 is disposed in the mounting block 410; a circular groove 510 is formed in one end surface of the mounting block 410 far away from the tank body 120, a second through hole 520 penetrating through the mounting block 410 and communicated with the first through hole 550 is formed in the center of the circular groove 510, a hollow tube 780 with two ends penetrating through the side wall of the tank body 120 and the side wall of the mounting sleeve 750 respectively is formed in the outer side wall of the mounting sleeve 750, and one end of the hollow tube 780 penetrating through the side wall of the tank body 120 is communicated with the second through hole 520; mounting grooves 930 are formed at the upper end and the lower end of the circular groove 510, a third through hole 970 communicated with the first through hole 550 is formed on the bottom wall, close to the mounting grooves 930, of the circular groove 510, and a sliding groove 950 communicated with the third through hole 970 and the mounting grooves 930 is formed between the third through hole 970 and the mounting grooves 930; the installation groove 930 is internally provided with a sliding plate 910, the third through hole 970 is internally provided with a first sliding block 530, the side wall of the sliding plate 910 is provided with a connecting plate 1004 which passes through the sliding groove 950 and is connected with the first sliding block 530, a second spring 940 for pushing the sliding plate 910 is arranged between the sliding plate 910 and the bottom wall of the installation groove 930, and the opening of the installation groove 930 is provided with a plugging plate 540 for plugging the installation groove 930;

the second installation table 160 is provided with a second rotating shaft seat 170, the second rotating shaft seat 170 is fixedly connected with an installation rod 230 penetrating through the side wall of the frame 130, one end of the installation rod 230, far away from the second rotating shaft seat 170, is provided with a second installation plate 310, two ends of the second installation plate 310 are respectively provided with a second sliding block 320 extending into the circular groove 510, one end, close to the circular groove 510, of the second sliding block 320 is provided with a hemispherical groove 330, and the first sliding block 530 is provided with an arc-shaped surface 1003 matched with the hemispherical groove 330; a fourth through hole 1001 reversely arranged along the length of the first sliding block 530 is arranged in the first sliding block 530, one end, close to the arc-shaped surface 1003, of the fourth through hole 1001 is provided with an installation step 1002, a copper sheet 960 is arranged in the installation step 1002, one end, close to the fourth through hole 1001, of the copper sheet 960 is provided with a conducting wire 810 which penetrates through the fourth through hole 1001, the third through hole 970, the first through hole 550 and the hollow tube 780 and is connected with the electromagnet 760; the second mounting plate 310 has a copper block 340 near one end of the second slider 320 that is coupled to a copper sheet 960 through the second slider 320.

Through the arrangement of the mounting block 410, the first through hole 550, the circular groove 510, the second through hole 520, the hollow tube 780, the mounting groove 930, the third through hole 970, the sliding groove 950, the sliding plate 910, the first sliding block 530, the connecting plate 1004, the second spring 940, the plugging plate 540, the second rotating shaft seat 170, the mounting rod 230, the second mounting plate 310, the second sliding block 320, the hemispherical groove 330, the arc surface 1003, the fourth through hole 1001, the mounting step 1002, the copper sheet 960, the wire 810 and the copper block 340 in the embodiment, the mounting block 410 rotates together with the can 120 in the rotation process of the can 120, when the can 120 rotates to the vertical state, the first sliding block 530 stretches into the hemispherical groove 330, and at this time, the copper sheet 960 in the mounting step 1002 contacts with the copper block 340 on the second mounting plate 310, so as to switch on a circuit, and the electromagnet 760 is electrified, so that the electromagnet 760 adsorbs the two sliding columns 770, and thus the sealing plate 720 is opened; when the can 120 continues to rotate, the hemispherical recess 330 of the second slider 320 will press the arcuate surface 1003 of the first slider 530, thereby pushing the first slider 530 to retract into the third through hole 970, thereby breaking the circuit; during the movement of the first sliding block 530, the first sliding block 530 drives the sliding plate 910 to move, so that the sliding plate 910 presses the second spring 940, and when the second sliding block 320 is separated from the first sliding block 530, the second spring 940 pushes the sliding plate 910 to move, so as to drive the first sliding block 530 to extend out of the third through hole 970; thereby preferably preventing the liquid medicine in the first cavity 610 or the third cavity 630 from being spilled out during the rotation of the can 120; and also ensures that the sealing plate 720 can be opened in the vertical state of the tank 120 so that the liquid medicine smoothly flows down.

