CN115789848A - Environment sterilizing instrument with acidic electrolyzed water generating device - Google Patents

Abstract

The invention discloses an environment sterilizing instrument with an acidic electrolyzed water generating device, which comprises: generating a device base shell, an electrolytic component, a positive bin and a negative bin; the generating device base shell can separate the female bin from the male bin; the generating device base shell is provided with a communicating port, and the electrolytic component is arranged at the communicating port; the electrolytic component comprises an ion diaphragm, an anode sheet and a cathode sheet; the ion diaphragm can block the communication port to separate the negative chamber from the positive chamber; the anode sheet is positioned on one side of the ion diaphragm close to the anode bin, and the cathode sheet is positioned on one side of the ion diaphragm close to the cathode bin; the anode strip and the cathode strip are electrically connected with the control center through control lines. According to the invention, a diaphragm type electrolytic cell electrolysis mode is utilized, an acidic electrolytic aqueous solution with hypochlorous acid as a main sterilization component is formed in the positive bin, and a user can take out the acidic electrolytic aqueous solution in the positive bin for sterilization or atomize and sterilize the environment by matching with the atomization function of an environment sterilization instrument.

Description

Environment sterilizing instrument with acidic electrolyzed water generating device

Technical Field

The invention relates to the technical field of disinfection instruments, in particular to an environmental disinfection instrument with an acidic electrolyzed water generating device.

Background

With the improvement of health safety awareness of people, more and more people pay attention to the regular disinfection and cleaning of areas such as homes, offices and the like, and the general cleaning can keep the environment clean but can not kill bacteria and viruses in the environment. For this reason, a large amount of sterilizing water is used for sterilization by a cleaner, but this type of sterilization is expensive.

For this reason, there is an environmental sterilizer of an atomized type which can continuously release a disinfectant, for example, an environmental sterilizer of an atomized type proposed in patent No. cn202221238364. X. This kind of appearance that disappears utilizes the electrolysis subassembly to hold the intracavity alone, electrolyzes into sodium hypochlorite solution to sodium chloride solution, then becomes water smoke through ultrasonic nebulizer and spouts ambient air with sodium hypochlorite solution, convenient disappears and kills the environment.

However, sodium hypochlorite solution as an alkaline solution is easily damaged, cannot be directly applied to food or skin surface for killing, and has limited killing ability, so further improvement is needed.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the invention provides an environmental sterilizing instrument with an acidic electrolyzed water generating device.

The technical scheme adopted by the embodiment of the invention for solving the technical problem is as follows: an environmental sterilizer with an acidic electrolyzed water generating apparatus, comprising: generating a device base shell, an electrolytic component, a positive bin and a negative bin;

the generating device base shell can separate the female bin from the male bin; the generating device base shell is provided with a communicating port, and the electrolytic component is arranged at the communicating port;

the electrolytic component comprises an ion diaphragm, an anode sheet and a cathode sheet; the ion diaphragm can block the communication port to separate the negative chamber from the positive chamber; the anode sheet is positioned on one side of the ion diaphragm close to the anode bin, and the cathode sheet is positioned on one side of the ion diaphragm close to the cathode bin; the anode strip and the cathode strip are electrically connected with the control center through control lines.

Optionally, the electrolytic assembly further comprises an electrolytic shell seat, and the ionic membrane, the anode strip and the cathode strip are mounted on the electrolytic shell seat; the electrolytic shell seat is detachably mounted on the communication port.

Optionally, the electrolytic shell seat is provided with a recessed structure, and the ion membrane is placed in the recessed structure; the electrolytic shell seat is detachably provided with a pressing ring, and the pressing ring can press the ion diaphragm against the electrolytic shell seat.

Optionally, a plurality of connecting holes are arranged around the outer edge of the recessed structure at intervals; the ion diaphragm is provided with a plurality of avoiding holes corresponding to the connecting holes; the compression ring is arranged around the outer edge of the concave structure, and a plurality of locking installation parts are arranged corresponding to the connecting holes; retaining member mountable in the locking installation department passes dodge the hole and lock in the connecting hole.

Optionally, the electrolytic shell seat is detachably provided with an electrolytic shell cover, and the electrolytic shell cover is sleeved outside the recessed structure and can cover the ion diaphragm.

