CN107190276B - Hydroxyl radical water molecule group generating device and application method thereof - Google Patents

Abstract

The invention discloses a hydroxyl radical water molecule group generating device and a using method thereof, which are characterized in that: the device comprises a shell, a water collecting mechanism and a hydroxyl radical generating mechanism, wherein the water collecting mechanism comprises a semiconductor refrigerating sheet and a water collector; the hydroxyl radical generating mechanism comprises an insulating cover plate and an annular high-pressure cone, the annular high-pressure cone is connected with a high-voltage wire, the insulating cover plate covers the semiconductor refrigerating sheet, a through hole is formed in the middle of the insulating cover plate, the top of the water collector penetrates through the insulating cover plate and is arranged in the through hole, the annular high-pressure cone is arranged on the insulating cover plate through a high-pressure cone seat, the middle of the annular high-pressure cone is right opposite to the through hole, and the top of the water collector is arranged right below the center of the annular high-pressure cone; the using method comprises the following steps: refrigeration-condensed water-electrolytic condensed water-generates hydroxyl radical. The invention realizes the generation of hydroxyl free radicals, and can be applied to air sterilization and mildew removal.

Description

Hydroxyl radical water molecule group generating device and application method thereof

Technical Field

The invention relates to a sterilization device, in particular to a hydroxyl radical water molecule group generating device and a use method thereof.

Background

With the development of economy, more and more people can concentrate on office work in high-grade office buildings, take vehicles for business trips, or drive private cars for business trips. Then, in indoor space, public place or car, not only the size particulate matter can suspend in the air, but also a large amount of microorganism bacteria are carried, and more serious, the air conditioning system can have the pathogenic bacteria of legionella fungus, can blow in the air along with the air conditioner, can influence human health, and still there is some peculiar smell in the room.

At present, a plurality of air disinfection and deodorization devices exist on the market. The two sterilization modes can only be used under unmanned conditions, have large limitations, and are inconvenient to use when people exist, so that the actual sterilization effect is poor.

If negative ions are utilized, the negative ions can only exist in clean air for a few minutes, if intelligent negative ions exist in places with extremely much dust for a few seconds, and the negative ions can only be used for principle that the negative ion generator is 4-5 meters away, so that the effect is poor. If the concentration of negative ions is increased, the ozone content is increased, and the human health is affected.

Disclosure of Invention

The invention aims to provide a hydroxyl radical water molecule group generating device and a using method thereof, and by using the structure and the method, the generation of hydroxyl radicals is realized, bacteria and mold can be killed, peculiar smell is removed, the duration is long, the stability is improved, and meanwhile, no influence is caused to personnel.

In order to achieve the above purpose, the invention adopts the following technical scheme: the hydroxyl radical water molecule group generating device comprises a shell, a water collecting mechanism and a hydroxyl radical generating mechanism, wherein the water collecting mechanism is arranged on the shell, the water collecting mechanism comprises a semiconductor refrigerating sheet and a water collector arranged in the middle of the top surface of the semiconductor refrigerating sheet, and the semiconductor refrigerating sheet is arranged on the shell through a refrigerating sheet mounting seat; the utility model discloses a semiconductor refrigeration piece, including water collection mechanism, water collector, heat-insulating cover plate, water collector, hydroxyl radical generating mechanism install in directly over the water collection mechanism, hydroxyl radical generating mechanism includes heat-insulating cover plate and a hollow structure's annular high-pressure cone, annular high-pressure cone links to each other with a high-voltage wire, heat-insulating cover plate lid in on the semiconductor refrigeration piece, heat-insulating cover plate middle part is equipped with a through-hole, water collector's top passes in the heat-insulating cover plate, and set up in the through-hole, annular high-pressure cone install in on the heat-insulating cover plate through a high-pressure cone seat, annular high-pressure cone's middle part just is just to the through-hole sets up, just water collector's top set up in under the annular high-pressure cone centre.

