CN112193027A - Air purification and disinfection module, ventilation system and vehicle - Google Patents

Abstract

The application discloses air purification and disinfection module, ventilation system and vehicle. The air purification and disinfection module comprises a plasma generator and a mounting seat. The number of the plasma generators is at least one, each plasma generator is columnar, each plasma generator is provided with a plasma flow channel extending along the axial direction of the plasma generator, and each plasma generator is configured to enable plasma to be generated in the plasma flow channel of each plasma generator. The mounting seat is configured in such a way that after each plasma generator is mounted in the ventilation pipeline through the mounting seat, airflow in the ventilation pipeline can pass through the plasma flow channels in each plasma generator in different directions, and the axis of each plasma generator forms an included angle with the axis of the ventilation pipeline. The utility model provides a back in the ventilation system of air purification and disinfection module installation to vehicle, prolonged the dwell time of air in the ventilation system that has plasma to the purification and the disinfection effect of air have been promoted.

Description

Air purification and disinfection module, ventilation system and vehicle

Technical Field

The present application relates to the field of air purification and disinfection, and in particular, to an air purification and disinfection module, a ventilation system, and a vehicle.

Background

Microbes, viruses, organic carcinogens and allergens in vehicles can all have adverse effects on human health. Especially, when the vehicle runs in hot summer, cold weather or at high speed, the window is closed, and the air conditioner is opened. Thus, microorganisms and organic harmful substances can accumulate in the vehicle cabin, and the passengers are injured. Microorganisms also multiply in air conditioning and ventilation systems. Cross-contamination of people by viruses in mass-concentrated vehicle compartments can occur.

Content of application

The application provides an air purification and disinfection module, ventilation system and vehicle can promote the purification and the disinfection effect of air.

In a first aspect, embodiments of the present application provide an air purification and disinfection module including a plasma generator and a mount. The number of the plasma generators is at least one, each plasma generator is columnar, each plasma generator is provided with a plasma flow channel extending along the axial direction of the plasma generator, and each plasma generator is configured to enable plasma to be generated in the plasma flow channel of each plasma generator. The mounting seat is configured in such a way that after each plasma generator is mounted in the ventilation pipeline through the mounting seat, airflow in the ventilation pipeline can pass through the plasma flow channels in each plasma generator in different directions, and the axis of each plasma generator forms an included angle with the axis of the ventilation pipeline.

In some embodiments, the plasma generator includes at least one first plasma generator, the axes of each first plasma generator are parallel, and the two ends of each first plasma generator are level.

In some of these embodiments, the plasma generator includes at least one second plasma generator, the axes of each second plasma generator are parallel, and the two ends of each second plasma generator are level. The axis of each second plasma generator is parallel to the axis of each first plasma generator, and each second plasma generator and each first plasma generator are arranged in a staggered mode in the axial direction of the second plasma generator. Each second plasma generator is respectively positioned at the middle position of two adjacent second plasma generators.

In some embodiments, the mounting base has a balance cavity, the first plasma generator and the second plasma generator are respectively located at two opposite sides of the balance cavity, and the first plasma generator and the second plasma generator are communicated with the inside and the outside of the balance cavity.

In a second aspect, embodiments of the present application provide a ventilation system, which includes a ventilation duct, an air volume adjusting door, a fan, and the air purifying and sterilizing module in any one of the above embodiments. The ventilation duct has a first inlet, a second inlet, and an outlet. The air volume adjusting door is located at the first inlet and configured to control air volume at the first inlet. The fan is located in the ventilation duct downstream of the first inlet and the second inlet. The quantity of air purification and disinfection module is at least one, and each air purification and disinfection module all is located air pipe, and is located the low reaches of first import and second import, and the mount pad in each air purification and disinfection module is connected with air pipe.

In some of these embodiments, the ventilation system includes a dust barrier positioned in the ventilation duct downstream of the first and second inlets and upstream of the fan.

In some of these embodiments, the air purification and disinfection module comprises a first air purification and disinfection module located upstream of the dust barrier mesh.

In some of these embodiments, the air purification and disinfection module comprises a second air purification and disinfection module, the second air purification and disinfection module being located downstream of the fan.