Optionally, the communication port is arranged in a cylindrical structure, and a limiting bump is arranged on the outer side of the communication port; a cylindrical annular cylinder is arranged on one side, facing the communication opening, of the electrolytic shell seat; the annular cylinder is provided with a limiting groove;

the annular cylinder can be arranged outside the communicating opening in a fitting and sleeving manner; the annular cylinder rotates and is close to the generation device base shell, so that the limiting lug can slide relative to the limiting groove and abut against the tail end of the limiting groove;

and a sealing gasket is arranged between the communication port and the electrolytic shell seat.

Optionally, the generating device base shell is arranged in a long-strip hollow cylindrical structure; the top of the generating device base shell is detachably provided with a sealing cover which can cover the inner cavity of the generating device base shell.

Optionally, the electrolytic shell seat is provided with an electrode mounting groove for mounting an electrode connecting piece; the electrode mounting groove can be subjected to sealing and filling treatment.

Optionally, the environmental sterilizer is further provided with a body; the machine body is provided with a water tank, a first water pump and an atomizing chamber;

the generating device base shell is arranged on the water tank, and the water tank can be divided into the male bin and the female bin; the first water pump can pump the solution in the positive bin to the atomizing chamber, and the atomizing chamber is provided with an atomizing assembly and a blowing assembly; the atomizing chamber is connected with a mist outlet.

Optionally, the organism is provided with the waste water room, the waste water room with cloudy storehouse passes through the drain pipe intercommunication, the solution in cloudy storehouse can be pumped to the waste water room, the organism still is provided with the second water pump, the second water pump passes through moisturizing pipe intercommunication with the inner chamber that generates device base shell, the second water pump can be with the solution pump in sunny storehouse to cloudy storehouse.

The acidic electrolyzed water is an acidic aqueous solution with hypochlorous acid as a main sterilization component, wherein the pH value of the acidic electrolyzed oxidizing water is 2-3, and the pH value of the slightly acidic electrolyzed oxidizing water is 5-6.5. Compared with sodium hypochlorite solution, the sodium hypochlorite solution and the preparation method thereof have high bactericidal effect, are acidic solution, almost odorless, and can be widely applied to medical treatment, appliances, food materials and surface sterilization of human skin.

The acidic electrolyzed water is generated by adding a proper amount of low-concentration sodium chloride solution into an electrolytic cell with an ionic diaphragm, generating chlorine gas from chloride ions on the anode side through electrolysis, reacting the chlorine gas with water to generate hypochlorous acid and hydrochloric acid, and simultaneously electrolyzing the water at the anode to generate oxygen and hydrogen ions; the product can be changed into acidic oxidation potential water or slightly acidic electrolyzed water by changing the proportion and the reaction time of the sodium chloride solution.

The invention has the beneficial effects that: the negative cabin and the positive cabin are separated by a basic shell of the generating device, and one side of the generating device is provided with a communication port which is integrally provided with an electrolysis device; the two sides of the ion diaphragm are respectively provided with a positive chamber and a negative chamber, an anode sheet is arranged on one side of the positive chamber, and a cathode sheet is arranged on one side of the negative chamber. The positive bin and the negative bin are filled with sodium chloride solution, and an acidic electrolytic aqueous solution taking hypochlorous acid as a main sterilization component is formed in the positive bin by utilizing a diaphragm type electrolytic tank electrolysis mode, so that a user can take out the acidic electrolytic aqueous solution in the positive bin to sterilize or atomize and sterilize the environment by matching with the atomization function of an environment sterilization instrument. Compared with sodium hypochlorite solution, the bactericidal effect is high, the acidic solution is almost tasteless and odorless, and the bactericidal composition can be widely applied to medical treatment, appliances, food materials and the surface sterilization of human skin.

In order to make the aforementioned and other objects, features and advantages of the present invention more comprehensible and obvious, preferred embodiments accompanied with figures are described in detail below.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view showing the structure of an acidic electrolyzed water forming apparatus according to an embodiment of the present invention;

FIG. 2 is a sectional view of the acidic electrolyzed water forming apparatus shown in FIG. 1;

FIG. 3 is an exploded view of the acidic electrolyzed water forming apparatus shown in FIG. 1;

FIG. 4 is a schematic view of the electrolytic assembly and electrode connection of FIG. 1;

FIG. 5 is a schematic structural diagram of an environmental sterilizer using an acidic electrolyzed water forming apparatus according to an embodiment of the present invention;

FIG. 6 is a cross-sectional view of the environmental sterilizer of FIG. 5;

FIG. 7 is another cross-sectional view of the environmental sterilizer of FIG. 5 in the middle of the base housing of the generating device.

