CN212908274U - Miniature multifunctional sterilizing device - Google Patents

Abstract

The application provides there is a miniature multi-functional sterilization degassing unit, includes: a device body; the device body includes: the device comprises a bottom groove plate and a top groove plate matched and connected with the bottom groove plate, wherein a space between the bottom groove plate and the top groove plate forms an inner cavity of the device; a micro ozone device and a power supply module for providing power supply for the micro ozone device are arranged in the inner cavity of the device; the top groove plate is provided with a plurality of ventilation through holes. When the power module supplies power to the miniature ozone device, the miniature ozone device is started to continuously produce ozone and the ozone is diffused to the outside of the device body through the ventilation through hole. Ozone, which is a world-recognized broad-spectrum and high-efficiency bactericide, can effectively sterilize and disinfect the use environment of the device body after being continuously diffused to the outside of the device body.

Description

Miniature multifunctional sterilizing device

Technical Field

The present disclosure specifically discloses a miniature multi-functional sterilization and disinfection device.

Background

Along with the continuous improvement of the living standard of modern society, higher requirements are put forward on the sanitary standards of living goods and living environment, and in addition, the explosion of new crown epidemic situation in this year, the safety and health consciousness of people are strengthened, but high-temperature sterilization, sterilization liquid and ultraviolet sterilization are generally adopted in the sterilization and disinfection of the sanitary of living goods for a long time. Such a disinfection method cannot be conveniently applied in practice, such as: high-temperature sterilization, which needs to additionally provide a high-temperature environment; the sterilization liquid needs to be smeared or sprayed in the environment to be sterilized; ultraviolet sterilization, which requires a unique ultraviolet device and has many limitations in application, needs to be improved.

Disclosure of Invention

In view of the above-mentioned defect or not enough among the prior art, this application aims at providing one kind and compares in prior art, can realize convenient elimination peculiar smell, eliminate the germ and promote whole ambient air quality's miniature multi-functional sterilization degassing unit.

A miniature multifunctional sterilization and disinfection device comprises: a device body; the device body includes: the device comprises a bottom groove plate and a top groove plate matched and connected with the bottom groove plate, wherein a space between the bottom groove plate and the top groove plate forms an inner cavity of the device; a micro ozone device and a power supply module for providing power supply for the micro ozone device are arranged in the inner cavity of the device; the top groove plate is provided with a plurality of ventilation through holes.

According to the technical scheme provided by the embodiment of the application, the adapter plug electrically connected with the power module is arranged on one side, relatively far away from the top groove plate, of the bottom groove plate.

According to the technical scheme provided by the embodiment of the application, the top groove plate is provided with an external socket which is electrically connected with the power module.

According to the technical scheme provided by the embodiment of the application, a power supply conversion module electrically connected with a power supply module is further arranged in the device inner cavity, and a plurality of USB charging interfaces are arranged on the power supply conversion module; the USB charging interface is embedded on the side wall of the bottom groove plate and/or the side wall of the top groove plate.

According to the technical scheme provided by the embodiment of the application, one ends, relatively far away from the adapter plug, of the bottom groove plate and the top groove plate are of curved structures.

According to the technical scheme provided by the embodiment of the application, one end of the top groove plate, which is relatively far away from the external socket, is provided with a bulge part which is convex towards one side far away from the bottom groove plate, and the bulge part is arranged on the side wall of the top groove plate, which is relatively far away from the bottom groove plate, and is provided with the ventilation through hole.

According to the technical scheme provided by the embodiment of the application, an embedded through groove is formed in the side wall, close to the external socket relatively, of the bulge part, and a dust isolating assembly is embedded in the embedded through groove; the dust-proof assembly comprises: the dust-proof screen comprises a T-shaped dust-proof frame which can be clamped with the embedded through groove and a dust-proof screen which is fixedly connected with the dust-proof frame and can enter the embedded through groove.

According to the technical scheme that this application embodiment provided, separate the relative keeping away from of dirt gauze the border that separates the dirt frame is bent type structure and cladding and has the layer of borduring.

According to the technical scheme provided by the embodiment of the application, the inner wall of the bulge part in the inner cavity of the device is provided with a limiting plate for limiting the position of the dust-proof gauze.

