CN218529369U - Indoor disinfection and deodorization device - Google Patents

Abstract

The application discloses indoor disinfection deodorizing device relates to the technical field of health protection, has improved the lower and inhomogeneous problem of ozone diffusion efficiency, and it includes organism, generator and diffusion subassembly, the generator sets up in the inside of organism, the diffusion subassembly is including blowing the piece and the diffusion cover body, it is located the inside of organism to blow the piece, the diffusion cover body is located the top of organism, the diffusion mouth has been seted up on the organism, it is located one side that the diffusion mouth was kept away from to the generator to blow the piece, just the direction of blowing the piece is towards the diffusion mouth, the inside of the diffusion cover body has the cavity, the cavity communicates with each other with the diffusion mouth, the inside of the diffusion cover body still begins to have a plurality of diffusion passageways, the one end and the cavity of diffusion passageway communicate with each other, the other end and the external world of diffusion passageway communicate with each other, the slope of diffusion passageway sets up. This application can improve the diffusion efficiency and the effect of ozone to improve ozone and disinfect deodorant effect.

Description

Indoor disinfection and deodorization device

Technical Field

The application relates to the technical field of sanitary protection, in particular to an indoor disinfection and deodorization device.

Background

Under the large environment of epidemic situation, places (such as large places like hospitals and hotels) for isolating patients need to be regularly disinfected and deodorized, so that secondary infection of the indoor environment to the patients is reduced, and peculiar smell of air in the indoor environment is reduced.

Initially, disinfection and deodorization are usually carried out by using an ultraviolet lamp and a disinfectant spray, but the method needs to invest large labor cost and is time-consuming; later, people improved the method of sterilization and deodorization, changed ozone to sterilization and deodorization, ozone not only thoroughly sterilized, no dead angle occurred, but also had good deodorization effect, so the method of ozone sterilization and deodorization was widely used.

Ozone disinfection and deodorization usually needs to be carried out by using an ozone generator, and the air outlet hole of the existing ozone generator is generally in a one-way design, so that the ozone is not uniformly diffused in the space, the ozone can be diffused into the whole space in a longer time, and further improvement is needed.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that ozone diffusion efficiency is lower and inhomogeneous, this application provides an indoor deodorization device that kills.

The application provides an indoor deodorization device that kills adopts following technical scheme:

the utility model provides an indoor deodorization device that kills, includes the organism, is used for generating the generator of ozone and is used for diffusing the diffusion subassembly of ozone, the generator sets up in the inside of organism, the diffusion subassembly is including blowing a and the diffusion cover body, it is located the inside of organism to blow the piece, the diffusion cover body is located the top of organism, set up the diffusion mouth that supplies ozone to spread outward on the organism, it is located the one side that the diffusion mouth was kept away from to the generator to blow the piece, just blow the direction orientation diffusion mouth of piece, the inside of the diffusion cover body has the cavity, the cavity communicates with each other with the diffusion mouth, the inside a plurality of diffusion passageways that still begins of diffusion cover body, and is a plurality of the diffusion passageway is circumference array distribution along the vertical central line of the diffusion cover body, the one end and the cavity of diffusion passageway communicate with each other, the other end and the external world of diffusion passageway communicate with each other, the diffusion passageway slope sets up, the one end that the diffusion passageway is close to the cavity is the slope lower extreme.

By adopting the technical scheme, the ozone can be uniformly diffused towards the periphery, so that the diffusion efficiency of the ozone is improved, the time required by ozone sterilization and deodorization is shortened, and the effect of ozone sterilization and deodorization is improved; in addition, because the mass density of ozone is greater than that of air, the ozone is diffused upwards in an inclined mode, the diffusion efficiency of the ozone can be improved, and the probability that the ozone is directly accumulated at the bottom of a space after being diffused is reduced.

Optionally, the diffusion cover body is rotatably connected with the machine body, the rotation axis of the diffusion cover body coincides with the vertical center line of the diffusion cover body, and the diffusion assembly further comprises a driving piece for driving the diffusion cover body to rotate.

Through adopting above-mentioned technical scheme, the driving piece drives about the diffusion cover body and rotates and can further make ozone diffusion more even.

Optionally, the driving part is located in the cavity, the driving part includes a driving impeller and a connecting piece, one end of the connecting piece is fixedly connected with the diffusion cover body, the other end of the connecting piece is fixedly connected with the driving impeller, and the driving impeller is located above the diffusion opening.

Through adopting above-mentioned technical scheme, when the piece of blowing bloies towards the diffusion mouth and makes ozone diffusion, thereby gas flow can drive the drive impeller and rotate and make the diffusion cover body rotate, makes things convenient for the diffusion cover body to rotate at the in-process of ozone diffusion.

Optionally, the bottom of the machine body is provided with a support assembly for raising the machine body.