Description of the main element symbols:

10. generating a device base shell; 11. a communication port; 111. a limiting bump; 12. sealing the cover; 20. an electrolytic assembly; 21. an ion separator; 211. avoiding holes; 22. an anode sheet; 23. a cathode sheet; 24. an electrolytic shell base; 241. a recessed structure; 242. connecting holes; 243. an electrode mounting groove; 244. mounting a boss; 25. pressing a ring; 251. a locking mounting portion; 26. an electrolytic housing; 27. an annular cylinder; 271. a limiting groove; 28. a gasket; 30. a male chamber; 40. a female bin; 50. a body; 51. a water tank; 52. a first water pump; 53. an atomization chamber; 54. a mist outlet; 55. a waste water chamber; 56. a drain pipe; 57. a second water pump; 58. a water replenishing pipe; 59. a control line; 60. an electrode connecting member; 61. a metal connecting sheet; 62. an elastic pad.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, a plurality of means is two or more, and greater than, less than, more than, etc. are understood as excluding the present number, and greater than, less than, etc. are understood as including the present number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings only for the convenience of description of the present invention and simplification of the description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present invention, unless otherwise explicitly defined, the terms "disposed," "installed," "connected," and the like are to be understood broadly, and may be, for example, directly connected or indirectly connected through an intermediate medium; can be fixedly connected, can be detachably connected and can be integrally formed; may be a mechanical connection; either as communication within the two elements or as an interactive relationship of the two elements. The technical field can reasonably determine the specific meaning of the words in the invention by combining the specific contents of the technical scheme.

Examples

Referring to fig. 1 to 7, an environmental sterilizer having an acidic electrolyzed water generating apparatus according to the present invention includes: generating a device base shell 10, an electrolytic component 20, a positive bin 30 and a negative bin 40;

the generating device base shell 10 can separate the female bin 40 and the male bin 30; the generating device base shell 10 is provided with a communication port 11, and the electrolytic component 20 is arranged at the communication port 11;

the electrolytic component 20 comprises an ion diaphragm 21, an anode sheet 22 and a cathode sheet 23; the ion diaphragm 21 can seal the communication port 11 to separate the female bin 40 from the male bin 30; the anode sheet 22 is positioned on one side of the ion diaphragm 21 close to the anode chamber 30, and the cathode sheet 23 is positioned on one side of the ion diaphragm 21 close to the cathode chamber 40; the anode strip 22 and the cathode strip 23 are electrically connected with a control center through a control wire 59.

The acidic electrolyzed water is an acidic aqueous solution with hypochlorous acid as a main sterilization component, wherein the pH value of the acidic electrolyzed oxidizing water is 2-3, and the pH value of the slightly acidic electrolyzed oxidizing water is 5-6.5. Compared with sodium hypochlorite solution, the sodium hypochlorite solution has high bactericidal effect, is an acidic solution, is almost tasteless and odorless, and can be widely applied to surface disinfection of medical treatment, appliances, food materials and human skin.

The acidic electrolyzed water is prepared by adding a proper amount of low-concentration sodium chloride solution into an electrolytic cell with an ionic diaphragm 21 for electrolysis, generating chlorine gas at the anode side by electrolysis, reacting the chlorine gas with water to generate hypochlorous acid and hydrochloric acid, and simultaneously electrolyzing the water at the anode to generate oxygen and hydrogen ions; the product can be changed into acidic oxidation potential water or slightly acidic electrolyzed water by changing the proportion and the reaction time of the sodium chloride solution.

In the invention, a female bin 40 and a male bin 30 are separated by a generating device base shell 10, and one side of the generating device is provided with a communication port 11, and the communication port 11 is integrally provided with an electrolytic device; the two sides of the ion diaphragm 21 are respectively a positive chamber 30 and a negative chamber 40, and an anode sheet 22 is arranged on one side of the positive chamber 30, and a cathode sheet 23 is arranged on one side of the negative chamber 40. The positive bin 30 and the negative bin 40 are filled with sodium chloride solution, and an acidic electrolytic aqueous solution with hypochlorous acid as a main sterilization component is formed in the positive bin 30 in a diaphragm type electrolytic tank electrolysis mode, so that a user can take out the acidic electrolytic aqueous solution in the positive bin 30 to sterilize, or the user can atomize and sterilize the environment by matching with the atomization function of an environment sterilization instrument. Compared with sodium hypochlorite solution, the sodium hypochlorite solution has high bactericidal effect, is an acidic solution, is almost tasteless and odorless, and can be widely applied to surface disinfection of medical treatment, appliances, food materials and human skin.