In this embodiment, a limiting post 350 extending into the second through hole 520 is disposed at the center of the second mounting plate 310.

Through the setting of the spacing post 350 in this embodiment, the spacing post 350 stretches into the second through hole 520, and the mounting block 410 rotates with the spacing post 350 as the center, so that the stability of the mounting block 410 during rotation is improved.

In this embodiment, a fixed sleeve 730 connected to the inner side wall of the second cavity 620 is disposed in the second cavity 620, and the side walls at the openings of the two ends of the fixed sleeve 730 gradually decrease to the side wall at the center of the fixed sleeve 730 to form a second inclined plane 731, a third inclined plane 733 and a fifth through hole 732; the fixing rod 740 is connected to the inner side wall of the fifth through hole 732, and the hollow tube 780 passes through the fixing sleeve 730.

Through the arrangement of the fixing sleeve 730, the second inclined plane 731, the third inclined plane 733 and the fifth through hole 732 in the embodiment, when the tank 120 is in a vertical state, the liquid medicine falls under the action of gravity, the liquid medicine firstly flows out of the first cavity 610 and then hits the second inclined plane 731 to finish one-time mixing, and then the liquid medicine slides down along the second inclined plane 731 to hit the outer side wall of the mounting sleeve 750 to finish the second mixing, then falls along the outer side wall of the mounting sleeve 750 to hit the sealing plate 720 to finish the third mixing; finally, the liquid medicine falls into the third cavity 630 from the sealing plate 720, and the fourth mixing is completed; thereby better improving the mixing efficiency of the liquid medicine.

In this embodiment, the sliding column 770 is made of a ferrous metal material, and the second mounting plate 310 is made of a copper metal material.

Through the sliding column 770 in this embodiment made of iron metal material, the second mounting plate 310 is made of copper metal material, which preferably facilitates the adsorption of the electromagnet 760 to the sliding column 770 and the connection of the circuit of the electromagnet 760.

In this embodiment, a process for preparing electrolytic neutral ion mouthwash is provided, comprising the steps of,

s1: preparing ionized water; electrolyzing water by an ion water generator to obtain alkaline ion water;

s2: mixing; respectively adding hydrogen peroxide, sorbitol, peppermint essence, sucralose and sodium pyrophosphate into the alkaline ionized water prepared in the step S1 to prepare a mixed solution;

s3: stirring; adding the mixed solution in the step S2 into the tank 120, and stirring to obtain a mixed solution;

s4: bottling; and (3) filling the mixed solution prepared in the step (S3) into a bottle, packaging and boxing.

The embodiment also provides a preparation method of the electrolytic neutral ion mouthwash, which comprises the steps of mixing hydrogen peroxide, sorbitol, peppermint essence, sucralose, sodium pyrophosphate and alkaline ion water according to a ratio of 3:10:1:1:2:83, mixing and preparing the mixture; the electrolyzed mixture of high purity water and medical high purity sodium chloride (hypochlorous acid, sodium hydroxide, charged ionic state water (concentration 300 ppm), similar to hypochlorous acid secreted by human biological cells).

In summary, the foregoing description is only of the preferred embodiments of the present invention, and all equivalent changes and modifications made in accordance with the claims should be construed to fall within the scope of the invention.

