CN218853345U - Wearable air purification device with high-voltage electric field sterilization module - Google Patents

Abstract

The application provides a wearable air purification device with high-voltage electric field sterilization module, include: main part, lid, airtight cover and high-voltage electric field sterilization module. The main body is provided with a main body mounting surface and an inner surface, and the main body mounting surface is provided with a first positioning part; the cover body is covered corresponding to the main body and forms an airflow channel together with the main body, the cover body is provided with a cover body mounting surface, and the cover body mounting surface is provided with a second positioning part; the airtight cover is arranged on the inner surface and communicated with the airflow channel; the high-voltage electric field sterilization module comprises a first electrode plate and a second electrode plate which are respectively arranged on the first positioning part and the second positioning part, the first electrode plate and the second electrode plate are mutually spaced to form a spacing space between the first electrode plate and the second electrode plate, and a part of the airflow channel passes through the spacing space. Therefore, the first electrode plate and the second electrode plate can be opposite to each other at intervals and form a required interval space only by covering the cover body corresponding to the body.

Description

Wearable air purification device with high-voltage electric field sterilization module

Technical Field

The application relates to a wearable air purification device, in particular to a wearable air purification device with a high-voltage electric field sterilization module.

Background

In the related art, a high voltage (voltage) sterilization unit capable of removing germs in the air has been known, and a high voltage is applied to a plurality of electrode sheets of the high voltage sterilization unit to remove germs in the air passing between the plurality of electrode sheets. Therefore, the wearable air purification device has a function of eliminating germs in the air.

However, the following drawbacks of the conventional wearable air purifying device are still to be solved:

because a preset distance must be kept between two adjacent electrode plates, germs in air passing through the distance must be eliminated, an autoclave assembly which fixes the electrode plates at the preset distance must be additionally manufactured in the conventional wearable air purification device, and the autoclave assembly must be plugged into the wearable air purification device during assembly, so that the assembly trouble is caused, and the cost of additionally manufacturing the autoclave assembly is increased.

Therefore, how to improve the above-mentioned deficiencies in the prior art is a major issue to be solved by the applicant.

SUMMERY OF THE UTILITY MODEL

An object of this application is to provide a wearing formula air purification device with high-voltage electric field sterilization module.

In order to achieve the above object, the present application provides a wearable air purification device having a high voltage electric field sterilization module, comprising: the positioning device comprises a main body, a positioning piece and a positioning piece, wherein the main body is provided with a main body mounting surface and an inner surface which are opposite to each other; the cover body is covered corresponding to the main body, an airflow channel is formed between the cover body and the main body together, the cover body is provided with a cover body mounting surface corresponding to the main body mounting surface, and the cover body mounting surface is provided with at least one second positioning part; the airtight cover is arranged on the inner surface and communicated with the airflow channel; and the high-voltage electric field sterilization module comprises a first electrode plate and a second electrode plate, the first electrode plate is arranged at the first positioning part, the second electrode plate is arranged at the second positioning part, the first electrode plate and the second electrode plate are mutually spaced to form a spacing space between the first electrode plate and the second electrode plate, and a part of the air flow channel passes through the spacing space.

In one embodiment, the first positioning portion has a plurality of positioning members, the first electrode sheet has a plurality of corresponding positioning members corresponding to the positioning members, and the first electrode sheet is correspondingly inserted into the corresponding positioning members through the positioning members to be positioned in the first positioning portion.

In one embodiment, the second positioning portion has a plurality of positioning members, the second electrode sheet has a plurality of corresponding positioning members corresponding to the positioning members, and the second electrode sheet is correspondingly inserted into the corresponding positioning members through the positioning members to be positioned at the second positioning portion.

In one embodiment, the positioning member is a column and the corresponding positioning member is a hole.

In one embodiment, the wearable air purification device with the high-voltage electric field sterilization module further comprises a fan, and the fan is arranged on the main body and communicated with the airflow channel.

In one embodiment, the number of the first positioning portions, the number of the second positioning portions and the number of the high-voltage electric field sterilization modules are two, the first positioning portions are provided with first electrode plates, the second positioning portions are provided with second electrode plates, and the two high-voltage electric field sterilization modules are located on two sides of the fan respectively.

In one embodiment, the main body is provided with two air inlet hole groups and an output port which are communicated with the airflow channel, the main body is divided into a middle part and two side parts which are positioned at two sides of the middle part, the fan is correspondingly positioned at the middle part, and the two air inlet hole groups are respectively arranged at the two side parts corresponding to the two high-voltage electric field sterilization modules.