The acid electrolyzed water generating device on the market is generally applied to industrial production or large-scale killing systems. The electrolytic tank is matched with a diaphragm type electrolytic tank, an anode area and a cathode area are respectively arranged on two sides of the electrolytic tank, sodium chloride solution is continuously fed into an input end, and after electrolysis, acidic electrolyzed water and cathode waste water are output from an output end. The acid electrolyzed water generating device is difficult to be converted and applied to household miniaturized equipment for use, and the diaphragm of the electrolytic cell is also fixedly installed, so that after long-term use, the whole machine is generally required to be replaced, and the maintenance and operation cost is higher.

The acidic electrolyzed water production apparatus of the present invention can be used flexibly. For example, the device can be installed in a flowing running water device, the generating device base shell 10 is used for separating to form a positive cabin 30 or a negative cabin 40, and the electrolysis assembly 20 can continuously convert flowing sodium chloride solution into acidic electrolyzed water for use. For another example, in a still standing container, the generation device base shell 10 is installed in the container, and the container cavity is divided into a positive bin 30 or a negative bin 40, so that the electrolysis assembly 20 can convert the sodium chloride solution in the container into acidic electrolyzed water for disinfection and use. Furthermore, for example, the container is upgraded to an environment sterilizing instrument with an atomizing function, so that generated acidic electrolyzed water can be atomized and blown to the surrounding environment to sterilize the environment, the sterilizing capability is strong, the sodium chloride solution is easy to obtain, and the use is also convenient. The generating device base shell 10 and the electrolytic assembly 20 are simple in overall structure and small in size, and the acidic electrolyzed water can be conveniently applied to more application scenes.

In some embodiments, the electrolytic assembly 20 further comprises an electrolytic housing seat 24, the ionic membrane 21, anode sheet 22 and cathode sheet 23 being mounted to the electrolytic housing seat 24; the electrolytic shell holder 24 is detachably attached to the communication port 11. The electrolytic shell seat 24 is detachably arranged at the communication port 11, so that the base shell of the production device and the electrolytic assembly 20 can be conveniently dismounted for cleaning and maintenance. After the electrolytic component 20 is damaged, only a single part such as the ion diaphragm 21 and the like needs to be replaced, or the whole electrolytic component 20 is replaced, so that the maintenance and use cost is effectively reduced.

Specifically, the electrolytic shell seat 24 is provided with a concave structure 241, and the ion membrane 21 is placed in the concave structure 241; the electrolytic shell seat 24 is detachably provided with a pressing ring 25, and the pressing ring 25 can press the ion diaphragm 21 against the electrolytic shell seat 24. The ion diaphragm 21 is pressed through the pressure ring 25, and the installation and the disassembly are convenient. Meanwhile, the periphery of the ion diaphragm 21 is tightly pressed on the concave structure 241, and the sealing performance is good.

Furthermore, a sealing ring can be further arranged on the concave structure 241, and the sealing ring is matched with the pressing ring 25, so that the firmness and the sealing performance of the locking of the ion diaphragm 21 can be further maintained.

In some embodiments, the outer edge of the concave structure 241 is provided with a plurality of connecting holes 242 at intervals; the ion diaphragm 21 is provided with a plurality of avoiding holes 211 corresponding to the connecting holes 242; the press ring 25 is arranged around the outer edge of the concave structure 241, and a plurality of locking mounting parts 251 are arranged corresponding to the connecting holes 242; a locking member may be installed at the locking installation part 251, pass through the escape hole 211, and be locked to the connection hole 242. The retaining member may be a bolt, screw or other retaining member commonly used in the art.

Further, the electrolytic shell seat 24 is detachably mounted with an electrolytic shell cover 26, and the electrolytic shell cover 26 is sleeved outside the concave structure 241 and can cover the ion diaphragm 21. The electrolytic shell cover 26 can protect the recessed structure 241 and the ion membrane, the anode sheet 22 and the cathode sheet 23 mounted by accessories.