In the above technical scheme, the top surface of the semiconductor refrigeration piece is provided with an insulating protection film, and the bottom of the water collector passes through the insulating protection film and is connected with the top surface of the semiconductor refrigeration piece.

In the above technical scheme, the water collector is made of metal, the water collector comprises a base, a connecting rod and a water collecting ball head, the water collecting ball head is installed at the top of the connecting rod, the bottom of the connecting rod is installed at the center of the top surface of the base, and the bottom of the base is installed on the top surface of the semiconductor refrigerating sheet.

In the technical scheme, the top of the water collecting ball head is provided with a transverse plane, and the transverse plane is arranged in parallel with the horizontal plane.

In the above technical scheme, the transverse plane is arranged right below the right center of the annular high-pressure cone, and a vertical distance is arranged between the transverse plane and the bottom surface of the annular high-pressure cone.

In the above technical scheme, an air duct is arranged in the shell, the top end of the air duct is communicated with the top surface of the shell, and the bottom end of the air duct is communicated with the side surface of the shell.

In the above technical scheme, a heat radiation fan is arranged in the air duct, and the heat radiation fan is arranged at the bottom end of the air duct.

In the above technical scheme, a radiating fin is arranged at the bottom of the semiconductor refrigerating fin, and the radiating fin is installed in the refrigerating fin installation seat.

In order to achieve the purpose, the invention adopts a using method of a hydroxyl radical water molecule group generating device, which comprises the following steps:

(1) the semiconductor refrigerating sheet works to reduce the temperature of the water collector;

(2) when the temperature of the water collector is reduced to-1 ℃ to 4 ℃, condensed water can be generated on the water collecting ball head due to the lower temperature of the water collector;

(3) because of the generation of condensed water, the distance between the condensed water and the annular high-pressure cone is smaller than the discharge critical distance of the annular high-pressure cone, and the annular high-pressure cone performs positive high-pressure discharge;

(4) in the high-voltage discharge process of the annular high-voltage cone, the condensed water on the water collecting ball head is electrolyzed, and hydroxyl free radicals are generated by the electrolyzed condensed water;

(5) the discharge voltage of the annular high-voltage cone is 4000-5500V, and the discharge critical distance of the annular high-voltage cone is 0.8-3 mm.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

1. according to the invention, the semiconductor refrigerating sheet is used for refrigerating, wherein the temperature of the water collector is reduced, condensed water is generated by the water collector, then the annular high-voltage cone is used for discharging high-voltage electricity, the condensed water is electrolyzed, so that the high-voltage electricity electrolyzed condensed water is decomposed into hydroxyl free radicals, the residual water molecule groups wrap the hydroxyl free radicals and are released into the air, so that the hydroxyl free radical water molecule groups are formed, the hydroxyl free radical water molecule groups are utilized for sterilization and deodorization, and no harm is generated to a human body, meanwhile, the service life of the hydroxyl free radical water molecule groups is long, the diffusion range is large, namely the sterilization and deodorization range can be effectively increased.

Drawings

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

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a schematic view showing the installation positions of a water collector and an annular high-pressure cone according to the first embodiment of the present invention;

FIG. 4 is a schematic view of the cross-sectional A-A configuration of FIG. 3;

FIG. 5 is a schematic perspective view of FIG. 3;

fig. 6 is a schematic perspective view of a water collector according to a first embodiment of the present invention.

Wherein: 1. a housing; 2. a hydroxyl radical generating mechanism; 3. a semiconductor refrigeration sheet; 4. a water collector; 5. a refrigerating sheet mounting seat; 6. a thermally insulating cover plate; 7. an annular high-pressure cone; 8. a through hole; 9. a high-pressure cone seat; 10. a base; 11. a connecting rod; 12. water collecting ball head; 13. a transverse plane; 14. vertical spacing; 15. an air duct; 16. a heat radiation fan.