By adopting the technical scheme, the ozone can be diffused outwards at a place farther away from the ground, so that the diffusion efficiency of the ozone is further improved.

Optionally, the supporting component comprises two supporting pieces, the supporting pieces are rotatably connected with the machine body, and a yielding groove for the supporting pieces to rotate and retract is formed in the bottom of the machine body.

Through adopting above-mentioned technical scheme, support piece rotates and is used for raising the organism after taking out, and support piece rotates to withdraw and can make things convenient for indoor deodorization device that disappears to deposit, reduces its space that occupies.

Optionally, the machine body is provided with a first magnet in the abdicating groove, the support piece is provided with a second magnet, and when the support piece is retracted in the abdicating groove, the first magnet and the second magnet attract each other.

Through adopting above-mentioned technical scheme, support piece rotates and withdraws back in the groove of stepping down, under the effect of the attraction between first magnet and second magnet, support piece can be in the groove of stepping down rigidity.

Optionally, the support member has a telescopic structure.

Through adopting above-mentioned technical scheme, can control the flexible distance of adjusting support piece and raising the organism of support piece to make ozone can spread in the place farther from ground, further improve the diffusion effect of ozone.

Optionally, a reminder is further arranged inside the machine body, a first detection piece used for detecting the concentration of ozone is arranged at one end, far away from the rotating connection position of the support piece, and the first detection piece controls the opening and closing of the reminder.

Through adopting above-mentioned technical scheme, first detection piece detects in the ozone concentration to the space apart from the nearest place on ground, and when ozone concentration dropped to the numerical value that can not produce harm to the human body, the reminiscences start-up flash of light and sent the warning sound and remind the staff to eliminate and kill the deodorization and have accomplished, makes things convenient for indoor deodorization and elimination deodorizing device's use, and safety when simultaneously can effectively ensure the staff operation reduces the harm of ozone concentration height to the human body.

Optionally, a second detection part for detecting the concentration of ozone is further arranged on the machine body, and the second detection part controls the generator and the blowing part to be opened and closed.

Through adopting above-mentioned technical scheme, the second detects the piece and detects in the annex of ozone diffusion position the ozone concentration in the space, and when ozone concentration rose to the numerical value that can play the deodorization effect of killing, the generator and the piece of blowing were closed, no longer to the interior diffusion ozone of space, further made things convenient for indoor deodorization device's that kills use, and the energy saving avoids the too much waste that causes of ozone diffusion simultaneously.

In summary, the present application includes at least one of the following advantages:

1. ozone can be uniformly diffused to each position of the space, dead angles of sterilization and deodorization are reduced, and the efficiency and effect of ozone diffusion are improved;

2. can effectively avoid the energy extravagant, can auto-stop after the ozone diffusion is enough, and after ozone and air reaction to ozone concentration at the within range harmless to the human body, the reminiscences can remind the staff to eliminate and kill the deodorization operation and accomplish.

Drawings

FIG. 1 is a schematic view of an indoor air sterilizer according to an embodiment of the present invention;

fig. 2 is a sectional view of an indoor sterilizing and deodorizing device according to an embodiment of the present invention.

Description of reference numerals: 1. a body; 11. a housing chamber; 12. a diffusion port; 13. a fitting portion; 14. a yielding groove; 15. a power supply connector; 16. a power switch; 17. a handle; 2. a generator; 3. a diffusion component; 31. a blowing member; 32. a diffusion cover body; 321. a cavity; 322. a diffusion portion; 323. a diffusion channel; 33. a drive member; 331. driving the impeller; 332. a connecting member; 4. a support assembly; 41. a support member; 5. a first magnet; 6. a second magnet; 7. a first detecting member; 8. a reminder; 9. a second detecting member.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses indoor deodorization device that disinfects.

Referring to fig. 1 and 2, the indoor sterilizing and deodorizing device includes a body 1, a generator 2 for generating ozone, and a diffusion member 3 for diffusing ozone, wherein the diffusion member 3 diffuses ozone in a space, and when the concentration of ozone in the space rises to a certain value, that is, the ozone amount in the space can exert the sterilizing and deodorizing effect on the whole space, the generator 2 stops generating ozone, and the diffusion member 3 also stops diffusing ozone; and after the ozone in the space reacts with the air until the concentration of the ozone is reduced to a certain value, namely the ozone amount in the space is harmless to human bodies, the sterilization and deodorization operation is completed.

The inside of organism 1 has appearance chamber 11, and generator 2 fixed mounting is inside organism 1, and generator 2 is located and holds the chamber 11. The machine body 1 is provided with a diffusion port 12 for diffusing ozone to the outside, and the diffusion port 12 is communicated with the cavity 11.

