CN112593253A

CN112593253A - Hypochlorous acid hand-washing-free disinfectant manufacturing device

Info

Publication number: CN112593253A
Application number: CN202011329316.7A
Authority: CN
Inventors: 王金强; 魏可勇; 伊雪范; 张东兴
Original assignee: Shandong Disineer Disinfection Science And Technology Inc
Current assignee: Shandong Disineer Disinfection Science And Technology Inc
Priority date: 2020-11-24
Filing date: 2020-11-24
Publication date: 2021-04-02
Anticipated expiration: 2040-11-24
Also published as: CN112593253B

Abstract

The invention discloses a hypochlorous acid hand-washing-free disinfectant manufacturing device, which belongs to the technical field of disinfectant manufacturing and comprises a reaction tank, wherein a first protective shell is arranged outside the reaction tank, a stirring motor is arranged at the center of the top of the reaction tank, a liquid inlet port is arranged at one side of the top of the reaction tank, which is positioned at the stirring motor, the end part of the liquid inlet port is positioned at the outer side of the reaction tank and is connected with a sodium hypochlorite solution filling mechanism, and a carbon dioxide filling mechanism is arranged at one side of the outer side of the reaction tank, which corresponds to the sodium hypochlorite solution filling mechanism. The invention can avoid waste caused by filling excessive carbon dioxide gas into the reaction tank after complete reaction, improve the purity of the disinfectant, avoid the influence of external air on the disinfectant in the processing process, shorten the service life and solve the problem that the production efficiency is low because the disinfectant in the reaction tank cannot be utilized in time after being prepared and the subsequent processing is influenced.

Description

Hypochlorous acid hand-washing-free disinfectant manufacturing device

Technical Field

The invention relates to the field of disinfectant manufacturing, in particular to a hypochlorous acid hand-washing-free disinfectant manufacturing device.

Background

Hypochlorite solution, especially sodium hypochlorite solution, belongs to high-efficient chlorine-containing disinfectant, and most of public places adopt the sodium hypochlorite solution to disinfect, and the disinfection principle is that hypochlorite in the sodium hypochlorite solution reacts with carbon dioxide in the air to generate hypochlorous acid which is an effective disinfection and sterilization component, the hypochlorous acid only exists in the solution, the high-concentration solution is yellow, the low-concentration solution is colorless, and the low-concentration solution has pungent smell, is extremely unstable weak acid and has strong oxidizing property and bleaching effect.

The existing hypochlorous acid disinfectant manufacturing device has poor control mode on the amount of sodium hypochlorite solution and carbon dioxide filled into the reaction tank in the using process, so that excessive carbon dioxide gas is filled into the reaction tank which is completely reacted to cause waste, the disinfectant is easily influenced by external air in the processing process to shorten the service life, and meanwhile, the disinfectant in the reaction tank cannot be timely utilized after the manufacturing of the disinfectant in the reaction tank is finished to influence the subsequent processing to cause low production efficiency.

Disclosure of Invention

Therefore, the hypochlorous acid hand-washing-free disinfectant manufacturing device provided by the invention can control the amount of sodium hypochlorite solution and carbon dioxide filled into the reaction tank, avoid waste caused by excessive carbon dioxide gas filled into the reaction tank after complete reaction, improve the purity of the disinfectant, avoid the influence of external air on the disinfectant in the processing process, shorten the service life, solve the problem that the production efficiency is low due to the fact that the subsequent processing is influenced because the disinfectant in the reaction tank cannot be utilized in time after being manufactured, and solve the problems in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme:

the utility model provides a hypochlorous acid hand sanitizer manufacturing installation of exempting from, includes the retort, the externally mounted of retort has first protecting crust, and the top center of retort installs agitator motor, one side that the top of retort is located agitator motor is provided with the feed liquor port, the outside that the tip of feed liquor port is located the retort is connected with sodium hypochlorite solution filling mechanism, carbon dioxide filling mechanism is installed to one side that the outside of retort corresponds sodium hypochlorite solution filling mechanism, and the internally mounted of retort has electrolysis generator, is provided with electrolysis generator positive pole and electrolysis generator negative pole on the electrolysis generator, the top of electrolysis generator positive pole and electrolysis generator negative pole all extends to one side position department that the top of retort is close to the outlet duct, the bottom of retort is provided with the liquid outlet, and the bottom of retort installs out liquid mechanism, and a disinfectant caching mechanism is arranged on one side of the reaction tank.