The technical proposal discloses a specific structure of a miniature multifunctional sterilization and disinfection device. In this technical scheme's project organization, the device body comprises bottom slot board and top slot board and constitutes between the two that mutually support and can hold miniature ozone device and for the power module of miniature ozone device power supply, and when power module was the power supply of miniature ozone device, miniature ozone device started and can make ozone constantly to spill to the device body outside through ventilative through-hole. Ozone, which is a world-recognized broad-spectrum and high-efficiency bactericide, can effectively sterilize and disinfect the use environment of the device body after being continuously diffused to the outside of the device body.

This technical scheme further improves bottom slot board and top slot board, promptly: the adapter plug electrically connected with the power module is arranged on one side, relatively far away from the top groove plate, of the bottom groove plate, so that the use of the device body is simpler and more convenient, and the device body can be effectively powered by the socket; the external socket electrically connected with the power module is arranged on the top groove plate, the design enables the functions of the device body to be combined, and the external socket can be provided for other devices even in the use process.

The technical scheme further performs composite design on the functions of the device, namely: a power supply conversion module electrically connected with the power supply module is also arranged in the device inner cavity, and a plurality of USB charging interfaces are arranged on the power supply conversion module; the USB charging interface is embedded on the side wall of the bottom groove plate and/or the side wall of the top groove plate. Based on the design, the device which uses the USB charging interface to charge can be charged by the USB charging interface, such as: electronic products such as mobile phones and charger.

The technical scheme further optimizes the structure of the device, such as: one end of the top groove plate, which is relatively far away from the external socket, is provided with a bulge part which is convex towards one side far away from the bottom groove plate, and the bulge part is arranged on the side wall of the top groove plate, which is relatively far away from the bottom groove plate, and is provided with a ventilation through hole. Based on the design, the structure of the bulge part can enlarge the space inside the device body, so that the heat dissipation effect of various structures in the inner cavity of the device is improved; on the other hand, it can also facilitate the installation of other components, such as: the dust separation assembly is embedded in the embedding through groove, and the design of the dust separation assembly can effectively prevent dust from entering the inner cavity of the device, so that the electronic assembly in the inner cavity of the device is subjected to electrostatic fault.

Drawings

Other features, objects and advantages of the present application will become more apparent upon reading of the following detailed description of non-limiting embodiments thereof, made with reference to the accompanying drawings in which:

FIG. 1a shows an embodiment of a micro multi-functional sterilization and disinfection device;

FIG. 1b shows an embodiment of a micro multi-functional sterilization and disinfection device;

FIG. 2 shows an embodiment of a micro multi-functional sterilization and disinfection device;

FIG. 3 shows an embodiment of a micro multi-functional sterilization and disinfection device;

FIG. 4 shows an embodiment of a micro multi-functional sterilization and disinfection device;

FIG. 5 shows an embodiment of a micro multi-functional sterilization and disinfection device;

FIG. 6a shows an embodiment of a top view (partially in section) of a top channel plate;

FIG. 6b shows an embodiment of a top view of the top deck (partially in section);

FIG. 6c shows a particular embodiment of the barrier assembly of FIG. 6 b;

fig. 7 shows an embodiment of a top view of the top channel plate (partly in section).

Detailed Description

The present application will be described in further detail with reference to the following drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the relevant invention and not restrictive of the invention. It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present application will be described in detail below with reference to the embodiments with reference to the attached drawings.

Please refer to fig. 1a and fig. 1b for a micro multi-functional sterilization device.

The micro multifunctional sterilization and disinfection apparatus shown in fig. 1a and 1b comprises: a device body 10; the device body 10 includes: the device comprises a bottom groove plate 11 and a top groove plate 12 matched and connected with the bottom groove plate 11, wherein a space between the bottom groove plate 11 and the top groove plate 12 forms a device inner cavity 13; a micro ozone device 131 and a power module 132 for providing power for the micro ozone device 131 are arranged in the device inner cavity 13; the top groove plate 12 is provided with a plurality of ventilation through holes 121.

Wherein:

the bottom groove plate is of a groove-shaped structure; the top groove plate is of a groove-shaped structure.

The top slot plate can be buckled and fixedly connected with the bottom slot plate to form a device inner cavity, so that the micro ozone device and a power supply module for providing power for the micro ozone device can be accommodated.

Alternatively, the micro ozone device may be constructed as known in the art, and will not be described herein. Preferably, the micro ozone device is fixedly connected to the bottom groove plate.

Optionally, the power module is a common existing circuit structure, and the output voltage model of the power module is matched with the rated voltage of the miniature ozone device. Such as: the existing modular power supply architecture. Preferably, the power module is fixedly connected to the bottom groove plate.