In one embodiment, the outlet port is correspondingly located in the intermediate portion.

In one embodiment, the body defines an output port and at least one inlet set, the airflow path extending between the inlet set and the output port communicating with the hermetic cover.

In one embodiment, the wearable air purification device with the high-voltage electric field sterilization module further comprises a fan, the fan is arranged on the main body, and the output port is communicated with the airflow channel through the fan.

Compared with the prior art, the application has the following effects: as long as correspond the body lid with the lid and close, just can let first electrode piece and second electrode piece relative and the interval of interval space that needs each other at intervals, in other words, this application has the simple and easy effect of equipment.

Drawings

Fig. 1 is a perspective exploded view of a main body and a first electrode sheet in the present application.

Fig. 2 is a schematic perspective exploded view of the cover and the second electrode sheet in the present application.

Fig. 3 is a perspective assembly view according to fig. 2 of the present application.

Fig. 4 is a perspective exploded view of the wearable air purification device of the present application.

Fig. 5 is a perspective view of the main body in the present application from another perspective.

Fig. 6 is a three-dimensional assembly view of the wearable air purification device of the present application at a viewing angle.

Fig. 7 is a perspective assembly view of the wearable air purification device at another viewing angle.

Fig. 8 is a schematic cross-sectional view of the wearable air purification device of the present application.

Fig. 9 is a schematic view of a use state of the wearable air purification device of the present application.

Description of reference numerals:

1: a main body;

1a: an intermediate portion;

1b: a side portion;

11: a main body mounting surface;

111: a first positioning portion;

12: an inner face;

13: a group of intake ports;

14: an output port;

15: a group of exhaust holes;

16: an air inlet filter element;

2: a cover body;

21: a cover body mounting surface;

211: a second positioning portion;

3: a high-voltage electric field sterilization module;

31: a first electrode sheet;

32: a second electrode sheet;

4: a fan;

41: an air inlet side;

42: an air outlet side;

5: an airtight cover;

c: an air flow channel;

g: a notch;

h: a corresponding positioning piece;

r: a positioning member;

s: and (4) separating the spaces.

Detailed Description

The following detailed description and technical contents of the present application are described with reference to the accompanying drawings, which, however, are provided for reference and illustration purposes only and are not intended to limit the present application.

As shown in fig. 1 to 8, the present application provides a wearable air purification device with a high-voltage electric field sterilization module (hereinafter, referred to as a wearable air purification device), including: the main body 1, the cover 2, at least one high voltage electric field sterilization module 3, and the airtight cover 5, in one embodiment, further include a fan 4.

The main body 1 is used for providing structures such as a high-voltage electric field sterilization module 3, a fan 4 and an airtight cover 5, and has a main body installation surface 11 and an inner surface 12 which are opposite to each other, and the main body installation surface 11 is provided with at least one first positioning portion 111. The number of the first positioning portions 111 is not limited in the present application, and may be one, or two or more, and in the present embodiment, two first positioning portions 111 are provided as an example for description. In addition, the main body 1 may be a single-piece structure (not shown) or a two-piece structure, for example, a frame and a back cover are combined together as shown, the main body mounting surface 11 is located at the front side of the frame, and the inner surface 12 is located at the back cover, which is not limited in this application.

The cover 2 covers the main body 1, and as shown in fig. 8, an airflow channel C is formed between the cover 2 and the main body 1. The cover 2 has a cover attachment surface 21, and when the cover 2 and the body 1 are closed to each other, the cover attachment surface 21 and the body attachment surface 11 face each other. The cover attachment surface 21 is provided with at least one second positioning portion 211. The number of the second positioning portions 211 is not limited in the present application, and may be one, or two or more, and in the present embodiment, two second positioning portions 211 are provided as an example for description.

It should be noted that, since the first positioning portion 111 and the second positioning portion 211 are respectively provided on the main body mounting surface 11 and the cover mounting surface 21 which are opposite to each other, each first positioning portion 111 and each second positioning portion 211 are also opposite to each other, and each first positioning portion 111 and each second positioning portion 211 in this embodiment are arranged facing each other.

The airtight cover 5 is a soft cover body, and therefore can be used to directly cover the nose and mouth of the user and produce an airtight effect. The airtight cover 5 is provided on the inner surface 12 of the main body 1, and the airtight cover 5 communicates with the airflow passage C.

The high-voltage electric field sterilization module 3 is used for electrifying the electrode plates by high voltage, so that germs in the air can be eliminated when the air passes through the electrode plates, and the purpose of high-voltage sterilization is achieved. The number of the high voltage electric field sterilization modules 3 may correspond to the number of the first positioning portions 111, for example, so that the number of the high voltage electric field sterilization modules 3 in the embodiment is also two.