Specifically, a water passing tank is arranged on the electrolytic shell cover 26; the water passing grooves are provided with a plurality of water passing grooves, and the water passing grooves are in a group of two groups, so that the solution on the outer side can form convective flow and is in contact with the electrode plates more frequently, and the generation efficiency of the acidic electrolyzed water is improved.

In this embodiment, the communication port 11 is provided in a cylindrical structure, and a limit bump 111 is provided on the outer side; a cylindrical annular cylinder 27 is arranged on one side of the electrolytic shell seat 24 facing the communication port 11; the annular cylinder 27 is provided with a limit groove 271; the annular cylinder 27 can be arranged outside the communication port 11 in a fitting and sleeving manner; the annular cylinder 27 rotates and approaches the base housing 10 of the generating device, so that the limit lug 111 slides relative to the limit groove 271 and abuts against the tail end of the limit groove 271. The limiting groove 271 is arranged in a barb structure, and when the limiting projection 111 moves to the end of the barb of the limiting groove 271, the limiting projection can abut against the limiting groove 271, so that the electrolytic shell seat 24 and the communication port 11 are locked and fixed.

Further, a gasket 28 is provided between the communication port 11 and the electrolytic case holder 24. The sealing gasket 28 has elasticity, when the electrolytic shell seat 24 is pressed and communicated with the communicating port 11, the sealing gasket 28 is abutted between the connecting port and the electrolytic shell seat 24, the waterproof performance is improved, meanwhile, the elastic force of the sealing gasket 28 provides an axial force for separating the electrolytic shell seat 24 from the connecting port, and the force enables the limiting lug 111 to be firmly abutted in the limiting groove 271.

In some embodiments, the generating device base housing 10 is provided in an elongated hollow cylindrical structure; the arrangement structure only needs to lock the bottom of the generating device in a container or a water flow channel, and utilizes the outer wall of the base shell 10 of the generating device to divide the inner cavity of the container into two cavities which are respectively used as a male bin 30 and a female bin 40 to carry out electrolysis operation.

Further, a cover 12 is detachably mounted on the top of the base housing 10 of the generating device, and can cover the inner cavity of the base housing 10 of the generating device. In an environment sterilizing instrument such as an atomizer and the like, the height of the accommodating cavity is generally higher than that of the base shell 10 of the generating device, so that the inner cavity can be covered by the sealing cover 12, and the male bin 30 can be prevented from being communicated with the female bin 40.

The acidic electrolyzed water production apparatus of the present invention is preferably used by being mounted on a sterilizer having an atomizing function.

In this embodiment, the electrolytic shell seat 24 is provided with an electrode mounting groove 243 for mounting the electrode connecting member 60; the electrode mounting groove 243 may be subjected to a sealing and filling process. And fillers such as silica gel or epoxy resin are filled into the electrode mounting groove 243 in a sealing manner, so that the electrode connecting piece 60 is effectively protected, and the corrosion of sodium chloride solution and acid solution to the circuit is effectively prevented.

Specifically, the electrode connecting member 60 is composed of a metal bolt, a screw, and a metal connecting piece 61 locked between the metal bolt and the screw. And a resilient pad 62 may be added to maintain secure installation. Preferably, the elastic pad 62 is a plastic pad, and has strong corrosion resistance.

Further, in some embodiments, a mounting boss 244 structure is disposed at the bottom of the electrode mounting groove 243, and the inner and outer slots of the mounting boss 244 structure communicate; the mounting boss 244 enables the sealing filler to exist at the bottom of the electrode mounting groove 243 after sealing filling, and the sealing filler can flow and fill under the elastic gasket 62, so that the electrode connecting piece 60 can be better wrapped.

In this embodiment, the environmental sterilizer further comprises a body 50; the machine body 50 is provided with a water tank 51, a first water pump 52 and an atomizing chamber 53; the generating device base shell 10 is arranged on the water tank 51, and the water tank 51 can be divided into the male chamber 30 and the female chamber 40; the first water pump 52 can pump the solution in the positive chamber 30 to the atomization chamber 53, and the atomization chamber 53 is provided with an atomization assembly and a blowing assembly; the atomizing chamber 53 is connected to a mist outlet 54. The water tank 51 is divided into the male chamber 30 and the female chamber 40 by the generating device base shell 10; the user only needs to fill the sodium chloride solution towards adding in the water tank 51, then opens electrolysis subassembly 20 through control center and carry out work, can form acidic electrolysis aqueous solution in positive storehouse 30, then utilizes first water pump 52 to pump acidic electrolysis water to the atomizer chamber 53 in, the atomizer subassembly can make the acidic electrolysis aqueous solution in the atomizer chamber 53 turn into water smoke, and the air blast subassembly can send out water smoke through fog outlet 54 towards the external environment, disinfects and disinfects to the surrounding environment.