Furthermore, the power module is provided with a timing circuit module for performing timing control on the micro ozone device so as to control the service time of the micro ozone device, namely the use amount of the micro ozone device.

In order to facilitate the ozone to be diffused to the outside of the device body, the top trough plate is provided with a ventilation through hole, and optionally, the ventilation through hole is of a circular structure, a strip-shaped structure, a diamond structure or an oval structure.

When the power module supplies power to the miniature ozone device, the miniature ozone device is started to continuously produce ozone and the ozone is diffused to the outside of the device body through the ventilation through hole. Ozone, which is a world-recognized broad-spectrum and high-efficiency bactericide, can effectively sterilize and disinfect the use environment of the device body after being continuously diffused to the outside of the device body.

Please refer to fig. 2 showing an embodiment of the micro multifunctional sterilization device.

In fig. 2, a patch plug 111 electrically connected to the power module 132 is provided on the side of the bottom channel plate 11 facing away from the top channel plate 12.

The design of the transfer plug in the embodiment enables the use of the device body to be more convenient, and the position with the socket can effectively supply power to the device body.

Optionally, the patch plug is a three-plug configuration.

Please refer to fig. 3 for an embodiment of the micro multifunctional sterilization device.

In fig. 3, an external socket 122 electrically connected to the power module 132 is disposed on the top slot plate 12.

The design of the external socket 122 in this embodiment allows the functionality of the device body to be compounded, providing an external socket for the remaining devices even during use.

Optionally, the external socket is a three-jack socket, or a two-jack socket, or a three-jack socket and a two-jack socket are collectively provided.

Please refer to fig. 4 for an embodiment of the micro multifunctional sterilization device.

In fig. 4, a power conversion module 133 electrically connected to the power module 132 is further disposed in the device inner cavity 13, and a plurality of USB charging interfaces 134 are disposed on the power conversion module 133; the USB charging interface 134 is embedded on the side wall of the bottom slot plate 11 and/or the side wall of the top slot plate 12.

Based on the above design, the device that uses this type of socket to charge can be carried out to the USB interface that charges, like: electronic products such as mobile phones and charger.

Optionally, the power conversion module may adopt an existing power conversion module structure.

Specifically, the power conversion module may be designed with a plurality of USB charging interfaces.

Optionally, the ends of the bottom channel plate 11 and the top channel plate 12 opposite to the patch plug 111 are curved.

Under the design of the bottom groove plate with the curved structure, the USB charging interfaces are distributed in a curved array at one end of the bottom groove plate 11 relatively far away from the adaptor plug 111.

And/or the presence of a gas in the gas,

under the design of the top slot plate with the curved structure, the USB charging interfaces are distributed in a curved array at one end of the top slot plate relatively far away from the adaptor plug 111.

Please refer to fig. 5 for an embodiment of the micro multifunctional sterilization device.

In fig. 5, a protrusion 123 protruding toward a side away from the bottom groove plate 11 is provided on one end of the top groove plate 12 relatively away from the external plug 122, and a ventilation through hole 121 is provided on a side wall of the protrusion 123 relatively away from the bottom groove plate 11.

Based on the design, the structure of the bulge part can enlarge the space inside the device body, so that the heat dissipation effect of various structures in the inner cavity of the device is improved.

Furthermore, the design of the protuberances can also facilitate the installation of other components, such as: the dust separation assembly is embedded in the embedding through groove, and the design of the dust separation assembly can effectively prevent dust from entering the inner cavity of the device, so that the electronic assembly in the inner cavity of the device is subjected to electrostatic fault.

Specifically, referring to fig. 6a and 6b, an inner insertion through slot 124 is formed on a sidewall of the protruding portion 123 relatively close to the external socket 122, and the dust-proof assembly 14 is embedded in the insertion through slot 124; the dust barrier assembly 14 includes: the dust-proof device comprises a T-shaped dust-proof frame 141 which can be clamped with the embedding through groove 124 and a dust-proof gauze 142 which is fixedly connected with the dust-proof frame 141 and can enter the embedding through groove 124.

Optionally, referring to fig. 6c, the dust-proof frame is a T-shaped structure, including: an outer snap gauge 1411 and a support plate 1412 perpendicularly connected to the middle of the outer snap gauge 1411.