Each high-voltage electric field sterilization module 3 includes a first electrode sheet 31 and a second electrode sheet 32, each first electrode sheet 31 is disposed at each first positioning portion 111, and each second electrode sheet 32 is disposed at each second positioning portion 211. Since each first positioning portion 111 and each second positioning portion 211 are opposite to each other, the first electrode sheet 31 and the second electrode sheet 32 of each high voltage electric field sterilization module 3 are also opposite to each other; since the first positioning portions 111 and the second positioning portions 211 are originally designed to be spaced apart from each other by a predetermined distance, a space S can be formed between the first electrode sheets 31 and the second electrode sheets 32 as shown in fig. 8. As shown in fig. 8, a part of the airflow path C passes through the space S.

As shown in fig. 6 and 8, the main body 1 further defines two inlet hole sets 13 and two outlet holes 14, each of the inlet hole sets 13 and the outlet holes 14 is communicated with the airflow channel C, and the outlet holes 14 are further communicated with the airtight cover 5. The air flow passage C extends between the inlet port group 13 and the outlet port 14.

Thus, as shown in fig. 9, the user wears the wearable air purification device of the present application on the nose and mouth of the human face, and the airtight cover 5 covers the nose and mouth to generate airtightness. At this time, as shown in fig. 8 in combination with fig. 6, when the external air enters the wearable air purification device of the present application from the air inlet hole group 13 and circulates in the air flow channel C, the air circulating in the air flow channel C will pass through each of the spaces S, and then the first electrode sheet 31 and the second electrode sheet 32 are electrified in each of the spaces S to eliminate germs in the air, thereby achieving the high-pressure sterilization effect. Then, the sterilized air after being autoclaved is filtered by an air inlet filter 16 (see fig. 8) described later, and then is inhaled into the human body through the nose via the output port 14, so that the sterilized air after being autoclaved is all breathed by the user using the wearable air purification device of the present application.

It should be noted that, since each of the first positioning portions 111 and each of the second positioning portions 211 are originally designed to be spaced from each other by a predetermined distance, when the first electrode sheet 31 and the second electrode sheet 32 are respectively disposed on the first positioning portion 111 and the second positioning portion 211, the first electrode sheet 31 and the second electrode sheet 32 can be spaced from each other by a required spacing space S only by covering the cover body 2 corresponding to the main body 1, and there is no need to additionally manufacture the existing autoclave assembly, and there is no need to plug the existing autoclave assembly into the wearable air purification apparatus.

In addition, because each high-voltage electric field sterilization module 3 only configures two electrode slices (31, 32), the flow resistance when the air passes through the high-voltage electric field sterilization module 3 is extremely small, and even if a user wears the wearable air purification device, the user can also ensure smooth breathing.

Still as shown in fig. 1 to 8, the wearable air purification device of the present application may further include a fan 4 in an embodiment, the fan 4 is disposed on the main body 1 and has an air inlet side 41 and an air outlet side 42, the air inlet side 41 is connected to the air flow channel C, and as shown in fig. 4 and 8, the air inlet filter core 16 is covered on the position corresponding to the air inlet side 41, the air outlet side 42 is connected to the output port 14, and the output port 14 is connected to the air flow channel C via the fan 4. The aforementioned body 1 is further divided, as shown in fig. 1, into a middle portion 1a and two side portions 1b, the two side portions 1b being located on both sides of the middle portion 1 a. Wherein, the middle part 1a is opened with the output port 14 and the exhaust hole group 15 as shown in fig. 6, and the fan 4 is correspondingly positioned at the middle part 1a; the two side portions 1b are respectively provided with the two air inlet hole sets 13 (each air inlet hole set 13 is respectively provided corresponding to each high voltage electric field sterilization module 3), and the two first positioning portions 111 are respectively located at the two side portions 1b, so that the two high voltage electric field sterilization modules 3 are respectively located at two sides of the fan 4. As shown in fig. 7, a gap G is formed between the bottom side of the main body 1 and the bottom side of the cover 2, and the gap G communicates with the exhaust hole group 15.

Thus, as shown in fig. 6 and 8, when the fan 4 is started to operate, the air inlet side 41 starts to draw air through the air flow channel C, so that the outside air is sucked into the air flow channel C through the two air inlet hole sets 13, and after being autoclaved, the sterilized air is blown toward the output port 14 through the air outlet side 42 and is sucked into the body by the nose of the user. As shown in fig. 6 and 7, the air discharged by the user is discharged to the notch G through the exhaust hole group 15.