Detailed Description

The invention is further described below with reference to the accompanying drawings and examples:

embodiment one: referring to fig. 1 to 6, a hydroxyl radical water molecule group generating device comprises a shell 1, a water collecting mechanism and a hydroxyl radical generating mechanism 2, wherein the water collecting mechanism and the hydroxyl radical generating mechanism are arranged on the shell 1, the water collecting mechanism comprises a semiconductor refrigerating sheet 3 and a water collector 4 arranged in the middle of the top surface of the semiconductor refrigerating sheet 3, and the semiconductor refrigerating sheet 3 is arranged on the shell 1 through a refrigerating sheet mounting seat 5; the hydroxyl radical generating mechanism 2 is arranged right above the water collecting mechanism, the hydroxyl radical generating mechanism 2 comprises an insulating cover plate 6 and an annular high-pressure cone 7 with a hollow structure, the annular high-pressure cone 7 is connected with a high-voltage wire, the insulating cover plate 6 covers the semiconductor refrigerating sheet 3, a through hole 8 is formed in the middle of the insulating cover plate 6, the top of the water collector 4 penetrates through the insulating cover plate 6 and is arranged in the through hole 8, the annular high-pressure cone 7 is arranged on the insulating cover plate 6 through a high-pressure cone seat 9, the middle of the annular high-pressure cone 7 is right opposite to the through hole 8, and the top of the water collector 4 is arranged right below the center of the annular high-pressure cone 7.

In this embodiment, the semiconductor refrigeration piece and the annular high-pressure cone are controlled by a controller. The water collector and the annular high-pressure cone are made of metal, the top of the water collector is arranged right below the center of the annular high-pressure cone of the hollow structure, and the water collector and the annular high-pressure cone are coaxially arranged. When the device is used, the semiconductor refrigerating sheet and the annular high-pressure cone are electrified, the semiconductor refrigerating sheet is refrigerated and cooled, and as the water collector is arranged in the middle of the top surface of the semiconductor refrigerating sheet, the water collector can be cooled, condensed water can be generated on the water collector when the temperature is reduced to-1-4 ℃, wherein the annular high-pressure cone has a discharge critical distance, the distance between the water collector and the annular high-pressure cone is larger than the discharge critical distance, when the condensed water is generated at the top of the water collector, the distance between the water collector and the annular high-pressure cone can be reduced, and thus, when the distance between the condensed water and the annular high-pressure cone is smaller than the discharge critical distance, the annular high-pressure cone can release high-voltage electricity, electrolyze water molecules and generate hydroxyl free radicals.

In the process, the annular high-pressure cone generates an electric field due to electrification, the electric field wraps the top of the water collector, the water collector gradually absorbs moisture in the air due to low temperature of the water collector under the condensation effect, condensed water is gradually formed, in the process of forming the condensed water, positrons can be separated from the annular high-pressure cone to directly pass through the condensed water, the water collector is grounded, the water molecules can become conical gradually to approach the annular high-pressure cone due to the fact that direct-current high-pressure electricity is under the action of electric field force and the tension of the surface of condensed water drops (namely, the diameter of the condensed water is larger and larger), when the distance reaches the amplification critical distance, conical vaporific discharge (in an electric field) is generated at the top end of the water cone, at this point, a part of water molecules are broken under the action of the shearing force generated by the high-pressure electric field, hydroxyl free radicals are generated, the rest water molecule radicals wrap the hydroxyl free radicals, negative charges are released into the air under the action of the direct-current high-pressure electric field, and the hydroxyl free radical water radicals are formed, and sterilization and deodorization are performed.

In this embodiment, set for the critical distance that discharges between water collector and the annular high-pressure awl, only can discharge through the water awl like this, there is not the loss problem that discharges between water collector and the annular high-pressure awl, can practice thrift the energy consumption, and the negative electron can wrap up on the hydrone group simultaneously, makes can not appear the dust accumulation phenomenon on the annular high-pressure awl, guarantees life.

