TWI755920B - Device for isolating and decomposing suspended particles - Google Patents

Abstract

A device for isolating and decomposing suspended particles includes a main body and an ion generating device. The main body defines an accommodating space. The ion generating device is disposed on the main body and includes an ion generating module. The ion generating module is communicated with the accommodating space. When the ion generating module is activated, the ion generating module generates positive ions or negative ions toward the accommodating space.

Description

A device for isolating and decomposing suspended particles

The present invention relates to a device for isolating and decomposing suspended particles.

Press, in modern times, whether it is a home environment or a plant factory, it will be built into an independent space using super-high-cost artificial methods, and then use air conditioning and a multi-layer filtered filtered air circulation system or add ultraviolet rays in the filter system for sterilization treatment. , to achieve the purpose of dust removal and sterilization. However, the cost of the equipment in this way is too high and the installation space must be spacious enough for ordinary people to use it. In addition, if the independent space needs to continuously circulate air circulation with the outside world, there will still be external air circulation during the process of filtering and sterilizing functions. Suspended particles or harmful substances continue to enter the independent space, which will only consume the cost of filtration consumables and sterilization functional equipment, and the air quality in the independent space cannot be effectively controlled and continuously improved, and there are shortcomings that need to be improved. .

Therefore, it is necessary to provide a novel, ultra-low cost and progressive device for isolating and decomposing suspended particles to solve the above problems.

The main purpose of the present invention is to provide a device for isolating and decomposing suspended particles, which can effectively decompose the harmful dust and germs in a accommodating space quickly and in large quantities, and isolate the harmful dust and germs from the outside, so as to rapidly improve the The air quality in the accommodating space is low and the cost is low.

In order to achieve the above object, the present invention provides a device for isolating and decomposing suspended particles, which includes a main body and an ion device. The body encloses an accommodating space. The ion device is arranged on the main body and includes an ion generation module, and the ion generation module communicates with the accommodating space. Wherein, when the ion generating module is activated, the ion generating module generates positive ions or negative ions toward the accommodating space.

1, 1A, 1B, 1C: body

11: Accommodating space

12: Drainage mechanism

13: Frame

14: Top Wall

15: Bottom wall

16: Zhou Wall

171: Frame

172: Net Screen

181: Air Positive Pressure Module

182: Convection Fan

2: Ion device

21, 21A, 21C: Ion generation module

22, 22A: Release head

23: Release components

24: Release unit

241: The first connector

242: Second connector

3: Electronic control unit

31: Air sensor

8:3C device

9: Objects

FIG. 1 is a perspective view of the first preferred embodiment of the present invention.

FIG. 2 is a schematic diagram of the first preferred embodiment of the present invention.

FIG. 3 is an exploded view of the first preferred embodiment of the present invention.

FIG. 4 is a perspective view of the second preferred embodiment of the present invention.

FIG. 5 is a perspective view of a third preferred embodiment of the present invention.

6 is a perspective view of a fourth preferred embodiment of the present invention.

7 is a perspective view of a fifth preferred embodiment of the present invention.

8 is a perspective view of a sixth preferred embodiment of the present invention.

The following examples only illustrate possible implementations of the present invention, but are not intended to limit the scope of protection of the present invention, and are described together first.

Please refer to FIGS. 1 to 3 , which show a preferred embodiment of the present invention. The device for isolating and decomposing suspended particles of the present invention includes a main body 1 and an ion device 2 .

The body 1 encloses an accommodating space 11 . In this embodiment, the main body 1 is an incubator for placing an object 9 (such as a planting device). In other embodiments, the main body 1 can also be a warehouse, a room or a house and other structures.

The ion device 2 is disposed on the main body 1 , and includes an ion generating module 21 , and the ion generating module 21 communicates with the accommodating space 11 .

Wherein, when the ion generating module 21 is activated, the ion generating module 21 generates positive ions or negative ions toward the accommodating space 11 .

In this embodiment, the ion device 2 further includes a plurality of discharge heads 22, the discharge heads 22 are connected to the ion generating module 21, each of the discharge heads 22 is a water mist spray head, the main body 1 is provided with a drainage mechanism 12, the The drainage mechanism 12 communicates with the outside world. The body 1 includes a top wall 14, a bottom wall 15 and a peripheral wall 16. The water storage tank is arranged on the top wall 14. The release heads 22 are arranged along the inner side of the peripheral wall 16. The drainage mechanism 12 is arranged on the bottom wall 15; when the releasing head 22 is a water mist nozzle, the ion generating module 21 is the top water storage tank. Therefore, when the liquid water is sprayed through each of the water mist nozzles, a high-pressure water mist is generated, and the high-pressure water mist rubs against the air to instantly generate a large number of high-concentration negative ions, and the drainage mechanism 12 can collect the liquid water located in the accommodating space 11. After collection, the water can be pumped to the top water storage tank by the pressurized pump for reuse, which can effectively save water resources.