Specifically, one end edge of the dust-proof gauze is clamped with the outer clamping plate 1411, and the side wall of the dust-proof gauze is clamped with the supporting plate so as to fixedly connect the dust-proof gauze with the dust-proof frame. Based on this design, the dust-proof gauze can be dismantled with the dust-proof frame to in time wash.

Optionally, the edge of the dust-proof gauze 142 relatively far from the dust-proof frame 141 is of a curved structure and is covered with a covering layer.

Based on the design, the design of the edge covering layer can effectively protect the edge of the dust-proof gauze.

Furthermore, the edges of the dust separation frame are of a curved structure so as to adapt to the top groove plate and the bottom groove plate of the curved structure.

Optionally, referring to fig. 7, the inner wall of the bulge 123 in the inner cavity 13 of the device is provided with a limiting plate 135 for limiting the position of the dust-proof gauze 142.

Based on the design, the design of the limiting plate can restrain the path of the dust-proof gauze in the process that the dust-proof gauze is driven by the dust-proof frame to enter the inner cavity of the device, and the dust-proof gauze is prevented from interfering other components in the inner cavity of the device.

The above description is only a preferred embodiment of the application and is illustrative of the principles of the technology employed. It will be appreciated by a person skilled in the art that the scope of the invention as referred to in the present application is not limited to the embodiments with a specific combination of the above-mentioned features, but also covers other embodiments with any combination of the above-mentioned features or their equivalents without departing from the inventive concept. For example, the above features may be replaced with (but not limited to) features having similar functions disclosed in the present application.

Claims (9)

1. A miniature multi-functional sterilization degassing unit which characterized in that:

the method comprises the following steps: a device body (10);

the device body (10) includes: the device comprises a bottom groove plate (11) and a top groove plate (12) matched and connected with the bottom groove plate (11), wherein a space between the bottom groove plate (11) and the top groove plate (12) forms a device inner cavity (13);

a micro ozone device (131) and a power module (132) for providing power for the micro ozone device (131) are arranged in the device inner cavity (13); the top groove plate (12) is provided with a plurality of ventilation through holes (121).

2. The miniature multi-functional sterilization and disinfection device of claim 1, wherein:

and one side of the bottom groove plate (11) relatively far away from the top groove plate (12) is provided with a changeover plug (111) electrically connected with the power module (132).

3. The miniature multi-functional sterilization and disinfection device of claim 1, wherein:

and an external socket (122) electrically connected with the power module (132) is arranged on the top groove plate (12).

4. The miniature multi-functional sterilization and disinfection device of claim 1, wherein:

a power supply conversion module (133) electrically connected with the power supply module (132) is further arranged in the device inner cavity (13), and a plurality of USB charging interfaces (134) are arranged on the power supply conversion module (133); the USB charging interface (134) is embedded on the side wall of the bottom groove plate (11) and/or the side wall of the top groove plate (12).

5. A micro-scale multifunctional sterilization and disinfection apparatus according to any one of claims 1 to 4, wherein:

one ends of the bottom groove plate (11) and the top groove plate (12) which are relatively far away from the adapter plug (111) are of curved structures.

6. The miniature multi-functional sterilization and disinfection device of claim 5, wherein:

one end of the top groove plate (12) relatively far away from the external socket (122) is provided with a bulge part (123) which is bulged towards one side far away from the bottom groove plate (11), and the side wall of the bulge part (123) relatively far away from the bottom groove plate (11) is provided with a ventilation through hole (121).

7. The miniature multi-functional sterilization and disinfection device of claim 6, wherein:

an embedded through groove (124) is formed in the side wall, close to the external socket (122), of the protruding portion (123), and a dust isolating assembly (14) is embedded in the embedded through groove (124);

the dust barrier assembly (14) comprises: the dust-proof screen comprises a T-shaped dust-proof frame (141) which can be clamped with the embedding through groove (124) and a dust-proof gauze (142) which is fixedly connected with the dust-proof frame (141) and can enter the embedding through groove (124).

8. The miniature multi-functional sterilization and disinfection device of claim 7, wherein:

the edge of the dust-proof gauze (142) relatively far away from the dust-proof frame (141) is of a curved structure and is coated with a binding layer (143).

9. The miniature multi-functional sterilization and disinfection device of claim 7, wherein:

the inner wall of the bulge part (123) in the inner cavity (13) of the device is provided with a limit plate (135) for limiting the position of the dust-proof gauze (142).

Images