Further, the output end of the stirring motor is located inside the reaction tank and is connected with a stirring rod, and stirring blades are uniformly arranged outside the stirring rod.

Further, sodium hypochlorite solution filling mechanism is including setting up the sodium hypochlorite solution jar in the retort outside, first drawing liquid pump is installed in the bottom outside of sodium hypochlorite solution jar, be connected with first notes liquid pipe between the feed liquor end of first drawing liquid pump and the bottom of sodium hypochlorite solution jar, and be connected with first liquid suction pipe between the tip of the play liquid end of first drawing liquid pump and feed liquor port, install first liquid solenoid valve on the first liquid suction pipe.

Further, carbon dioxide filling mechanism is including setting up the carbon dioxide jar in the retort outside, the air pump is installed in the top outside of carbon dioxide jar, be connected with the intake pipe between the inlet end of air pump and the top of retort, and the end of giving vent to anger of air pump is connected with the outlet duct, the inner chamber bottom of establishing to the retort is inserted to the one end of outlet duct, and still installs gas solenoid valve and gas flowmeter on the outlet duct, gas flowmeter is close to a side-mounting of retort, a side-mounting of retort is kept away from to gas solenoid valve, the outside that the top of retort corresponds the outlet duct is provided with first mounting hole.

Further, pass through bolt fixed connection between agitator motor and the top of retort, the externally mounted that the top inner wall of retort corresponds the puddler has the bearing.

Furthermore, a second mounting hole and a third mounting hole are respectively formed in the top of the reaction tank corresponding to the outer parts of the anode of the electrolysis generator and the cathode of the electrolysis generator.

Further, go out liquid mechanism including connecting the first drain pipe in the liquid outlet bottom, interval one end distance is installed second liquid solenoid valve and third liquid solenoid valve respectively on the first drain pipe, it sets up to the isolated section to lie in on the first drain pipe between second liquid solenoid valve and the third liquid solenoid valve, the outer wall connection of isolated section has washing unit.

Furthermore, the flushing assembly comprises a water pump arranged outside the isolation section, a water pumping pipe is connected between the water inlet end of the water pump and the external water tank, a flushing pipe is connected between the water outlet end of the water pump and the outer wall of the isolation section, a fourth liquid electromagnetic valve is installed on the flushing pipe, and the connecting part of the end part of the flushing pipe and the isolation section is obliquely and downwards arranged.

Furthermore, the disinfectant caching mechanism comprises a first caching tank arranged on one side of the reaction tank, a second protective shell is arranged outside the first caching tank, a second liquid pump is arranged between the second protective shell and the top of the first protective shell, a liquid inlet end of the second liquid pump is connected with a second liquid pumping pipe, one end of the second liquid pumping pipe is inserted into the bottom of the inner cavity of the reaction tank, a liquid outlet end of the second liquid pumping pipe is connected with a second liquid injection pipe, one end of the second liquid injection pipe is inserted into the top of the inner cavity of the first caching tank, a second caching tank is arranged on one side of the first caching tank, a third protective shell is arranged outside the second caching tank, a third liquid pumping pump is arranged between the top of the third protective shell and the top of the second protective shell, a liquid inlet end of the third liquid pumping pipe is connected with a third liquid pumping pipe, one end of the third liquid pumping pipe is inserted into the bottom of the inner cavity of the first caching tank, and the liquid outlet end of the third liquid drawing pump is connected with a third liquid injection pipe, and one end of the third liquid injection pipe is inserted into the top of the inner cavity of the second cache tank.