The atomizing unit and the air blowing unit in the atomizing chamber 53 may be an ultrasonic atomizing plate of an existing atomizer, or other existing atomizer structures, or existing air blowing and air blowing structures, and are not intended to limit the present invention.

In some embodiments, the body 50 is provided with a waste water chamber 55, the waste water chamber 55 is communicated with the female chamber 40 through a drain pipe 56, and the solution in the female chamber 40 can be pumped to the waste water chamber 55. After one round of electrolysis, the solution in the negative chamber 40 is converted into waste liquid which cannot be electrolyzed continuously or has poor electrolytic capacity, and needs to be discharged and replenished again. The waste water chamber 55 can pump out the waste water in the negative chamber 40 by a water pump, and after the acidic electrolyzed water solution in the positive chamber 30 is consumed or most of the acidic electrolyzed water solution is consumed, a new sodium chloride solution can be filled into the positive chamber 30 and the negative chamber 40.

In some embodiments, the body 50 is further provided with a second water pump 57, the second water pump 57 is communicated with the inner cavity of the generation device base shell 10 through a water replenishing pipe 58, and the second water pump 57 can pump the solution in the male chamber 30 to the female chamber 40. A new round of sodium chloride solution needs to be replenished; the sodium chloride solution in the positive chamber 30 is directly pumped into the negative chamber 40 by the second water pump 57, and the waste water in the negative chamber 40 is discharged to the waste water chamber 55 through the drain pipe 56.

Specifically, the water outlet end of the water supply pipe 58 extends into the bottom end of the female bin 40, and the water inlet end of the water discharge pipe 56 is arranged close to the top end of the female bin 40. The water outlet end of the water replenishing pipe 58 is provided with a one-way valve nozzle to prevent the waste water in the bin from flowing backwards.

When the environment sterilizing instrument is used, a sodium chloride solution is filled into the water tank 51 and stored in the positive bin 30, and a part of the sodium chloride solution can be pumped to the negative bin 40 by the second water pump 57; through the electrolysis mode of the diaphragm type electrolytic cell, acidic electrolyzed water solution can be formed in the anode bin 30, then the acidic electrolyzed water solution is flushed to the atomizing chamber 53 through the first water pump 52, and the atomizing assembly and the air blowing assembly are matched, so that water mist rich in acidic electrolyzed water can be formed and blown to the environment for disinfection. After one round of operation, the acidic electrolytic aqueous solution in the positive bin 30 is basically consumed, and waste water with poor electrolytic capacity is formed in the negative bin 40; by replenishing the water tank 51 with the sodium chloride solution, the second water pump 57 is turned on again, so that the sodium chloride solution in the male housing 30 is replenished to the female housing 40 and the waste water in the female housing 40 is discharged through the drain pipe 56.

It should be understood that the male chamber 30 and the female chamber 40 of the present invention can be replaced, and according to the use environment, the circulation mode of the water pump and the water path is changed, and the structure of the positive and negative electrode plates is switched, so that the male chamber 30 and the female chamber 40 can be replaced.

The present invention is not limited to the above embodiments, and those skilled in the art can make equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications and substitutions are included in the scope of the present invention defined by the claims.

Claims (10)

1. An environmental disinfecting instrument having an acidic electrolyzed water generating device, comprising: generating a device base shell (10), an electrolytic component (20), a positive bin (30) and a negative bin (40);

the generating device base shell (10) can separate the female bin (40) and the male bin (30); the generating device base shell (10) is provided with a communication port (11), and the electrolytic component (20) is installed at the communication port (11);

the electrolytic assembly (20) comprises an ion diaphragm (21), an anode sheet (22) and a cathode sheet (23); the ion diaphragm (21) can seal the communication port (11) to separate the female bin (40) and the male bin (30); the anode sheet (22) is positioned on one side of the ion diaphragm (21) close to the anode bin (30), and the cathode sheet (23) is positioned on one side of the ion diaphragm (21) close to the cathode bin (40); the anode strip (22) and the cathode strip (23) are electrically connected with the control center through a control wire (59).

