CN223901004U - Household ozone disinfection device - Google Patents

Abstract

This utility model discloses a household ozone disinfection device, belonging to the technical field of household ozone generators. It includes a base with an ozone generator mounted on it. A disinfection cabinet is located on one side of the ozone generator, and a first ozone delivery pipe connects the ozone generator and the disinfection cabinet. Several partitions are distributed inside the disinfection cabinet. Each partition has a hollow structure, with one end connected to the first ozone delivery pipe. Several protrusions are provided on both the upper and lower surfaces of the partitions, each protrusion having two through holes that communicate with the hollow structure. This utility model features protrusions with through holes on the hollow partitions, allowing ozone to escape through the through holes. This results in a uniform ozone concentration distribution within the disinfection cabinet, improving disinfection efficiency. The protrusions also support and lift items placed on the partitions, reducing the contact area between the items and the partitions while allowing ozone to escape smoothly from the through holes on the upper surface of the partitions and fully contact the bottom of the items, thus improving the overall disinfection effect.

Description

Household ozone disinfection device

Technical Field

The utility model relates to the technical field of household ozone generators, in particular to a household ozone disinfection device.

Background

Ozone oxidation is a technology for decomposing pollutants by utilizing ozone gas oxidation, ozone is a strong oxidant, can react with a plurality of pollutants to decompose the pollutants into harmless substances, has the advantages of high efficiency, rapidness, no secondary pollution and the like, and is widely applied to the fields of water treatment, air purification, medical treatment, health and the like.

In the household ozone disinfection device, the internal space of the cabinet body into which ozone is introduced is larger, the ozone generator needs to run for a long time, so that the ozone in the cabinet body can reach the disinfection concentration, the objects placed in the cabinet body can be treated unevenly, the objects are far away from one end of the ozone generator, the objects are only plane plates, the disinfection effect of the places where the bottoms of the objects are contacted with the plane plates is poor, and the working time of the disinfection machine is prolonged.

In addition, because ozone has strong stimulation, has mild stimulation effect on eyes, can stimulate and damage respiratory tract when the concentration is high, and can damage central nervous system in vivo, after the disinfection of articles is finished, part of ozone is remained in the cabinet body, and the cabinet door is directly opened to cause damage to human body.

In view of the above problems of the prior art, the present utility model combines years of design and experience in use in the related art to design and manufacture a household ozone disinfection device to overcome the above drawbacks.

Disclosure of utility model

The household ozone disinfection device provided by the utility model has the advantages that the concentration distribution of ozone in the cabinet body is uniform, the overall disinfection effect of articles is improved, the disinfection efficiency is improved, the residual ozone in the cabinet body is treated, and the damage to human bodies is avoided.

In order to achieve the purpose, the household ozone disinfection device comprises a base, wherein an ozone generator is arranged on the base, a disinfection cabinet is arranged on one side of the ozone generator, a first ozone conveying pipe is connected between the ozone generator and the disinfection cabinet, a plurality of partition plates are distributed in the disinfection cabinet from top to bottom, the partition plates are horizontally arranged and are of hollow structures, one end of each hollow structure is communicated with the first ozone conveying pipe, a plurality of protrusions are arranged on the upper surface and the lower surface of each partition plate, two through holes are formed in each protrusion, and the through holes are communicated with the hollow structures.

Preferably, the protrusions are bumps.

Preferably, the projections are staggered on the separator.

Preferably, the protrusions are raised strips.

Preferably, the protrusions are arc-shaped protrusions, and the two through holes are symmetrically distributed along the axis of the arc-shaped protrusions.

Preferably, the protrusions are rectangular protrusions, and the two through holes are respectively located on two side faces of the rectangular protrusions.

Preferably, the sterilizer top is equipped with the scavenger fan, be equipped with the cabinet door on the sterilizer, be connected through the exhaust tube between scavenger fan and the sterilizer, the scavenger fan is kept away from the exhaust pipe end and is connected with the outlet duct, the outlet duct is kept away from the scavenger fan end and is connected with tail gas treatment ware, be equipped with the opening on the cabinet door, the opening inner wall is equipped with one-way ventilated membrane, articulated on the cabinet door be equipped with opening complex door plant.

Preferably, a filtering chamber is arranged on one side of the ozone generator, which is far away from the disinfection cabinet, the top end of the filtering chamber is communicated with the ozone generator through a pipeline, a blower is arranged on one side of the filtering chamber, which is far away from the ozone generator, the air outlet end of the blower is connected with an air outlet pipe extending into the filtering chamber, and the blower is connected with a controller.