Furthermore, the bottoms of the first buffer tank and the second buffer tank are both connected with a third liquid outlet pipe, and a manual valve is installed on the third liquid outlet pipe.

The invention has the following advantages:

1. by arranging the sodium hypochlorite solution filling mechanism and the carbon dioxide filling mechanism, the sodium hypochlorite solution in the sodium hypochlorite solution tank can be conveniently pumped into the reaction tank, the amount of the pumped sodium hypochlorite solution is controlled by the first liquid electromagnetic valve, then the carbon dioxide gas in the carbon dioxide tank is pumped into the reaction tank by controlling the starting air pump to perform chemical reaction with the sodium hypochlorite solution to generate hypochlorous acid, the arranged gas flow meter is matched with the gas electromagnetic valve to detect and control the amount of the carbon dioxide introduced into the reaction tank, and waste caused by the fact that the excessive carbon dioxide gas is filled into the reaction tank after complete reaction is avoided;

2. by arranging the liquid outlet mechanism, the second liquid electromagnetic valve is opened and the third liquid electromagnetic valve is closed firstly in the liquid outlet process, so that the second liquid electromagnetic valve is closed and the third liquid electromagnetic valve is opened after the disinfectant flows into the isolation section, and the disinfectant in the isolation section can be taken out at the moment, by arranging the isolation section, the external air can not directly contact with the disinfectant in the reaction tank through the first liquid outlet pipe when liquid is discharged, the purity of the disinfectant is improved, the disinfectant is prevented from being influenced by the external air in the processing process, the service life is shortened, the washing component is arranged on the liquid outlet mechanism, so that the pipe wall in the isolation section can be conveniently cleaned when the liquid outlet mechanism is not used, and the influence on the use effect caused by the fact that disinfectant attached to the inner wall of the isolation section is contacted with air for a long time when the subsequent disinfectant is discharged into the disinfection tank is reduced;

3. through setting up antiseptic solution buffer memory mechanism, the problem that can't in time obtain utilizing after the inside antiseptic solution preparation of retort is accomplished to influence follow-up processing and cause production efficiency to be low is solved, after the inside antiseptic solution preparation of retort is accomplished, take out the inside antiseptic solution of retort inside to first buffer memory jar through starting second drawing liquid pump and carry out the buffer memory processing, the accessible starts the inside antiseptic solution of third drawing liquid pump with first buffer memory jar and takes out the inside of second buffer memory jar to carry out the buffer memory after the inside antiseptic solution of first buffer memory jar is filled, thereby the effectual problem of avoiding follow-up unable continuation production that the inside antiseptic solution of retort can't in time utilize the cause to influence output and efficiency.

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 should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structures, ratios, sizes, and the like shown in the present specification are only used for matching with the contents disclosed in the specification, so as to be understood and read by those skilled in the art, and are not used to limit the conditions that the present invention can be implemented, so that the present invention has no technical significance, and any structural modifications, changes in the ratio relationship, or adjustments of the sizes, without affecting the effects and the achievable by the present invention, should still fall within the range that the technical contents disclosed in the present invention can cover.

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is an overall cross-sectional view of the present invention;

FIG. 3 is a schematic structural view of a carbon dioxide filling mechanism according to the present invention;

FIG. 4 is a schematic view of the internal structure of the reaction tank and the connection structure of the liquid outlet mechanism in the present invention;

FIG. 5 is a schematic top view of the reaction tank of the present invention;

FIG. 6 is an enlarged view of portion A of FIG. 2 in accordance with the present invention;