In this embodiment, the ion generating module 21 generates negative ions. In other embodiments, positive ions can also be generated. However, it should be noted that the pipelines of the ion device 2 and the ion generating module 21 should be set up separately. After the positive ions and negative ions are generated, they will combine and cancel each other in the same space. In actual operation, when the ion generating module 21 is actuated to cause the releasing heads 22 to release a large amount of negative ions, the Quickly decompose the suspended particles (such as PM1.0, PM2.5, PM7.0, PM10, etc.), dust and germs in the accommodating space 11, and effectively decompose the accommodating space 11 from the suspended particles and germs in the outside world The isolation is performed to rapidly improve the air quality in the accommodating space 11 .

Further, the ion device 2 further includes a plurality of release components 23, each of the release components 23 is provided with a plurality of release heads 22, and each of the release heads 22 extends vertically to release negative ions in different directions. Preferably, the ion device 2 further includes at least one release unit 24, each release unit 24 is connected to the ion generating module 21 and includes a first connector 241 extending in the horizontal direction and a plurality of first connecting members 241 extending in the vertical direction. Two connecting pieces 242 , the second connecting pieces 242 are connected to the first connecting pieces 241 , each of the second connecting pieces 242 is provided with a plurality of the releasing elements 23 , so that the releasing elements 23 of each releasing unit 24 are Arranged flat to improve isolation.

In the present embodiment, the ion device 2 includes a plurality of the release units 24, and the release units 24 are connected to the main body 1 to cover the accommodating space 11, so as to completely enclose the accommodating space 11 in four directions. The space 11 can greatly improve the decomposition effect and isolation effect.

In addition, in this embodiment, an electric control unit 3 is further included, and the electric control unit 3 is connected to the ion generating module 21 in communication. The electric control unit 3 includes an air sensor 31, and the air sensor 31 is provided with In the accommodating space 11, when the air sensor 31 senses that the air quality of the accommodating space 11 (eg, the air quality index value/AQI) is higher than a first set value, the electronic control unit 3 turns on the air quality. The ion generating module 21 is activated to decompose and isolate; when the air sensor 31 senses that the air quality of the accommodating space 11 is lower than a second set value, it means that the air quality has been effectively improved, and the electronic control unit 3. Turn off the ion generating module 21 to save energy; and the air sensor 31 can also be provided with one more set outside the accommodating space 11 to sense the quality of the outside air, so as to activate the ion generating module in advance. Group action for better results. Preferably, the electronic control unit 3 communicates with a 3C device 8 (such as a mobile phone or a tablet device) through a network, so that the 3C The device 8 controls the action of the ion generating module 21, and the user can monitor the air quality in the accommodating space 11 in real time in the cloud, and use the mobile phone to check the current environment in advance, and turn on the ion generating module 21 in advance to prevent the The air quality in the storage space 11 is degraded. This kind of control can also be operated by manual switch operation. All 3C devices on the market have related free APPs that can read the relevant information of the real-time air quality after downloading. The switch can be activated, and the device can be manually turned off when the air quality is read back to good quality.

Referring to FIG. 4 , compared with the first embodiment, in the second embodiment of the present invention, the ion generating module 21A is a high-voltage ionization power supply, and each of the discharge heads 22A is a discharge needle ionization module; When the discharge head 22A is a discharge needle ionization module, the ion generating module 21A on the top is an ion generator. Similarly, this embodiment can also rapidly decompose the suspended particles, dust and germs in the accommodating space, and remove the The accommodating space is effectively isolated from the external suspended particles and germs, and the humidity in the accommodating space is less likely to be too high.

Please refer to FIG. 5 , compared with the first embodiment, in the third embodiment of the present invention, the main body 1A is further provided with a frame body 13 , and the frame body 13 communicates between the accommodating space and the outside world. The body 13 is provided with the release unit 24. In this embodiment, each of the release heads 22 is a water mist spray head. The frame body 13 is installed on the window of the body 1A that communicates with the outside world, and the liquid water collection pipeline is used for It is connected to a water collecting tank, and then the water is pumped to the top water storage tank through a pressurized pump to form a recycling, saving water and improving the air quality in the accommodation space and the effect of isolating the outside world.

Referring to FIG. 6 , compared to the third embodiment, in the fourth embodiment of the present invention, the ion generating module 21A can also be a high-voltage ionization power source, and each of the discharge heads 22A can also be a discharge needle ionization module , not limited to this.

Referring to FIG. 7 , in the fifth embodiment of the present invention, the main body 1B includes a frame body 171 and a mesh screen 172 , the frame body 171 is in a hollow state, the mesh screen 172 covers the frame body 171 , and the release The head 22 is arranged on the top of the frame body 171, and the frame body 171 can support the mesh screen 172 to prevent the mesh screen 172 from contacting and pressing the objects inside, and because the frame body 171 is an ultra-fine small hole The hollowed-out state of the openings and slits enables the outside air to be effectively exchanged with the air in the frame body 171 through the frame body 171 and the mesh screen 172. When the release heads 22 release negative ions into the body 1B Similarly, the suspended particles, dust and germs in the frame body 171 can be quickly decomposed, and the suspended particles and germs in the outside world can be effectively isolated.