Preferably, a first valve is arranged on the first ozone conveying pipe, and an air outlet valve is arranged on the air outlet pipe.

Preferably, the ozone generator, the ventilator, the tail gas processor, the first valve and the air outlet valve are respectively connected with the controller.

Preferably, the filter screen and the activated carbon adsorption plate are sequentially clamped in the filter chamber from bottom to top, and the air outlet pipe is positioned below the filter screen.

Preferably, the bottom end of the base is provided with a plurality of universal wheels, the base is provided with a box body, the filtering chamber, the ozone generator, the disinfection cabinet and the tail gas processor are all located in the box body, the blower is located on one side of the outer wall of the box body, and the controller and the cabinet door are all arranged on the front end face of the box body.

Preferably, the lower surface of the ozone generator is provided with a radiator fixed on the box body, the lower end of the radiator is provided with a radiating plate, the radiating plate is embedded on the inner wall of the bottom end of the box body, and the base is provided with a plurality of radiating holes for communicating the radiating plate with the outside.

The utility model has the advantages that:

1. The utility model has the advantages that the bulge with the through hole is arranged on the hollow partition board, the through hole is communicated with the hollow partition board, ozone can escape from the through hole, the concentration of the ozone in the disinfection cabinet is uniformly distributed, the disinfection efficiency is improved, the bulge supports and lifts articles placed on the partition board, the contact area between the articles and the partition board can be reduced, the ozone can smoothly escape from the through hole on the upper surface of the partition board and fully contact with the bottoms of the articles, and the integral disinfection effect of the articles is improved.

2. According to the utility model, the residual ozone in the disinfection cabinet is transferred to the tail gas processor for treatment through the ventilating fan, and the unidirectional ventilating film is used for introducing fresh air into the disinfection cabinet, so that the large pressure difference between the inside and the outside of the disinfection cabinet is avoided, and the cabinet door is difficult to open.

Drawings

Fig. 1 is a schematic structural view of a household ozone disinfection device.

Fig. 2 is a sectional view of a household ozone disinfection device.

Fig. 3 is a schematic view of a partition structure of a household ozone disinfection device.

Fig. 4 is a top view of a baffle plate with arc-shaped projections of a household ozone disinfection device.

Fig. 5 is a top view of a partition with rectangular ribs for a household ozone disinfection device.

In the figure, a base, a 2-ozone generator, a 3-disinfection cabinet, a 4-first ozone conveying pipe, a 5-partition board, a 6-lug, a 7-through hole, an 8-ventilation fan, a 9-exhaust pipe, a 10-exhaust pipe, an 11-tail gas processor, a 12-cabinet door, a 13-unidirectional ventilation film, a 14-door plate, a 15-filter chamber, a 16-blower, a 17-filter screen, an 18-activated carbon adsorption plate, a 19-box body, a 20-radiator, a 21-radiating board, a 22-radiating hole and a 23-raised strip are arranged.

Detailed Description

The present utility model is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

As shown in figures 1-4, the household ozone disinfection device comprises a base 1, wherein an ozone generator 2 is arranged on the base 1, a disinfection cabinet 3 is arranged on one side of the ozone generator 2, a first ozone conveying pipe 4 is connected between the ozone generator 2 and the disinfection cabinet 3, a plurality of partition boards 5 are distributed in the disinfection cabinet 3 from top to bottom, the partition boards 5 are horizontally arranged and are of hollow structures, one end of each hollow structure is communicated with the first ozone conveying pipe 4, a plurality of protrusions are arranged on the upper surface and the lower surface of each partition board 5, two through holes 7 are formed in the protrusions, and the through holes 7 are communicated with the hollow structures.

Specifically, ozone generator 2 is arranged in providing ozone to sterilizer 3, and baffle 5 and first ozone conveyer pipe 4 intercommunication that has hollow structure, and ozone can get into in the hollow structure of baffle 5 through first ozone conveyer pipe 4, and the escape is disinfected to the article in the through-hole 7 again, and the concentration distribution of ozone in sterilizer 3 is even, has improved disinfection efficiency, plays the supporting role to the article on the baffle 5, carries out the lifting to the article, reduces the area of contact of article and baffle 5, and ozone can escape from through-hole 7 simultaneously fully contacts with the article smoothly, and the article bottom also can carry out good disinfection.