FIG. 7 is a schematic structural view of a disinfectant buffer mechanism according to the present invention;

in the figure: 1. a reaction tank; 2. a first protective case; 3. a stirring motor; 4. a liquid inlet port; 5. a first liquid suction pipe; 6. a first liquid pump; 7. a first liquid injection pipe; 8. a sodium hypochlorite solution tank; 9. a first liquid solenoid valve; 10. a carbon dioxide tank; 11. an air inlet pipe; 12. an air pump; 13. an air outlet pipe; 14. a gas solenoid valve; 15. a gas flow meter; 16. a stirring rod; 17. stirring blades; 18. an electrolytic generator anode; 19. an electrolysis generator cathode; 20. a first liquid outlet pipe; 21. a liquid outlet; 22. a second liquid solenoid valve; 23. a third liquid solenoid valve; 24. an isolation section; 25. a flush tube; 26. a fourth liquid solenoid valve; 27. a water pump; 28. a water pumping pipe; 29. a second liquid pump; 30. a second liquid suction pipe; 31. a second protective shell; 32. a first cache tank; 33. a second liquid injection pipe; 34. a third liquid pump; 35. a third liquid suction pipe; 36. a third liquid injection pipe; 37. a third protective shell; 38. a second cache tank; 39. a third liquid outlet pipe; 40. a manual valve; 131. a first mounting hole; 181. a second mounting hole; 191. and a third mounting hole.

Detailed Description

The present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to the attached drawings 1-7 of the specification, a hypochlorous acid hand-washing-free disinfectant manufacturing device comprises a reaction tank 1, a first protective shell 2 is arranged outside the reaction tank 1, a stirring motor 3 is arranged at the center of the top of the reaction tank 1, a liquid inlet port 4 is arranged on one side, located at the stirring motor 3, of the top of the reaction tank 1, a sodium hypochlorite solution filling mechanism is connected to the outer side, located at the reaction tank 1, of the end of the liquid inlet port 4, a carbon dioxide filling mechanism is arranged on one side, corresponding to the sodium hypochlorite solution filling mechanism, of the outer side of the reaction tank 1, an electrolysis generator is arranged inside the reaction tank 1, an electrolysis generator anode 18 and an electrolysis generator cathode 19 are arranged on the electrolysis generator, the tops of the electrolysis generator anode 18 and the electrolysis generator cathode 19 extend to the position, close to one side of an air outlet pipe 13, of the top of the reaction tank 1, the bottom of retort 1 is provided with liquid outlet 21, and the liquid mechanism of going out is installed to the bottom of retort 1, antiseptic solution buffer memory mechanism is installed to one side of retort 1.

Referring to the attached

drawings

2 and 4 of the specification, the output end of the stirring motor 3 is located inside the reaction tank 1 and is connected with a stirring rod 16, and stirring blades 17 are uniformly arranged outside the stirring rod 16, so that the sodium hypochlorite solution filled with carbon dioxide inside the reaction tank 1 can be stirred conveniently, and the reaction process is accelerated.

Referring to the attached drawings of the specification 1-2, sodium hypochlorite solution filling mechanism is including setting up the sodium hypochlorite solution jar 8 in the retort 1 outside, first drawing liquid pump 6 is installed in the bottom outside of sodium hypochlorite solution jar 8, be connected with first notes liquid pipe 7 between the feed liquor end of first drawing liquid pump 6 and the bottom of sodium hypochlorite solution jar 8, and be connected with first drawing liquid pipe 5 between the tip of the play liquid end of first drawing liquid pump 6 and feed liquor port 4, install first liquid solenoid valve 9 on the first drawing liquid pipe 5, be convenient for in the use, take out the inside sodium hypochlorite solution of sodium hypochlorite solution jar 8 through controlling the operation of first drawing liquid pump 6 to retort 1's inside, the first liquid solenoid valve 9 of setting is used for controlling the volume of taking out the sodium hypochlorite solution.