Claims (6)

1. The preparation device of the electrolytic neutral ion mouthwash is characterized in that: the device comprises a device main body (110), wherein the device main body (110) comprises a first mounting table (150) and a second mounting table (160), and a tank body (120) which is vertically arranged is arranged between the first mounting table (150) and the second mounting table (160); a tank body (120) is arranged between the first mounting table (150) and the second mounting table (160) through a rotating mechanism; the rotating mechanism is used for realizing the rotation of the tank body (120) on a vertical surface, and the length direction of the tank body (120) is perpendicular to the rotating axis of the rotating mechanism; the tank body (120) is internally provided with a first cavity (610), a second cavity (620) and a third cavity (630) which are independent in sequence along the length direction, and two ends of the tank body (120) are respectively provided with a first material inlet and outlet (190) and a second material inlet and outlet (180) which are communicated with the first cavity (610) and the third cavity (630); a driving mechanism is arranged in the second cavity (620), and a sealing mechanism is arranged between the second cavity (620) and the first cavity (610) and the third cavity (630); the sealing mechanism is used for maintaining a cut-off state between the second cavity (620) and the first cavity (610) and the third cavity (630) at the same time, and the driving mechanism is used for realizing switching to a conducting state between the second cavity (620) and the first cavity (610) and the third cavity (630) at the same time when the tank body (120) is in a vertical state;

the driving mechanism comprises a mounting sleeve (750) arranged in the second cavity (620), and an electromagnet (760) is arranged in the mounting sleeve (750); the two ends of the electromagnet (760) are respectively provided with a first mounting plate (790) connected with the inner side wall of the mounting sleeve (750), the openings at the two ends of the mounting sleeve (750) are respectively provided with a sealing cover (773) for sealing the mounting sleeve (750), a sliding column (770) penetrating through the first mounting plate (790) is arranged between the sealing cover (773) and the first mounting plate (790), the side wall of one end, far away from the first mounting plate (790), of the sliding column (770) is provided with a first sealing plate (774) matched with the inner side wall of the mounting sleeve (750), and one end, close to the first mounting plate (790), of the first sealing plate (774) is provided with a second sealing plate (775); a first spring (791) sleeved on the sliding column (770) is arranged between the second sealing plate (775) and the first mounting plate (790); one end of the sliding column (770) far away from the electromagnet (760) is provided with a supporting plate (771), and one end of the supporting plate (771) far away from the sliding column (770) is provided with a plurality of connecting rods (772) which penetrate through the sealing cover (773) and are connected with the sealing plate (720); a plurality of fixing rods (740) connected with the inner side wall of the second cavity (620) are arranged on the outer side wall of the mounting sleeve (750); a triggering mechanism for switching on the electromagnet (760) in the vertical state of the tank body (120) is arranged on the outer side wall of the tank body (120);

the triggering mechanism comprises a mounting block (410) arranged on the outer side wall of the tank body (120), and a first through hole (550) arranged along the length direction of the tank body (120) is arranged in the mounting block (410); a circular groove (510) is formed in one end face, far away from the tank body (120), of the mounting block (410), a second through hole (520) penetrating through the mounting block (410) and communicated with the first through hole (550) is formed in the center of the circular groove (510), a hollow tube (780) with two ends penetrating through the side wall of the tank body (120) and the side wall of the mounting sleeve (750) respectively is arranged on the outer side wall of the mounting sleeve (750), and one end, penetrating through the side wall of the tank body (120), of the hollow tube (780) is communicated with the second through hole (520); mounting grooves (930) are formed at the upper end and the lower end of the circular groove (510), a third through hole (970) communicated with the first through hole (550) is formed on the bottom wall, close to the mounting grooves (930), of the circular groove (510), and a sliding groove (950) communicated with the third through hole (970) and the mounting grooves (930) is formed between the third through hole (970) and the mounting grooves (930); a sliding plate (910) is arranged in the mounting groove (930), a first sliding block (530) is arranged in the third through hole (970), a connecting plate (1004) which penetrates through the sliding groove (950) and is connected with the first sliding block (530) is arranged on the side wall of the sliding plate (910), a second spring (940) for pushing the sliding plate (910) is arranged between the sliding plate (910) and the bottom wall of the mounting groove (930), and a plugging plate (540) for plugging the mounting groove (930) is arranged at the opening of the mounting groove (930);