In a third aspect, embodiments of the present application provide a vehicle comprising a cabin body, a drive system, and the ventilation system of any of the above embodiments. The cabin body is configured to carry passengers. A drive system configured to drive the cartridge body. The number of the ventilation systems is at least one, a first inlet in each ventilation system is communicated with the external space, and a second inlet and an outlet in each ventilation system are communicated with the bin body.

In some of these embodiments, the vehicle includes a control module coupled to each of the ventilation systems, the control module configured to control operation of each of the ventilation systems.

An air purification and sterilization module provided according to an embodiment of the present application includes a plasma generator and a mounting base. The number of the plasma generators is at least one, each plasma generator is columnar, each plasma generator is provided with a plasma flow channel extending along the axial direction of the plasma generator, and each plasma generator is configured to enable plasma to be generated in the plasma flow channel of each plasma generator. The mounting seat is configured in such a way that after each plasma generator is mounted in the ventilation pipeline through the mounting seat, airflow in the ventilation pipeline can pass through the plasma flow channels in each plasma generator in different directions, and the axis of each plasma generator forms an included angle with the axis of the ventilation pipeline. The utility model provides a back in the ventilation system of air purification and disinfection module installation to vehicle, prolonged the dwell time of air in the ventilation system that has plasma to the purification and the disinfection effect of air have been promoted.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view of a first embodiment of an air purification and disinfection module according to an embodiment of the present application;

FIG. 2 is a schematic view of a ventilation system according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a vehicle according to an embodiment of the present application;

FIG. 4 is a schematic view of a second configuration of an air purification and disinfection module according to an embodiment of the present application;

fig. 5 is a schematic view of a third structure of the air cleaning and sterilizing module according to the embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1, 4 and 5, an embodiment of the present application provides an air purification and disinfection module 1. The air cleaning and disinfecting module 1 can be installed into a ventilation system 2 of a vehicle 3.

The air cleaning and sterilizing module 1 includes a plasma generator 10 and a mounting seat 11. The plasma generator 10 is used to generate plasma to achieve air purification and sterilization. The number of the plasma generators 10 is at least one, for example, one, two, three. Each plasma generator 10 has a columnar shape, each plasma generator 10 has a plasma flow passage extending in an axial direction thereof, and each plasma generator 10 is disposed so that plasma is generated in the plasma flow passage.

To achieve the above object, each plasma generator 10 may include an outer electrode, an inner electrode, a first fixing base, and a second fixing base. The outer electrode may be a hollow cylindrical shape. The inner peripheral wall of the external electrode may have any shape, for example, a cylindrical shape, a regular quadrangular prism shape, or a regular hexagonal prism shape. The outer peripheral wall of the external electrode may have any shape, for example, a cylindrical shape, a regular quadrangular prism shape, or a regular hexagonal prism shape. The inner electrode may have a columnar shape. The outer peripheral wall of the inner electrode may have any shape, for example, a cylindrical shape, a regular quadrangular prism shape, or a regular hexagonal prism shape. The outer diameter of the inner electrode is smaller than the inner diameter of the outer electrode, so that the inner electrode can be inserted into the outer electrode along the axial direction of the inner electrode, and at the moment, the axis of the inner electrode can be coincident with the axis of the outer electrode. The first anchor may be connected to a first end of the external electrode and a first end of the internal electrode. The second anchor may be connected to the second end of the outer electrode and the second end of the inner electrode. The first and second holders are configured such that the inner electrode is held in the outer electrode, the inner and outer electrodes together defining an annular flow channel, both ends of the annular flow channel being respectively communicated with the external space. The annular flow channel is a plasma flow channel.

When the plasma generator 10 is operated, the external electrode and the internal electrode are respectively connected to a power supply, and specific micro lightning is generated by electric energy to generate plasma in the plasma channel, and then genes of microorganisms and viruses in the plasma channel are destroyed, and organic compounds in the plasma channel can be decomposed, thereby achieving the effect of purifying air. The process completely uses physical effect, does not use any chemical substance, does not have the condition of secondary pollution and virus drug property expansion, only needs electric energy without the assistance of other special environments, can generate effective reaction to substances in the air, and in addition, the purified air can be directly inhaled by human bodies without any side effect.