Referring to fig. 1 and 2, the diffusion assembly 3 includes a blowing member 31 for driving the ozone to diffuse toward the outside, the blowing member 31 is fixedly installed inside the machine body 1, the blowing member 31 is also located in the cavity 11, and the blowing member 31 is located on one side of the generator 2 away from the diffusion port 12. The blowing direction of the blowing member 31 is toward the diffusion opening 12. After the generator 2 generates ozone, the ozone stays in the cavity 11, and then is blown away towards the diffusion opening 12 by the blowing piece 31. In the embodiment, the generator 2 and the blowing member 31 are common in the prior art, and therefore are not described herein.

The diffusion component 3 further comprises a diffusion cover body 32 for guiding the ozone to be uniformly diffused, the machine body 1 extends outwards from the end face where the diffusion opening 12 is located to form a matching portion 13, the diffusion cover body 32 is rotatably connected with the machine body 1 through the matching portion 13, and the rotating axis of the diffusion cover body 32 coincides with the blowing direction of the blowing piece 31.

The diffuser housing 32 has a cavity 321 in its interior, the cavity 321 communicating with the receptacle 11 via the diffuser opening 12. The diffusion cover body 32 is also provided with a plurality of diffusion parts 322, the diffusion parts 322 are internally provided with diffusion channels 323 for ozone to diffuse outwards, and the plurality of diffusion parts 322 are distributed in a circumferential array by taking the rotation axis of the diffusion cover body 32 as an axis.

One end of the diffusion channel 323 is communicated with the cavity 321, the other end of the diffusion channel 323 is open to the outside, and the diffusion channel 323 is in an inclined state, and one end of the diffusion channel 323 adjacent to the cavity 321 is an inclined lower end.

Referring to fig. 1 and 2, the diffuser assembly 3 further includes a driving member 33 for driving the diffuser cap body 32 to rotate, the driving member 33 is installed in the cavity 321, and the driving member 33 includes a driving impeller 331 and a connecting member 332. One end of the connecting piece 332 is fixedly connected with the cavity wall of the cavity 321 on the side far away from the diffusion opening 12, the other end of the connecting piece 332 is fixedly connected with the driving impeller 331, the driving impeller 331 is located in the cavity 321 near the diffusion opening 12, and the length direction of the connecting piece 332 coincides with the rotation axis of the diffusion cover body 32. The blowing piece 31 blows away the ozone and can blow the driving impeller 331 to rotate, thereby driving the diffusion cover 32 to rotate.

The supporting component 4 is further installed at one end of the machine body 1 far away from the diffusing cover 32, the supporting component 4 includes two supporting pieces 41, the supporting pieces 41 are rotatably connected with the machine body 1, and the rotating connection positions of the two supporting pieces 41 and the machine body 1 are respectively located at two ends of the machine body 1.

Support 41 has extending structure, and with the telescopic link with the same reason, the flexible height that steerable organism 1 was lifted by supporting component 4 promptly of control support 41, support 41 is every to extend a section distance homoenergetic and to be fixed, is convenient for play the supporting role to organism 1. In the present embodiment, since the structure of the telescopic rod is well known to those skilled in the art, the structure of the supporting member 41 will not be described in detail herein, and the supporting member 41 is only briefly shown in the drawings.

Referring to fig. 1 and 2, an abdicating groove 14 is formed in an end surface of the machine body 1 away from the diffusion cover 32, and one ends of the two supporting pieces 41 rotatably connected with the machine body 1 are located in the abdicating groove 14. When the supporting piece 41 is in a fully retracted state, after the supporting piece 41 rotates towards a direction close to the abdicating groove 14, both the supporting pieces 41 are positioned in the abdicating groove 14, one end of the supporting piece 41 far away from the rotating connection position thereof is provided with the second magnet 6, the machine body 1 is provided with the first magnet 5 at the groove bottom of the abdicating groove 14, and when the supporting piece 41 rotates into the abdicating groove 14, the second magnet 6 is abutted against the first magnet 5 and the two magnets attract each other; when the supporting member 41 rotates to the limit position in the direction away from the receding groove 14, the supporting member 41 abuts against a groove wall on one side of the receding groove 14, and the supporting member 41 is in an inclined state, and an end of the supporting member 41 close to the machine body 1 is an inclined upper end.

Referring to fig. 1 and 2, a first detecting part 7 for detecting the concentration of ozone is further installed on one end of the supporting part 41 away from the rotating connection position, a reminder 8 for reminding a worker that the disinfecting and deodorizing operation is completed is installed on the outer side of the machine body 1, and the first detecting part 7 is coupled with the reminder 8. When the first detection piece 7 detects that the concentration of ozone in the surrounding air is lower than a certain value (the ozone can not cause harm to human bodies), the reminder 8 is started, the warning lamp flickers and gives out warning sound to remind workers that the deodorization operation is finished.