Referring to the attached drawings 1-3 of the specification, the carbon dioxide filling mechanism comprises a carbon dioxide tank 10 arranged on the outer side of a reaction tank 1, an air pump 12 is installed on the outer side of the top of the carbon dioxide tank 10, an air inlet pipe 11 is connected between the air inlet end of the air pump 12 and the top of the reaction tank 1, the air outlet end of the air pump 12 is connected with an air outlet pipe 13, one end of the air outlet pipe 13 is inserted into the bottom of an inner cavity of the reaction tank 1, an air solenoid valve 14 and an air flow meter 15 are further installed on the air outlet pipe 13, the air flow meter 15 is installed close to one side of the reaction tank 1, the air solenoid valve 14 is installed far away from one side of the reaction tank 1, a first installation hole 131 is formed in the top of the reaction tank 1 corresponding to the outside of the air outlet pipe 13, so that carbon dioxide gas in the carbon dioxide tank 10 is pumped out to the inside, the arranged gas flowmeter 15 is matched with the gas electromagnetic valve 14 to detect and control the amount of the carbon dioxide introduced into the reaction tank 1, so that waste caused by the fact that excessive carbon dioxide gas is filled into the reaction tank 1 after complete reaction is avoided.

Referring to the attached drawings 1-2 and 4 of the specification, the stirring motor 3 is fixedly connected with the top of the reaction tank 1 through bolts, and a bearing is arranged on the inner wall of the top of the reaction tank 1 corresponding to the outer part of the stirring rod 16, so that the stirring motor 3 can be conveniently installed and fixed and the stirring rod 16 can stably rotate.

Referring to the accompanying drawings 1-2 and 4-5 of the specification, the top of the reaction tank 1 is provided with a second mounting hole 181 and a third mounting hole 191 corresponding to the external parts of the anode 18 and the cathode 19 of the electrolysis generator respectively, so as to facilitate the connection between the anode 18 and the cathode 19 of the electrolysis generator.

Referring to the accompanying drawings 1-2, 4 and 6 of the specification, the liquid outlet mechanism includes a first liquid outlet pipe 20 connected to the bottom of a liquid outlet 21, a second liquid electromagnetic valve 22 and a third liquid electromagnetic valve 23 are respectively installed on the first liquid outlet pipe 20 at a certain distance, an isolation section 24 is installed on the first liquid outlet pipe 20 between the second liquid electromagnetic valve 22 and the third liquid electromagnetic valve 23, and a flushing component is connected to the outer wall of the isolation section 24, so that in the liquid outlet process, the second liquid electromagnetic valve 22 is opened and the third liquid electromagnetic valve 23 is closed at first, so that the second liquid electromagnetic valve 22 is closed and the third liquid electromagnetic valve 23 is opened after the disinfectant flows into the isolation section 24, at this time, the disinfectant in the isolation section 24 can be taken out, and by installing the isolation section 24, the external air cannot directly contact with the disinfectant in the reaction tank 1 through the first liquid outlet pipe 20, improve the purity of the disinfectant and avoid the disinfectant from being influenced by external air in the processing process to shorten the service life.

Referring to the accompanying drawings 1-2, 4 and 6 in the specification, the flushing assembly comprises a water pump 27 arranged outside the isolation section 24, a water pumping pipe 28 is connected between a water inlet end of the water pump 27 and an external water tank, a flushing pipe 25 is connected between a water outlet end of the water pump 27 and the outer wall of the isolation section 24, a fourth liquid electromagnetic valve 26 is installed on the flushing pipe 25, and a joint of the end of the flushing pipe 25 and the isolation section 24 is obliquely and downwards arranged, so that the cleaning treatment of the pipe wall inside the isolation section 24 is facilitated when the flushing assembly is not used, and the influence on the use effect caused by the fact that disinfectant attached to the inner wall of the isolation section 24 is injected into the disinfection tank together when the subsequent disinfectant is discharged due to the long-time contact of the disinfectant and the.