To demonstrate the air purifying and sterilizing effect of the plasma generator 10, the applicant performed tests in which: after three plasma generators were placed in a three-cubic meter chamber, the air in the chamber was tested. The standards and methods of testing are referred to GB21551.3-2010 and GB 4706.45-2008. The test results are: has better removal effect on staphylococcus albus, staphylococcus aureus, escherichia coli and aspergillus niger in the aspect of sterilization, and has better removal effect on escherichia coli bacteriophage Phi-X174 in the aspect of disinfection.

The axes of the plasma generators 10 may be parallel or coincident or angled, that is, the arrangement of the plasma generators 10 may be in any manner. For example: referring to fig. 1, 4 and 5, the plasma generator 10 may include a first plasma generator 100. The number of the first plasma generators 100 may be at least one, for example, one, two, three. The axes of each first plasma generator 100 may be parallel, for example, the axis of each first plasma generator 100 may be at an angle of 45 degrees to the horizontal, the axis of each first plasma generator 100 may be parallel to the horizontal, and the axis of each first plasma generator 100 may be vertical to the horizontal. Both ends of each first plasma generator 100 may be leveled.

Referring to fig. 1 and 5, the plasma generator 10 may include a second plasma generator 101. The number of the second plasma generators 101 may be at least one, for example, one, two, three. The axes of the second plasma generators 101 may be parallel. Both ends of each second plasma generator 101 may be leveled. An axis of each second plasma generator 101 may be parallel to an axis of each first plasma generator 100. Each second plasma generator 101 may be disposed to be offset from each first plasma generator 100 in the axial direction of the second plasma generator 101. Each of the second plasma generators 101 may be located at a middle position of two adjacent second plasma generators 101, respectively.

The mounting seat 11 is used to carry the plasma generator 10 to implement mounting of the plasma generator 10. The mounting seat 11 is configured such that after each plasma generator 10 is mounted into the ventilation duct 20 through the mounting seat 11, the airflow in the ventilation duct 20 can pass through the plasma flow channel in each plasma generator 10 in different directions, and the axis of each plasma generator 10 forms an included angle with the axis of the ventilation duct 20. Wherein "angled" means: the axis of each plasma generator 10 is not parallel to or coincides with the axis of the ventilation duct 20. The above arrangement prolongs the stay time of the air in the ventilation system 2 with plasma of the vehicle 3, thereby improving the air purification and sterilization effect.

In order to ensure that the airflow in the ventilation duct 20 passes through the plasma flow channel in each plasma generator 10, the mounting seat 11 may have a cavity 110, the cavity 110 has at least one opening, the number of the openings is at least one, the cavity 110 is configured such that after each plasma generator 10 is mounted in the ventilation duct 20 through the mounting seat 11, the cavity 110 is correspondingly communicated with the plasma flow channel of each plasma generator 10, the opening faces the upstream of the mounting seat 11, and the axis of the opening is parallel to or coincides with the axis of the ventilation duct 20. The size of the mounting seat 11 may be configured such that the mounting seat 11 blocks the ventilation duct 20 after each plasma generator 10 is mounted into the ventilation duct 20 through the mounting seat 11. In order to allow the chamber 110 to communicate with the plasma flow passage of each plasma generator 10, the chamber 110 may have at least one mounting hole into which each plasma generator 10 may be inserted and fixed. The cavity 110 may include a first cavity 1100 and a second cavity 1101. The first chamber 1100 may be in communication with a plasma channel of each first plasma generator 100, and the second chamber 1101 may be in communication with each second plasma generator 101.

The mount 11 may have a support portion 111, the support portion 111 being connected to the plasma generator 10, the support portion 111 being configured to support the plasma generator 10. In order to couple the support portion 111 with the first plasma generator 100, the support portion 111 may have a positioning hole in which the plasma generator 10 is inserted and fixed. The support portion 111 may be located between the first chamber 1100 and the second chamber 1101. The support 111 may be connected with the first plasma generator 100 and the second plasma generator 101.

The mounting seat 11 may have a balance chamber 112, the first plasma generator 100 and the second plasma generator 101 are respectively located at two opposite sides of the balance chamber 112, and the first plasma generator 100 and the second plasma generator 101 communicate the inside and the outside of the balance chamber 112.