In this embodiment, an insulating protection film is disposed on the top surface of the semiconductor refrigeration sheet, and the bottom of the water collector is connected to the top surface of the semiconductor refrigeration sheet through the insulating protection film. Through setting up insulating protection film, when using like this, the temperature that the semiconductor refrigeration piece reduced only can show through the water collector, and this water collector can refrigerate fast, and the quick production comdenstion water guarantees the emergence of hydroxyl free radical.

Referring to fig. 3 to 6, the water collector 4 is made of metal, the water collector 4 includes a base 10, a connecting rod 11 and a water collecting ball head 12, the water collecting ball head 12 is mounted on the top of the connecting rod 11, the bottom of the connecting rod 11 is mounted at the center of the top surface of the base 10, and the bottom of the base 10 is mounted on the top surface of the semiconductor refrigerating sheet 3.

The top of the water collecting ball head 12 is provided with a transverse plane 13, and the transverse plane 13 is arranged in parallel with the horizontal plane.

The transverse plane 13 is arranged right below the center of the annular high-pressure cone 7, and a vertical distance 14 is arranged between the transverse plane 13 and the bottom surface of the annular high-pressure cone 7.

In this embodiment, the function of the connecting rod is a heat conduction function, and the diameter of the water collecting ball head is twice the diameter of the connecting rod. In the embodiment, the diameter of the connecting rod is 0.8 mm, the diameter of the water collecting ball head is 1.6 mm, the distance between the transverse plane and the top of the connecting rod is 1.2 mm, the vertical distance is 1 mm, the outer diameter of the annular high-voltage cone is 8-9 mm, the inner diameter is 6.87-7.87 mm, the discharge critical distance is 0.8-3 mm, and the discharge critical distance of 0.8 mm is selected in the embodiment. Because the diameter of the water collecting ball head is larger than the diameter of the connecting rod, after the temperature of the water collecting ball head and the connecting rod is reduced, condensed water generated by condensation can be necessarily wrapped on the water collecting ball head and mainly on a transverse plane to form a condensed water drop, when the diameter of the condensed water drop is gradually increased, the vertical distance between the condensed water drop and the annular high-pressure cone is smaller than 0.8 mm, the condensed water drop can be electrolyzed to form hydroxyl free radicals.

In this embodiment, the inner edge surface of the annular high-voltage cone is an arc surface, and the arc surface faces downwards and faces the water collecting ball head, so that the ball head is covered by the electric field of the annular high-voltage cone.

Referring to fig. 2, an air duct 15 is disposed in the housing 1, and a top end of the air duct 15 is connected to a top surface of the housing 1, and a bottom end of the air duct is connected to a side surface of the housing 1. A heat dissipation fan 16 is arranged in the air duct 15, and the heat dissipation fan 16 is arranged at the bottom end of the air duct 15. The bottom of the semiconductor refrigerating sheet 3 is provided with a radiating fin, and the radiating fin is arranged in the refrigerating sheet mounting seat 5.

The heat generated by the refrigeration of the semiconductor refrigerating sheet is dissipated from the bottom of the semiconductor refrigerating sheet, the heat dissipation effect of the semiconductor refrigerating sheet is quickened through the radiating fin, and then the heat is exhausted through the radiating fan and the air duct, so that the water collecting efficiency and the water collecting quality of the water collector are ensured.

In order to achieve the purpose, the invention adopts a using method of a hydroxyl radical water molecule group generating device, which comprises the following steps:

(1) the semiconductor refrigerating sheet works to reduce the temperature of the water collector;

(2) when the temperature of the water collector is reduced to-1 ℃ to 4 ℃, condensed water can be generated on the water collecting ball head due to the lower temperature of the water collector;

(3) because of the generation of condensed water, the distance between the condensed water and the annular high-pressure cone is smaller than the discharge critical distance of the annular high-pressure cone, and the annular high-pressure cone performs positive high-pressure discharge;

(4) in the high-voltage discharge process of the annular high-voltage cone, the condensed water on the water collecting ball head is electrolyzed, and hydroxyl free radicals are generated by the electrolyzed condensed water;

(5) the discharge voltage of the annular high-voltage cone is 4000-5500V, and the discharge critical distance of the annular high-voltage cone is 0.8-3 mm.