Referring to the accompanying drawings 1-2 and 7 of the specification, the disinfectant buffer mechanism includes a first buffer tank 32 installed on one side of the reaction tank 1, a second protective shell 31 is installed outside the first buffer tank 32, a second liquid pump 29 is installed between the second protective shell 31 and the top of the first protective shell 2, a liquid inlet end of the second liquid pump 29 is connected with a second liquid pumping pipe 30, one end of the second liquid pumping pipe 30 is inserted into the bottom of the inner cavity of the reaction tank 1, a liquid outlet end of the second liquid pumping pipe 29 is connected with a second liquid injection pipe 33, one end of the second liquid injection pipe 33 is inserted into the top of the inner cavity of the first buffer tank 32, a second buffer tank 38 is installed on one side of the first buffer tank 32, a third protective shell 37 is installed outside the second buffer tank 38, and a third liquid pumping pump 34 is installed between the third protective shell 37 and the top of the second protective shell 31, the liquid inlet end of the third liquid pump 34 is connected with a third liquid pumping pipe 35, one end of the third liquid pumping pipe 35 is inserted into the bottom of the inner cavity of the first buffer tank 32, the liquid outlet end of the third liquid pumping pipe 34 is connected with a third liquid injection pipe 36, one end of the third liquid injection pipe 36 is inserted into the top of the inner cavity of the second buffer tank 38, so that in the using process, the problem that the production efficiency is low due to the fact that the subsequent processing is affected by the fact that the disinfectant inside the reaction tank 1 cannot be utilized timely after the disinfectant inside the reaction tank 1 is manufactured is solved, after the disinfectant inside the reaction tank 1 is manufactured, the disinfectant inside the reaction tank 1 is pumped into the first buffer tank 32 by starting the second liquid pumping pump 29 for buffer processing, and after the disinfectant inside of the first buffer tank 32 is filled up, the disinfectant inside of the first buffer tank 32 can be pumped into the second buffer tank 38 by starting the third liquid pumping pump 34 for buffer processing, thereby effectively avoiding the problem that the subsequent continuous production caused by the fact that the disinfectant in the reaction tank 1 can not be utilized in time to influence the yield and the efficiency.

Referring to the description, fig. 1-2 and fig. 7, the bottoms of the first buffer tank 32 and the second buffer tank 38 are both connected with a third liquid outlet pipe 39, and a manual valve 40 is installed on the third liquid outlet pipe 39, so that a user can selectively pump out the disinfectant inside the first buffer tank 32 and the second buffer tank 38 as required.

The using process of the invention is as follows:

when the device is used, the first liquid drawing pump 6 on the sodium hypochlorite solution filling mechanism is controlled to operate to draw the sodium hypochlorite solution in the sodium hypochlorite solution tank 8 into the reaction tank 1, the amount of the drawn sodium hypochlorite solution is controlled by the first liquid electromagnetic valve 9, then the carbon dioxide gas in the carbon dioxide tank 10 is drawn into the reaction tank 1 by controlling the starting air pump 12 to perform chemical reaction with the sodium hypochlorite solution to generate hypochlorous acid, the arranged gas flowmeter 15 is matched with the gas electromagnetic valve 14 to detect and control the amount of the carbon dioxide introduced into the reaction tank 1, so that the waste caused by the fact that the excessive carbon dioxide gas is filled into the reaction tank 1 after complete reaction is avoided, then the stirring motor 3 is started to stir the sodium hypochlorite solution filled with the carbon dioxide in the reaction tank 1, the reaction process is accelerated, and the arranged electrolysis generator is used for increasing the electrolysis rate of the sodium hypochlorite disinfectant, furthermore, by arranging the liquid outlet mechanism, the second liquid electromagnetic valve 22 is opened and the third liquid electromagnetic valve 23 is closed firstly in the liquid outlet process, so that the disinfectant can be taken out from the isolation section 24 when the disinfectant flows into the isolation section 24 and then the second liquid electromagnetic valve 22 is closed and the third liquid electromagnetic valve 23 is opened, by arranging the isolation section 24, when liquid is discharged, external air can not directly contact with the disinfectant in the reaction tank 1 through the first liquid outlet pipe 20, the purity of the disinfectant is improved, the disinfectant is prevented from being influenced by the external air in the processing process, the service life is shortened, the washing component is arranged on the liquid outlet mechanism, so that the pipe wall in the isolation section 24 can be conveniently cleaned when the liquid outlet mechanism is not used, and the influence on the use effect caused by the fact that disinfectant attached to the inner wall of the isolation section 24 is injected into the disinfection tank together with the subsequent disinfectant when the disinfectant is discharged due to the long-time contact of the disinfectant and air is reduced; finally, through setting up antiseptic solution buffer memory mechanism, the problem that can't in time obtain utilizing after having solved retort 1's inside antiseptic solution preparation and influence follow-up processing and cause production efficiency low is solved, after retort 1's inside antiseptic solution preparation, through starting second drawing liquid pump 29 with retort 1 inside antiseptic solution pump to the inside of first buffer memory jar 32 and carry out the buffer memory processing, accessible start third drawing liquid pump 34 with the inside antiseptic solution pump of first buffer memory jar 32 to the inside of second buffer memory jar 38 and carry out the buffer memory after first buffer memory jar 32's inside antiseptic solution is filled, thereby the effectual problem of avoiding retort 1 inside antiseptic solution can't in time utilize the follow-up unable continuous production that causes and influence output and efficiency.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