In addition, in order to easily set the electrode sheet in the positioning portion, as shown in fig. 1 to 4 and 8, the first positioning portion 111 has a plurality of positioning members R, the first electrode sheet 31 has a plurality of corresponding positioning members H corresponding to the positioning members R, and the first electrode sheet 31 is detachably positioned in the first positioning portion 111 by inserting the positioning members R into the corresponding positioning members H. The second positioning portion 211 also has a plurality of positioning members R, the second electrode sheet 32 also has a plurality of corresponding positioning members H corresponding to the positioning members R, and the second electrode sheet 32 is also detachably positioned in the second positioning portion 211 by inserting the positioning members R into the corresponding positioning members H. Therefore, the first and second electrode sheets 31 and 32 are easily installed in the first and second positioning portions 111 and 211. Specifically, the positioning element R and the corresponding positioning element H are a column and a hole, respectively, but not limited thereto.

In summary, the wearable air purification device with the high voltage electric field sterilization module of the present application can achieve the intended purpose of use, and solve the conventional disadvantages, and completely meet the requirements of the new patent application.

The above description is only a preferred embodiment of the present application, and not intended to limit the scope of the present application, and all equivalent structural changes made by using the contents of the specification and drawings are included in the scope of the present application, and are fully apparent.

Claims (10)

1. A wearable air purification device with high-voltage electric field sterilization module, characterized by comprising:

the positioning device comprises a main body, a positioning piece and a positioning piece, wherein the main body is provided with a main body mounting surface and an inner surface which are opposite to each other;

the cover body is covered corresponding to the main body, an airflow channel is formed between the cover body and the main body together, the cover body is provided with a cover body mounting surface corresponding to the main body mounting surface, and the cover body mounting surface is provided with at least one second positioning part;

the airtight cover is arranged on the inner surface and communicated with the airflow channel; and

at least one high-voltage electric field sterilization module, the high-voltage electric field sterilization module contains first electrode slice and second electrode slice, first electrode slice set up in first location portion, the second electrode slice set up in second location portion, first electrode slice with the second electrode slice is spaced each other and is in first electrode slice with form the interval space between the second electrode slice, a part of air current passageway passes through the interval space.

2. The wearable air purification device with the high-voltage electric field sterilization module as claimed in claim 1, wherein the first positioning portion has a plurality of positioning members, the first electrode sheet has a plurality of corresponding positioning members corresponding to the respective positioning members, and the first electrode sheet is positioned at the first positioning portion by inserting the respective positioning members into the respective corresponding positioning members.

3. The wearable air purification device with the high-voltage electric field sterilization module as claimed in claim 1, wherein the second positioning portion has a plurality of positioning members, the second electrode sheet has a plurality of corresponding positioning members corresponding to the positioning members, and the second electrode sheet is positioned at the second positioning portion by inserting the positioning members into the corresponding positioning members.

4. A wearable air purification apparatus with high voltage electric field sterilization module as claimed in claim 2 or 3, wherein the positioning member is a column and the corresponding positioning member is a hole.

5. The wearable air purification apparatus with a high voltage electric field sterilization module as claimed in claim 1, further comprising a fan disposed on the main body and communicating with the airflow channel.

6. The wearable air purification device with the high-voltage electric field sterilization module as claimed in claim 5, wherein the number of the first positioning portions, the second positioning portions and the high-voltage electric field sterilization module is two, the first electrode pieces are disposed on both of the first positioning portions, the second electrode pieces are disposed on both of the second positioning portions, and the two high-voltage electric field sterilization modules are respectively disposed on two sides of the fan.

7. The air purification apparatus of claim 6, wherein the main body defines two air inlet hole sets and two output ports in communication with the air flow channel, the main body is divided into a middle portion and two side portions located at two sides of the middle portion, the fan is correspondingly located at the middle portion, and the two air inlet hole sets are respectively disposed at the two side portions corresponding to the two high-voltage electric field sterilization modules.

8. The wearable air purification apparatus with a high voltage electric field sterilization module as claimed in claim 7, wherein the output port is located corresponding to the middle portion.

9. The wearable air purification device with the high-voltage electric field sterilization module as recited in claim 1, wherein the main body defines an output port and at least one inlet hole set, the airflow channel extends between the inlet hole set and the output port, and the output port communicates with the airtight cover.

10. The wearable air purification device with the hv electric field sterilization module as claimed in claim 9, further comprising a fan disposed on the main body, wherein the output port is communicated with the airflow channel via the fan.

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