When the air purifying and sterilizing module 1 is in operation, the following two conditions exist in the flow direction of the air flow at the air purifying and sterilizing module 1: in the first case, the air flow outside the air cleaning and sterilizing module 1 flows to the inside of the balancing chamber 112 through a part of the first plasma generator 100 and a part of the second plasma generator 101. In the second case, the air flow inside the balancing chamber 112 flows to the outside of the air cleaning and sterilizing module 1 through the remaining part of the first plasma generator 100 and the remaining part of the second plasma generator 101. At this time, the outside and the inside of the air cleaning and sterilizing module 1 are in a dynamic equilibrium state.

Referring to fig. 2, the present embodiment provides a ventilation system 2 including a ventilation duct 20, an air volume adjusting door 22, a fan 21, and an air cleaning and sterilizing module 1 in any one of the above embodiments.

The ventilation duct 20 has a first inlet 200, a second inlet 201 and an outlet 202. The axis of the first inlet 200 and the axis of the second inlet 201 may both extend vertically. The first inlet 200 may be located directly above the second inlet 201.

The air volume-adjusting door 22 may be located at the first inlet 200, the air volume-adjusting door 22 being configured to control the air volume at the first inlet 200. The air quantity-adjusting door 22 may be located in the ventilation duct 20. The air volume adjusting door 22 may be opened and closed in a reversed manner.

The fan 21 is located in the ventilation duct 20 downstream of the first inlet 200 and the second inlet 201. The fan 21 may be a blowing fan or a suction fan.

The number of the air purification and sterilization modules 1 is at least one, such as one, two, three. Each air cleaning and disinfecting module 1 is located in a ventilation duct 20 downstream of a first inlet 200 and a second inlet 201, and a mounting 11 in each air cleaning and disinfecting module 1 is connected with the ventilation duct 20.

It should be noted that "upstream" and "downstream" are divided according to the air flow entering the ventilation duct 20 from the first inlet 200 and the second inlet 201 and exiting the ventilation duct 20 from the outlet 202, for example, the fact that the air cleaning and sterilizing module 1 is located downstream of the first inlet 200 and the second inlet 201 means that: the air flow passes through the first inlet 200 and the second inlet 201, and then passes through the air purification and sterilization module 1, which will not be described in detail.

In operation of the ventilation system 2, the air flow in the ventilation duct 20 flows in its entirety from the first inlet 200 and the second inlet 201 to the outlet 202, whereas the air flow in the ventilation duct 20 at the air cleaning and sterilizing module 1 is in two cases: in the first case, when the air pressure of the side of the air cleaning and sterilizing module 1 close to the first inlet 200 and the second inlet 201 is large, the flow direction of the air at the air cleaning and sterilizing module 1 is from the side of the air cleaning and sterilizing module 1 close to the first inlet 200 and the second inlet 201 to the side of the air cleaning and sterilizing module 1 close to the outlet 202. In the second case, when the air pressure of the side of the air cleaning and sterilizing module 1 near the outlet 202 is large, the air flow at the air cleaning and sterilizing module 1 flows from the side of the air cleaning and sterilizing module 1 near the outlet 202 to the side of the air cleaning and sterilizing module 1 near the first inlet 200 and the second inlet 201.

The ventilation system 2 may comprise a dust barrier net 23. A dust screen 23 is located in the ventilation duct 20 downstream of the first inlet 200 and the second inlet 201. The dust barrier 23 may be located upstream of the fan 21.

The air cleaning and sterilizing module 1 may include a first air cleaning and sterilizing module. A first air cleaning and sterilizing module may be located upstream of the dust barrier mesh 23. The installation space upstream of the dust screen 23 is sufficient and it is convenient to install the first air cleaning and disinfecting module there. Meanwhile, the airflow passes through the dust-proof net 23 after being processed by the first air purification and disinfection module, so that bacteria are prevented from being retained in the dust-proof net 23 to be propagated, and the service life of the dust-proof net 23 is prolonged.

The air cleaning and sterilizing module 1 may include a second air cleaning and sterilizing module. A second air cleaning and sterilizing module may be located downstream of the fan 21. Optionally, a second air cleaning and sterilizing module is located downstream of the blower fan 21.