Claims (7)

1. A hydroxyl radical water molecule group generating device is characterized in that: the water collecting mechanism comprises a semiconductor refrigerating sheet and a water collector arranged in the middle of the top surface of the semiconductor refrigerating sheet, wherein the semiconductor refrigerating sheet is arranged on the shell through a refrigerating sheet mounting seat; the hydroxyl radical generating mechanism is arranged right above the water collecting mechanism, the hydroxyl radical generating mechanism comprises an insulating cover plate and an annular high-pressure cone with a hollow structure, the annular high-pressure cone is connected with a high-voltage wire, the insulating cover plate covers the semiconductor refrigerating sheet, a through hole is formed in the middle of the insulating cover plate, the top of the water collector penetrates through the insulating cover plate and is arranged in the through hole, the annular high-pressure cone is arranged on the insulating cover plate through a high-pressure cone seat, the middle of the annular high-pressure cone is right opposite to the through hole, and the top of the water collector is arranged right below the center of the annular high-pressure cone;

an insulating protective film is arranged on the top surface of the semiconductor refrigeration piece, and the bottom of the water collector passes through the insulating protective film and is connected with the top surface of the semiconductor refrigeration piece;

an air duct is arranged in the shell, the top end of the air duct is communicated with the top surface of the shell, and the bottom end of the air duct is communicated with the side surface of the shell.

2. The hydroxyl radical water cluster generating device according to claim 1, wherein: the water collector is made of metal, the water collector comprises a base, a connecting rod and a water collecting ball head, the water collecting ball head is installed at the top of the connecting rod, the bottom of the connecting rod is installed at the right center of the top surface of the base, and the bottom of the base is installed on the top surface of the semiconductor refrigerating sheet.

3. The hydroxyl radical water cluster generating device according to claim 2, wherein: the top of the water collecting ball head is provided with a transverse plane which is parallel to the horizontal plane.

4. A hydroxyl radical water cluster generating device according to claim 3, wherein: the transverse plane is arranged right below the right center of the annular high-pressure cone, and a vertical distance is arranged between the transverse plane and the bottom surface of the annular high-pressure cone.

5. The hydroxyl radical water cluster generating device according to claim 1, wherein: and a heat radiation fan is arranged in the air duct, and the heat radiation fan is arranged at the bottom end of the air duct.

6. The hydroxyl radical water cluster generating device according to claim 5, wherein: the bottom of the semiconductor refrigerating sheet is provided with a radiating fin, and the radiating fin is arranged in the refrigerating sheet mounting seat.

7. The method for using the hydroxyl radical water molecule group generating device according to claim 1, comprising the steps of:

(1) the semiconductor refrigerating sheet works to reduce the temperature of the water collector;

(2) when the temperature of the water collector is reduced to-1 ℃ to 4 ℃, condensed water can be generated on the water collecting ball head due to the lower temperature of the water collector;

(3) because of the generation of condensed water, the distance between the condensed water and the annular high-pressure cone is smaller than the discharge critical distance of the annular high-pressure cone, and the annular high-pressure cone performs positive high-pressure discharge;

(4) in the high-voltage discharge process of the annular high-voltage cone, the condensed water on the water collecting ball head is electrolyzed, and hydroxyl free radicals are generated by the electrolyzed condensed water;

(5) the discharge voltage of the annular high-voltage cone is 4000-5500V, and the discharge critical distance of the annular high-voltage cone is 0.8-3 mm.