2. The environmental sterilizer with acidic electrolyzed water forming apparatus according to claim 1, wherein: the electrolytic assembly (20) further comprises an electrolytic shell seat (24), and the ion diaphragm (21), the anode sheet (22) and the cathode sheet (23) are mounted on the electrolytic shell seat (24); the electrolytic case holder (24) is detachably attached to the communication port (11).

3. The environmental sterilizer with acidic electrolyzed water forming apparatus according to claim 2, wherein: the electrolytic shell seat (24) is provided with a concave structure (241), and the ion diaphragm (21) is placed in the concave structure (241); electrolytic shell seat (24) demountable installation has clamping ring (25), clamping ring (25) can with ionic membrane (21) compress tightly to lean on in electrolytic shell seat (24).

4. The environmental sterilizer with an acidic electrolyzed water forming apparatus according to claim 3, characterized in that: the outer edge of the concave structure (241) is provided with a plurality of connecting holes (242) at intervals; the ion diaphragm (21) is provided with a plurality of avoiding holes (211) corresponding to the connecting holes (242); the pressing ring (25) is arranged along the outer edge of the concave structure (241) in a surrounding mode, and a plurality of locking installation parts (251) are arranged corresponding to the connecting holes (242); the locking member may be installed at the locking installation part (251), pass through the escape hole (211), and be locked to the connection hole (242).

5. The environmental sterilizer with an acidic electrolyzed water forming apparatus according to claim 3, characterized in that: the electrolytic shell seat (24) is detachably provided with an electrolytic shell cover (26), the electrolytic shell cover (26) is sleeved on the outer side of the concave structure (241) and can cover the ion diaphragm (21).

6. The environmental sterilizer with an acidic electrolyzed water forming apparatus according to claim 2, characterized in that: the communication port (11) is arranged in a cylindrical structure, and a limiting bump (111) is arranged on the outer side of the communication port; a cylindrical annular cylinder (27) is arranged on one side of the electrolytic shell seat (24) facing the communication port (11); the annular cylinder (27) is provided with a limit groove (271);

the annular cylinder (27) can be arranged outside the communication port (11) in a fit and sleeved mode; the annular cylinder (27) rotates and is close to the generating device base shell (10), so that the limiting lug (111) can slide relative to the limiting groove (271) and abut against the tail end of the limiting groove (271);

a sealing gasket (28) is arranged between the communication port (11) and the electrolytic shell seat (24).

7. The environmental sterilizer with an acidic electrolyzed water forming apparatus according to claim 1, characterized in that: the generating device base shell (10) is arranged in a long-strip hollow cylindrical structure; the top of the generating device base shell (10) is detachably provided with a sealing cover (12) which can cover the inner cavity of the generating device base shell (10).

8. The environmental sterilizer with acidic electrolyzed water forming apparatus according to claim 2, wherein: the electrolytic shell seat (24) is provided with an electrode mounting groove (243) which can be used for mounting an electrode connecting piece (60); the electrode mounting groove (243) can be subjected to sealing and filling treatment.

9. The environmental sterilizer with acidic electrolyzed water forming apparatus according to any one of claims 1 to 8, wherein: the environment killing instrument is also provided with a machine body (50); the machine body (50) is provided with a water tank (51), a first water pump (52) and an atomizing chamber (53);

the generating device base shell (10) is arranged on the water tank (51), and the water tank (51) can be separated to form the male bin (30) and the female bin (40); the first water pump (52) can pump the solution in the positive bin (30) to the atomizing chamber (53), and the atomizing chamber (53) is provided with an atomizing assembly and a blowing assembly; the atomizing chamber (53) is connected with a mist outlet (54).

10. The environmental sterilizer with an acidic electrolyzed water forming apparatus according to claim 9, characterized in that: the machine body (50) is provided with a waste water chamber (55), the waste water chamber (55) is communicated with the female bin (40) through a drain pipe (56), and the solution in the female bin (40) can be pumped to the waste water chamber (55);

the machine body (50) is also provided with a second water pump (57), the second water pump (57) is communicated with the inner cavity of the generation device base shell (10) through a water replenishing pipe (58), and the second water pump (57) can pump the solution in the male bin (30) to the female bin (40).

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