The bulges are the convex blocks 6, and the convex blocks 6 are distributed on the partition board 5 in a staggered way. The bulge is the sand grip 23, and the bulge is the arc arch, and two through-holes 7 are along the protruding axis symmetry distribution of arc. The bulge is a rectangular bulge, and two through holes 7 are respectively positioned on two side surfaces of the rectangular bulge.

The bump 6 may be an arc bump, and the two through holes 7 are symmetrically distributed along the axis of the arc bump. The bump 6 may be a rectangular bump, the through holes 7 are located on the side of the rectangular bump, and when the protruding strips 23 are arc protruding strips, the two through holes 7 are symmetrically distributed along the axis of the arc protruding strips. When the protruding strips 23 are rectangular protruding strips, the through holes 7 are located on the side surfaces of the rectangular protruding strips. Arc lug, arc sand grip and article area of contact are little, more can improve the disinfection effect, and two through-holes 7 follow axis symmetric distribution, and ozone can evenly disinfect to the article bottom, and rectangular lug, rectangular sand grip's through-hole 7 all establish on the side, when supporting the article, the through-hole can not be plugged up to the article bottom, avoids influencing ozone diffusion.

The sterilizing cabinet 3 top is equipped with scavenger fan 8, is connected through exhaust tube 9 between scavenger fan 8 and the sterilizing cabinet 3, and scavenger fan 8 is kept away from exhaust tube 9 end and is connected with outlet duct 10, and outlet duct 10 is kept away from scavenger fan 8 end and is connected with tail gas treatment ware 11, is equipped with cabinet door 12 on the sterilizing cabinet 3, is equipped with the opening on cabinet door 12, and the opening inner wall is equipped with unidirectional ventilated membrane 13, articulates on the cabinet door 12 to be equipped with opening complex door plant 14.

After the object disinfection is finished, ozone remains in the disinfection cabinet 3, and the cabinet door 12 is directly opened to cause injury to human bodies, so that the air containing ozone is transferred into the tail gas processor 11 through the ventilator 8 to damage the tail gas, after the ventilator 8 operates for a period of time, the door plate 14 is opened, the unidirectional ventilated membrane 13 allows external air to enter the disinfection cabinet 3 in one direction, the pressure in the disinfection cabinet 3 is prevented from becoming low, and the cabinet door 12 is difficult to open.

The ozone generator 2 is equipped with filter chamber 15 far away from disinfection cabinet 3 one side, and filter chamber 15 top communicates with ozone generator 2 through the pipeline, and filter chamber 15 is equipped with air-blower 16 far away from ozone generator 2 one side, and air-blower 16 air-out end is connected with the play tuber pipe that extends to filter chamber 15 inside, and air-blower 16 is connected with the controller. The filter chamber 15 is internally provided with a filter screen 17 and an activated carbon adsorption plate 18 from bottom to top in sequence, and the air outlet pipe is positioned below the filter screen 17.

The bottom end of the base 1 is provided with a plurality of universal wheels, the base 1 is provided with a box body 19, the filtering chamber 15, the ozone generator 2, the sterilizing cabinet 3 and the tail gas processor 11 are all positioned in the box body 19, the blower 16 is positioned on one side of the outer wall of the box body 19, and the controller and the cabinet door 12 are arranged on the front end face of the box body 19. The first ozone delivery pipe 4 is provided with a first valve, and the air outlet pipe 10 is provided with an air outlet valve. The ozone generator 2, the ventilator 8, the tail gas processor 11, the first valve and the air outlet valve are respectively connected with the controller. The bottom end of the ozone generator 2 is provided with a radiator 20 fixed on the box 19, the lower end of the radiator 20 is provided with a radiating plate 21, the radiating plate 21 is embedded in the inner wall of the bottom end of the box 19, and the base 1 is provided with a plurality of radiating holes 22 for communicating the radiating plate 21 with the outside.

After the air blower 16 extracts outside air, the outside air enters the filtering chamber 15 through the air outlet pipe, the filter screen 17 in the filtering chamber 15 filters large particles in the air, the activated carbon adsorption plate 18 adsorbs impurities in the air, the movement of the device can be realized through the universal wheels, the air blower 16, the ozone generator 2, the ventilation fan 8, the tail gas processor 11, the first valve and the air outlet valve are respectively connected with the controller, the controller controls the whole device to operate, and the radiator 20 radiates heat generated by the ozone generator 2 to the outside of the box 19 through the cooperation of the radiating plate 21 and the radiating holes 22 to radiate the heat.