Referring to FIG. 8 , in the sixth embodiment of the present invention, the main body 1C closes the accommodating space from the outside, and the main body 1C is further provided with an air positive pressure module 181 and a convection fan 182 connected to the outside. The positive air pressure module 181 is actuated so that the air pressure inside the body 1C is greater than the air pressure outside, so that the outside air is in a negative pressure state relative to the inside of the body 1C, so the outside air is less likely to flow into the body 1C to achieve In addition, the ion generating module 21C is connected to the main body 1C, so the ion generating module 21C is installed as shown in Fig. 8 to release negative ions into the main body 1C, so that the suspended particles, dust and other particles in the main body 1C can be released. The germs are decomposed and effectively isolated from the suspended particles and germs in the outside world, and the convection fan 182 can discharge the air in the main body 1C to the outside to prevent the air pressure in the main body from being too high.

It should be noted that the above-mentioned embodiments are all descriptions of a single module. In other embodiments, multiple sets of combinations and combinations like building blocks can be planned according to space requirements, so as to achieve a design mode that is simple and convenient for expansion. The ion generators are superimposed and combined together to form a double or multiple combination to increase the decomposition and isolation ability. It is not limited to this. Any related application extension design can be improved and re-evolved by using this invention principle.

To sum up, the device for isolating and decomposing suspended particles of the present invention can quickly enter the accommodating space when the ion generating module is actuated and the releasing heads release a large amount of positive ions or negative ions. The suspended particles, dust and germs are decomposed, and the accommodating space is effectively isolated from the suspended particles and germs in the outside world, so as to rapidly improve the air quality in the accommodating space.

1: Ontology

12: Drainage mechanism

2: Ion device

21: Ion generation module

22: Release Head

3: Electronic control unit

31: Air sensor

8:3C device

Claims (9)

A device for isolating and decomposing suspended particles, comprising: a body enclosing an accommodating space; an ion device, disposed on the body, comprising an ion generating module, the ion generating module is communicated with the accommodating space; wherein, When the ion generating module is actuated, the ion generating module generates positive ions or negative ions toward the accommodating space; wherein, the ion device further includes a plurality of discharge heads, the discharge heads are connected to the ion generation module, each The release head is a water mist spray head, the body is provided with a drainage mechanism, the drainage mechanism is connected to the outside world, the body includes a top wall, a bottom wall and a peripheral wall, the release heads are arranged along the inner side of the peripheral wall, the drainage mechanism is arranged on the bottom wall; when each releasing head is a water mist nozzle, the ion generating module is a water storage tank arranged on the top of the main body. A device for isolating and decomposing suspended particles, comprising: a body enclosing an accommodating space; an ion device, disposed on the body, comprising an ion generating module, the ion generating module is communicated with the accommodating space; wherein, When the ion generating module is actuated, the ion generating module generates positive ions or negative ions toward the accommodating space; wherein, the ion device further includes a plurality of discharge heads, the discharge heads are connected to the ion generation module, the The ion generating module is a high-voltage ionization power source, and each of the discharge heads is a discharge needle ionization module; when each of the discharge heads is a discharge needle ionization module, the top ion generation module is an ion generator. The device for isolating and decomposing suspended particles according to claim 1 or 2, wherein the ion device further comprises a plurality of release components, each of the release components is provided with a plurality of release heads, and each of the release heads extends vertically. The device for isolating and decomposing suspended particles as claimed in claim 3, wherein the ion device further comprises at least one release unit, each release unit is connected to the ion generating module and includes a first connector extending in the horizontal direction and A plurality of second connectors extending in the vertical direction, the second connectors are connected to the first connectors, and each of the second connectors is provided with a plurality of the release components, so that the release components of each release unit Arranged flat. The device for isolating and decomposing suspended particles as claimed in claim 4, wherein the ion device comprises a plurality of the releasing units, and the releasing units are connected in the body to cover the accommodating space. The device for isolating and decomposing suspended particles according to claim 4, wherein the main body is further provided with a frame, the frame communicates between the accommodating space and the outside, and the release unit is arranged in the frame. The device for isolating and decomposing suspended particles as claimed in claim 1, further comprising an electronic control unit, the electronic control unit is connected in communication with the ion generating module, the electronic control unit includes an air sensor, the air sensor The device is arranged in the accommodating space, when the air sensor senses that the air quality of the accommodating space is higher than a first set value, the electronic control unit turns on the ion generating module to act; When the device senses that the air quality of the accommodating space is lower than a second set value, the electronic control unit turns off the ion generating module to actuate, and the electronic control unit communicates with a 3C device through a network, so as to The 3C device controls the action of the ion generating module. The device for isolating and decomposing suspended particles according to claim 1 or 2, wherein the main body comprises a frame body and a mesh screen, the frame body is in a hollow state with ultra-fine small holes and slits, and the mesh screen is in a hollow state. Covering the frame body, the releasing heads are arranged on the top of the frame body. The device for isolating and decomposing suspended particles according to claim 1, wherein the main body seals the accommodating space from the outside, and the main body is further provided with an air positive pressure module and a convection fan communicating with the outside.

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