In the present specification, the terms "upper", "lower", "left", "right", "middle", and the like are used for clarity of description, and are not intended to limit the scope of the present invention, and changes or modifications in the relative relationship may be made without substantial changes in the technical content.

Claims

1. The utility model provides a hypochlorous acid hand sanitizer manufacturing installation of exempting from to wash, includes retort (1), its characterized in that: the externally mounted of retort (1) has first protective housing (2), and agitator motor (3) are installed at the top center of retort (1), one side that the top of retort (1) is located agitator motor (3) is provided with feed liquor port (4), the outside that the tip of feed liquor port (4) is located retort (1) is connected with sodium hypochlorite solution and annotates the mechanism, carbon dioxide filling mechanism is installed to one side that the outside of retort (1) corresponds sodium hypochlorite solution and annotates the mechanism, and the internally mounted of retort (1) has electrolysis generator, is provided with electrolysis generator positive pole (18) and electrolysis generator negative pole (19) on the electrolysis generator, the top of electrolysis generator positive pole (18) and electrolysis generator negative pole (19) all extends to retort (1) top and is close to one side position department of outlet duct (13), the bottom of retort (1) is provided with liquid outlet (21), and the liquid mechanism of going out is installed to the bottom of retort (1), antiseptic solution buffer memory mechanism is installed to one side of retort (1).

2. The hypochlorous acid no-clean hand disinfectant manufacturing installation of claim 1, characterized by: the output end of the stirring motor (3) is located inside the reaction tank (1) and is connected with a stirring rod (16), and stirring blades (17) are uniformly arranged outside the stirring rod (16).

3. The hypochlorous acid no-clean hand disinfectant manufacturing installation of claim 1, characterized by: sodium hypochlorite solution filling mechanism is including setting up sodium hypochlorite solution jar (8) in retort (1) outside, first drawing liquid pump (6) are installed in the bottom outside of sodium hypochlorite solution jar (8), be connected with first notes liquid pipe (7) between the feed liquor end of first drawing liquid pump (6) and the bottom of sodium hypochlorite solution jar (8), and be connected with first liquid suction pipe (5) between the tip of the play liquid end of first drawing liquid pump (6) and feed liquor port (4), install first liquid solenoid valve (9) on first liquid suction pipe (5).