Detailed operation procedure

Firstly, a blower 16 is started through a controller, the blower 16 extracts external air to enter a filter chamber 15, a filter screen 17 in the filter chamber 15 filters large particles in the air, an activated carbon adsorption plate 18 adsorbs impurities in the air, the treated air enters an ozone generator 2 to generate ozone, a radiator 20 distributes heat generated by the ozone generator 2 to the outside of a box 19 through the cooperation of a radiating plate 21 and a radiating hole 22 at any time, the heat is radiated, a cabinet door 12 is opened, objects to be disinfected are placed on a partition 5, then the cabinet door 12 is closed, a first valve on a first ozone conveying pipe 4 is opened, ozone is released into a hollow structure of the partition 5 in a disinfection cabinet 3, ozone entering the hollow structure escapes from a through hole 7, the objects are disinfected, after disinfection, the first valve on the first ozone conveying pipe 4 is closed, the first ozone conveying pipe 4 stops outputting ozone, an air outlet valve on an air outlet pipe 10 is opened, the air outlet fan 8 is started, residual ozone in the disinfection cabinet 3 is extracted through the air outlet pipe 8, finally the air outlet pipe 10 enters the air outlet pipe 11 to be destroyed, after the air outlet pipe 8 runs for a period of time, the door 14 is opened, the air outlet pipe 13 is closed, the ozone is completely discharged from the air outlet pipe 3 through the air outlet pipe 3, and the air outlet pipe 12 is closed, the air outlet door 12 is closed after the disinfection cabinet is closed, and the air outlet pipe is completely closed.

It should be understood that these examples are for the purpose of illustrating the utility model only and are not intended to limit the scope of the utility model. Furthermore, it is to be understood that various changes, modifications and/or variations may be made by those skilled in the art after reading the technical content of the present utility model, and that all such equivalents are intended to fall within the scope of the present utility model as defined in the appended claims.

Claims (10)

1. A household ozone disinfection device, characterized in that it includes a base (1), an ozone generator (2) is provided on the base (1), a disinfection cabinet (3) is provided on one side of the ozone generator (2), a first ozone delivery pipe (4) is connected between the ozone generator (2) and the disinfection cabinet (3), a plurality of partitions (5) are distributed from top to bottom inside the disinfection cabinet (3), the partitions (5) are horizontally arranged and have a hollow structure, one end of the hollow structure is connected to the first ozone delivery pipe (4), a plurality of protrusions are provided on the upper and lower surfaces of the partitions (5), and two through holes (7) are provided on the protrusions, the through holes (7) being connected to the hollow structure. 2. The household ozone disinfection device according to claim 1, wherein the protrusion is a protrusion (6). 3. A household ozone disinfection device according to claim 2, characterized in that the protrusions (6) are staggered. 4. A household ozone disinfection device according to claim 1, wherein the protrusion is a raised strip (23). 5. A household ozone disinfection device according to claim 1, characterized in that the protrusion is an arc-shaped protrusion, and the two through holes (7) are symmetrically distributed along the axis of the arc-shaped protrusion. 6. A household ozone disinfection device according to claim 1, characterized in that the protrusion is a rectangular protrusion, and the two through holes (7) are respectively located on the two sides of the rectangular protrusion. 7. A household ozone disinfection device according to claim 1, characterized in that: a ventilation fan (8) is provided at the top of the disinfection cabinet (3), a cabinet door (12) is provided on the disinfection cabinet (3), the ventilation fan (8) is connected to the disinfection cabinet (3) through an exhaust pipe (9), an exhaust pipe (10) is connected to the end of the ventilation fan (8) away from the exhaust pipe (9), an exhaust gas processor (11) is connected to the end of the exhaust pipe (10) away from the ventilation fan (8), an opening is provided on the cabinet door (12), a one-way breathable membrane (13) is provided on the inner wall of the opening, and a door panel (14) that cooperates with the opening is hinged on the cabinet door (12). 8. A household ozone disinfection device according to claim 7, characterized in that a filter chamber (15) is provided on one side of the ozone generator (2), the top of the filter chamber (15) is connected to the ozone generator (2) through a pipe, a blower (16) is provided on the side of the filter chamber (15) away from the ozone generator (2), the air outlet end of the blower (16) is connected to an air outlet pipe extending into the filter chamber (15), and the blower (16) is connected to a controller. 9. A household ozone disinfection device according to claim 8, characterized in that a first valve is provided on the first ozone delivery pipe (4) and an outlet valve is provided on the outlet pipe (10). 10. A household ozone disinfection device according to claim 9, characterized in that the ozone generator (2), ventilation fan (8), exhaust gas processor (11), first valve and exhaust valve are respectively connected to the controller.