Referring to fig. 3, the present application provides a vehicle 3 comprising a cabin 30, a drive system and a ventilation system 2 according to any of the above embodiments. The cabin body 30 is configured to carry passengers. The drive system is configured to drive the cartridge body 30. The number of ventilation systems 2 is at least one, e.g. one, two, three. A first inlet 200 in the ventilation system 2 communicates with the external space, and a second inlet 201 and an outlet 202 in the ventilation system 2 both communicate with the cartridge body 30. Vehicles include, but are not limited to, trains, planes, subways, passenger cars.

When the ventilation system 2 of the vehicle 3 works, air carrying harmful substances is firstly sucked into the ventilation system 2, then is purified and disinfected by the air purification and disinfection module 1, and then is sent into the cabin body 30, so that the health of passengers in the cabin body 30 is guaranteed, and the cleaning and maintenance of the ventilation system 2 are reduced.

The vehicle 3 may comprise a control module 31, the control module 31 being connectable to each ventilation system 2, the control module 31 being configured to control the operation of each ventilation system 2. The control module 31 may be connected to a power supply, a motor of the fan 21, etc. in each ventilation system 2 to achieve overall control of the ventilation system 2. Wherein the control of each ventilation system 2 may be a parallel control or a cascade control. The control of the air purification and disinfection modules 1 in the ventilation systems 2 may be controlled in parallel or in cascade, and the skilled person may set the control as required, which is not limited in this application.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present application, it is to be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and specific meanings of the above terms may be understood by those skilled in the art according to specific situations.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. An air purification and disinfection module, comprising:

at least one plasma generator, each of which is columnar, has a plasma channel extending along an axial direction thereof, and is configured such that a plasma is generated in the plasma channel of each plasma generator;

and the mounting seat is configured in such a way that after each plasma generator is mounted into the ventilation pipeline through the mounting seat, airflow in the ventilation pipeline can pass through the plasma flow channels in each plasma generator in different directions, and an included angle is formed between the axis of each plasma generator and the axis of the ventilation pipeline.

2. The air purification and disinfection module of claim 1,

the plasma generator comprises at least one first plasma generator, the axes of the first plasma generators are parallel, and two ends of each first plasma generator are level.

3. The air purification and disinfection module of claim 2,

the plasma generator comprises at least one second plasma generator, the axes of the second plasma generators are parallel, and two ends of each second plasma generator are kept flat;

the axis of each second plasma generator is parallel to the axis of each first plasma generator, and each second plasma generator and each first plasma generator are arranged in a staggered mode in the axial direction of the second plasma generator; each second plasma generator is respectively positioned at the middle position of two adjacent second plasma generators.

4. The air purification and disinfection module of claim 3,

the mounting seat is provided with a balance cavity, the first plasma generator and the second plasma generator are respectively positioned on two opposite sides of the balance cavity, and the first plasma generator and the second plasma generator are communicated with the inside and the outside of the balance cavity.

5. A ventilation system, comprising:

a ventilation duct having a first inlet, a second inlet, and an outlet;

an air volume regulating gate located at the first inlet, the air volume regulating gate configured to control an air volume at the first inlet;

a fan located in the ventilation duct downstream of the first inlet and the second inlet;

the air purification and disinfection module of any one of claims 1-4 being at least one in number, each of said air purification and disinfection modules being located in said ventilation duct downstream of said first inlet and said second inlet, a mounting in each of said air purification and disinfection modules being connected to said ventilation duct.

6. The ventilation system of claim 5,

the ventilation system comprises a dust-proof net, the dust-proof net is positioned in the ventilation pipeline, and the dust-proof net is positioned at the downstream of the first inlet and the second inlet and is positioned at the upstream of the fan.

7. The ventilation system of claim 6,

the air purification and disinfection module comprises a first air purification and disinfection module located upstream of the dust barrier mesh.

8. The ventilation system of claim 5,

the air purification and disinfection module includes a second air purification and disinfection module located downstream of the fan.

9. A vehicle, comprising:

a cabin configured to carry passengers;

a drive system configured to drive the cartridge body;

the ventilated system of any one of claims 5 to 8 in at least one number, the first inlet in each of the ventilated systems being in communication with an external space, the second inlet and the outlet in each of the ventilated systems being in communication with the cartridge body.

10. The vehicle of claim 9,

the vehicle includes a control module coupled to each of the ventilation systems, the control module configured to control operation of each of the ventilation systems.

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