a second rotating shaft seat (170) is arranged on the second mounting table (160), a mounting rod (230) penetrating through the side wall of the frame body (130) is fixedly connected to the second rotating shaft seat (170), a second mounting plate (310) is arranged at one end, far away from the second rotating shaft seat (170), of the mounting rod (230), second sliding blocks (320) extending into the circular grooves (510) are respectively arranged at two ends of the second mounting plate (310), hemispherical grooves (330) are arranged at one end, close to the circular grooves (510), of the second sliding blocks (320), and arc surfaces (1003) matched with the hemispherical grooves (330) are arranged on the first sliding blocks (530); a fourth through hole (1001) which is reversely arranged along the length of the first sliding block (530) is arranged in the first sliding block (530), one end, close to the arc-shaped surface (1003), of the fourth through hole (1001) is provided with an installation step (1002), a copper sheet (960) is arranged in the installation step (1002), one end, close to the fourth through hole (1001), of the copper sheet (960) is provided with a conducting wire (810) which penetrates through the fourth through hole (1001), the third through hole (970), the first through hole (550) and the hollow tube (780) and is connected with an electromagnet (760); one end of the second mounting plate (310) close to the second sliding block (320) is provided with a copper block (340) which penetrates through the second sliding block (320) and is matched with the copper sheet (960);

a fixed sleeve (730) connected with the inner side wall of the second cavity (620) is arranged in the second cavity (620), and the side walls at the openings of the two ends of the fixed sleeve (730) gradually decrease to the side wall at the center of the fixed sleeve (730) to form a second inclined surface (731), a third inclined surface (733) and a fifth through hole (732); the fixing rod (740) is connected with the inner side wall of the fifth through hole (732), and the hollow tube (780) passes through the fixing sleeve (730).

2. The apparatus for preparing electrolytic neutral ion mouthwash according to claim 1, wherein: the rotating mechanism comprises a vertically arranged frame body (130), lantern rings (210) which are sleeved on the outer side walls of the tank body (120) are arranged at the side walls of the upper end and the lower end of the frame body (130), a first rotating shaft seat (140) is arranged on the first mounting table (150), a rotating rod (220) which penetrates through the first rotating shaft seat (140) and is rotationally connected with the first rotating shaft seat (140) is arranged on the side wall, close to the first rotating shaft seat (140), of the frame body (130), and one end, away from the first rotating shaft seat (140), of the rotating rod (220) is used for power transmission.

3. The apparatus for preparing electrolytic neutral ion mouthwash according to claim 2, wherein: the sealing mechanism comprises a mounting ring (710) arranged on the inner side wall of the tank body (120), and a first inclined surface (711) arranged along the circumferential direction of the mounting ring (710) is arranged on the inner side wall of the mounting ring (710); the mounting rings (710) are provided with sealing plates (720) which are matched with the first inclined surfaces (711) and are used for sealing the two mounting rings (710).

4. The apparatus for preparing electrolytic neutral ion mouthwash according to claim 1, wherein: and a limiting column (350) extending into the second through hole (520) is arranged at the center of the second mounting plate (310).

5. The apparatus for preparing electrolytic neutral ion mouthwash according to claim 1, wherein: the sliding column (770) is made of an iron metal material, and the second mounting plate (310) is made of a copper metal material.

6. A process for preparing electrolytic neutral ion mouthwash, which is realized by the preparation device of the electrolytic neutral ion mouthwash according to any one of claims 1 to 5, comprises the following steps,

s1: preparing ionized water; electrolyzing water by an ion water generator to obtain alkaline ion water;

s2: mixing; respectively adding hydrogen peroxide, sorbitol, peppermint essence, sucralose and sodium pyrophosphate into the alkaline ionized water prepared in the step S1 to prepare a mixed solution;

s3: stirring; adding the mixed solution in the step S2 into a tank body (120) for stirring to prepare a mixed solution;

s4: bottling; and (3) filling the mixed solution prepared in the step (S3) into a bottle, packaging and boxing.