4. The hypochlorous acid no-clean hand disinfectant manufacturing installation of claim 1, characterized by: carbon dioxide filling mechanism is including setting up carbon dioxide jar (10) in retort (1) outside, air pump (12) are installed in the top outside of carbon dioxide jar (10), be connected with intake pipe (11) between the inlet end of air pump (12) and the top of retort (1), and the end of giving vent to anger of air pump (12) is connected with outlet duct (13), the inner chamber bottom of establishing to retort (1) is inserted to the one end of outlet duct (13), and still installs gas solenoid valve (14) and gas flowmeter (15) on outlet duct (13), gas flowmeter (15) are close to one side-mounting of retort (1), the one side-mounting of retort (1) is kept away from in gas solenoid valve (14), the outside that the top of retort (1) corresponds outlet duct (13) is provided with first mounting hole (131).

5. The hypochlorous acid no-clean hand disinfectant manufacturing installation of claim 1, characterized by: the stirring device is characterized in that the stirring motor (3) is fixedly connected with the top of the reaction tank (1) through a bolt, and a bearing is arranged on the inner wall of the top of the reaction tank (1) corresponding to the outer part of the stirring rod (16).

6. The hypochlorous acid no-clean hand disinfectant manufacturing installation of claim 1, characterized by: and a second mounting hole (181) and a third mounting hole (191) are respectively formed in the top of the reaction tank (1) corresponding to the outsides of the anode (18) and the cathode (19) of the electrolysis generator.

7. The hypochlorous acid no-clean hand disinfectant manufacturing installation of claim 1, characterized by: go out liquid mechanism including connecting first drain pipe (20) in liquid outlet (21) bottom, interval one end distance is installed second liquid solenoid valve (22) and third liquid solenoid valve (23) respectively on first drain pipe (20), it sets up to keep apart section (24) to lie in on first drain pipe (20) between second liquid solenoid valve (22) and third liquid solenoid valve (23), the outer wall connection of keeping apart section (24) has flushing assembly.

8. The hypochlorous acid no-clean hand sanitizer manufacturing apparatus of claim 7, wherein: the flushing assembly comprises a water pump (27) arranged on the outer side of the isolation section (24), a water pumping pipe (28) is connected between the water inlet end of the water pump (27) and an external water tank, a flushing pipe (25) is connected between the water outlet end of the water pump (27) and the outer wall of the isolation section (24), a fourth liquid electromagnetic valve (26) is installed on the flushing pipe (25), and the connecting part of the end part of the flushing pipe (25) and the isolation section (24) is obliquely and downwards arranged.

9. The hypochlorous acid no-clean hand disinfectant manufacturing installation of claim 1, characterized by: the disinfectant caching mechanism comprises a first caching tank (32) arranged on one side of the reaction tank (1), a second protective shell (31) is arranged outside the first caching tank (32), a second liquid pump (29) is arranged between the second protective shell (31) and the top of the first protective shell (2), the liquid inlet end of the second liquid pump (29) is connected with a second liquid pumping pipe (30), one end of the second liquid pumping pipe (30) is inserted into the bottom of the inner cavity of the reaction tank (1), the liquid outlet end of the second liquid pumping pump (29) is connected with a second liquid injection pipe (33), one end of the second liquid injection pipe (33) is inserted into the top of the inner cavity of the first caching tank (32), a second caching tank (38) is arranged on one side of the first caching tank (32), a third protective shell (37) is arranged outside the second caching tank (38), and a third liquid pumping pump (34) is arranged between the third protective shell (37) and the top of the second protective shell (31), the feed liquor end of third drawing liquid pump (34) is connected with third drawing liquid pipe (35), the inner chamber bottom of establishing to first buffer memory jar (32) is inserted to the one end of third drawing liquid pipe (35), the play liquid end of third drawing liquid pump (34) is connected with the third and annotates liquid pipe (36), the inner chamber top of establishing to second buffer memory jar (38) is inserted to the one end of annotating liquid pipe (36) in the third.

10. The hypochlorous acid no-clean hand sanitizer manufacturing apparatus of claim 9, wherein: the bottom of first buffer memory jar (32) and second buffer memory jar (38) all is connected with third drain pipe (39), install manual valve (40) on third drain pipe (39).