The outer side of the machine body 1 is also provided with a second detecting piece 9 for detecting the concentration of ozone, and the second detecting piece 9 is coupled with the generator 2 and the blowing piece 31. When the second detecting part 9 detects that the concentration of ozone in the surrounding air is higher than a certain value (ozone can play a role in eliminating, killing and deodorizing the whole space and can completely eliminate, kill and deodorize), the generator 2 and the blowing part 31 stop working, and the ozone to be diffused to the outside reacts with the air.

The machine body 1 is also provided with a power connector 15 which is convenient for connecting a power supply and a power switch 16 for controlling the circuit to be communicated, and the two sides of the machine body 1 are both provided with handles 17 which are convenient for carrying the indoor sterilizing and deodorizing device to move.

The implementation principle of an indoor disinfection and deodorization device of the embodiment of the application is as follows:

after the machine body 1 is electrified through the power connector 15, the power switch 16 is turned on, the generator 2 and the blowing piece 31 start to work, the generator 2 generates ozone, the blowing piece 31 blows the ozone away to the outside for diffusion, meanwhile, the blowing piece 31 drives the diffusion cover body 32 to rotate, and the ozone is diffused towards the periphery along the upward inclined direction under the guidance of the rotating diffusion cover body 32;

when the second detecting part 9 detects that the concentration of the ozone rises to a certain value, the generator 2 and the blowing part 31 stop working, and the ozone diffusion is finished; when first detecting element 7 detects that ozone concentration descends to certain numerical value, reminiscences 8 starts to remind the staff, and ozone disinfection deodorization finishes.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: equivalent changes in structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. An indoor sterilizing and deodorizing device, characterized by comprising a machine body (1), a generator (2) for generating ozone, and a diffusion component (3) for diffusing ozone, the generator (2) is arranged in the machine body (1), the diffusion component (3) comprises a blowing piece (31) and a diffusion cover body (32), the blowing piece (31) is positioned inside the machine body (1), the diffusion cover body (32) is positioned above the machine body (1), the machine body (1) is provided with a diffusion opening (12) for ozone to diffuse outwards, the air blowing piece (31) is positioned on one side of the generator (2) far away from the diffusion opening (12), and the blowing direction of the blowing piece (31) faces the diffusion opening (12), the interior of the diffusion cover body (32) is provided with a cavity (321), the cavity (321) is communicated with the diffusion opening (12), a plurality of diffusion channels (323) are arranged in the diffusion cover body (32), the plurality of diffusion channels (323) are distributed in a circumferential array along the vertical central line of the diffusion cover body (32), one end of the diffusion passage (323) is communicated with the cavity (321), the other end of the diffusion channel (323) is communicated with the outside, the diffusion channel (323) is obliquely arranged, one end of the diffusion channel (323) close to the cavity (321) is a lower inclined end.

2. An indoor disinfection and deodorisation device as claimed in claim 1, wherein said diffusing cover (32) is rotatably connected to the housing (1), the axis of rotation of said diffusing cover (32) coinciding with its own vertical centre line, said diffusing member (3) further comprising a driving member (33) for driving the diffusing cover (32) in rotation.

3. An indoor disinfection and deodorisation device as claimed in claim 2, wherein said driving member (33) is located in said cavity (321), said driving member (33) comprising a driving impeller (331) and a connecting member (332), one end of said connecting member (332) being fixedly connected to said diffusing cover (32), the other end of said connecting member (332) being fixedly connected to said driving impeller (331), said driving impeller (331) being located above said diffusing opening (12).

4. An indoor disinfection and deodorisation means according to claim 1, characterised in that the bottom of the machine body (1) is provided with support members (4) for raising the machine body (1).

5. An indoor disinfection and deodorization apparatus as claimed in claim 4, wherein said supporting member (4) comprises two supporting members (41), said supporting members (41) are rotatably connected to the machine body (1), and a recess (14) for the supporting members (41) to rotate and retract is opened at the bottom of the machine body (1).

6. An indoor disinfection and deodorisation device as claimed in claim 5, wherein said body (1) is provided with a first magnet (5) in the abdicating slot (14), said support (41) is provided with a second magnet (6), said first magnet (5) and said second magnet (6) attract each other when said support (41) is retracted in the abdicating slot (14).

7. An indoor disinfection and deodorisation device as claimed in claim 5, characterised in that said support (41) has a telescopic structure.

8. An indoor disinfection and deodorization apparatus as claimed in claim 5, wherein a reminder (8) is further arranged inside the machine body (1), a first detection member (7) for detecting ozone concentration is arranged at one end of the support member (41) far away from the rotation connection position, and the first detection member (7) controls the reminder (8) to be opened or closed.

9. An indoor disinfection and deodorization device as claimed in claim 1, wherein said body (1) is further provided with a second detection member (9) for detecting ozone concentration, said second detection member (9) controlling the opening and closing of said generator (2) and said blowing member (31).

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