CN116832199A - Sterilizing device, air conditioning system and vehicle - Google Patents

Abstract

The application discloses a sterilization device, an air conditioning system and a vehicle, and belongs to the technical field of vehicles. The air duct comprises an air duct body, a mounting plate and a light-emitting assembly, wherein the air duct body and the mounting plate are enclosed to form an air duct cavity, the light-emitting assembly is arranged on one side, close to the air duct cavity, of the mounting plate, and is fixedly connected with the mounting plate and used for emitting deep ultraviolet rays into the air duct cavity; the air channel cavity comprises an air inlet and an air outlet, and air flows into the air channel cavity from the air inlet and flows out of the air channel cavity from the air outlet; when the gas flows through the air duct cavity, the gas is irradiated by deep ultraviolet rays, so that the sterilization of the gas is realized. The sterilization of the gas in the air channel cavity is realized by performing deep ultraviolet sterilization on the gas flowing in the air channel cavity. Because the sterilizing device irradiates ultraviolet rays in the air duct cavity during operation, the sterilizing device can operate at any time to sterilize gas passing through the air duct cavity, and the sterilizing device has the beneficial effect of sterilizing in real time.

Description

Sterilizing device, air conditioning system and vehicle

Technical Field

The application belongs to the technical field of vehicles, and particularly relates to a sterilizing device, an air conditioning system and a vehicle.

Background

With the continuous progress and development of society, the living standard of people is improved, and vehicles become important vehicles for people to travel. Meanwhile, the requirements of people on disinfection and sterilization of the air in the vehicle are also increasing.

In the prior art, an ultraviolet sterilization device is usually installed in a cockpit, and various bacteria, viruses, parasites and other pathogens in the air in the cockpit are directly killed by irradiating the interior of the cockpit with ultraviolet rays, so as to achieve the effect of disinfection and sterilization.

However, since ultraviolet rays have a certain influence on people, the existing ultraviolet sterilization device can only sterilize the air in the vehicle after the people leave the vehicle. After the personnel enter the vehicle, the existing sterilizing device does not work any more, and after the air conditioner is started, the sterilized air is replaced, and when the personnel are in the vehicle, the air in the vehicle is not sterilized, so that the real-time sterilization of the air cannot be realized.

Disclosure of Invention

The embodiment of the application aims to provide a sterilizing device, an air conditioning system and a vehicle, which can solve the problem that the sterilizing device in the prior art cannot sterilize gas in real time.

In order to solve the technical problems, the application is realized as follows:

in a first aspect, an embodiment of the application provides a sterilization device, which comprises an air duct body, a mounting plate and a light-emitting component, wherein the air duct body and the mounting plate are enclosed to form an air duct cavity;

the air channel cavity comprises an air inlet and an air outlet, and air flows into the air channel cavity from the air inlet and flows out of the air channel cavity from the air outlet; when the gas flows through the air duct cavity, the gas is irradiated by deep ultraviolet rays, so that the sterilization of the gas is realized.

In the embodiment of the application, the air duct body is arranged to provide a space for air to flow through the sterilizing device. The setting of mounting panel is used for enclosing with the wind channel body and forms the wind channel chamber, and in the in-process of sterilizing equipment work, gas flows along the wind channel chamber in sterilizing equipment. The luminous component is fixedly connected with the mounting plate, and is arranged on one side, close to the air duct cavity, of the mounting plate, and the luminous component is used for emitting deep ultraviolet rays into the air duct cavity. The air inlet is used for enabling air to flow into the air channel cavity from the air inlet, and the air outlet is used for enabling air to flow out of the air channel cavity from the air outlet. When the sterilizing device works, the light-emitting device emits deep ultraviolet rays into the air channel cavity, and gas flows into the air channel cavity from the air inlet and flows out of the air channel cavity from the air outlet. When the gas flows along the air duct cavity, the light-emitting component emits deep ultraviolet rays to the air duct cavity, and the deep ultraviolet rays sterilize the gas flowing through the air duct cavity, so that the sterilized gas flows out of the air outlet. In the embodiment of the application, the sterilization of the gas in the air channel cavity is realized by performing deep ultraviolet sterilization on the gas flowing in the air channel cavity. Because sterilizing equipment can not carry out the deep ultraviolet radiation to the wind channel chamber outside the during operation, therefore, sterilizing equipment is when carrying out the sterilization to the gas through the wind channel intracavity, and the deep ultraviolet in the sterilizing equipment can not cause the injury to the wind channel chamber outside, no matter set up the device outside the wind channel chamber or be in the personnel outside the wind channel chamber, can not receive the injury of deep ultraviolet, can understand that sterilizing equipment can carry out the work at any moment and realize the sterilization to the gas, has real-time bactericidal beneficial effect.

In a second aspect, an embodiment of the present application provides an air conditioning system, including a sterilization apparatus as described above.

In a third aspect, an embodiment of the present application provides a vehicle including the air conditioning system described above.

Drawings

Fig. 1 is a schematic structural view of a sterilization apparatus according to an embodiment of the present application;

fig. 2 is a schematic view of an exploded structure of a sterilization apparatus according to an embodiment of the present application;

FIG. 3 is a schematic reflection diagram of an embodiment of the present application;

FIG. 4 is a schematic view of another embodiment of the present application.

Reference numerals illustrate:

1. a sterilization device; 10. an air duct body; 11. an air duct cavity; 12. an air inlet; 13. an air outlet; 14. a first protrusion; 20. a mounting plate; 21. a second protrusion; 30. a light emitting assembly; 40. a light reflecting member; 50. an absorption layer; 60. a power circuit board; 61. and a power supply protective shell.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

The terms first, second and the like in the description and in the claims, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged, as appropriate, such that embodiments of the present application may be implemented in sequences other than those illustrated or described herein, and that the objects identified by "first," "second," etc. are generally of a type, and are not limited to the number of objects, such as the first object may be one or more. Furthermore, in the description and claims, "and/or" means at least one of the connected objects, and the character "/", generally means that the associated object is an "or" relationship.

The subject matter and the electronic device provided by the embodiment of the application are described in detail below through specific embodiments and application scenes thereof with reference to the accompanying drawings.

Referring to fig. 1 to 4, an embodiment of the present application provides a sterilization device 1, which includes an air duct body 10, a mounting plate 20 and a light emitting component 30, wherein the air duct body 10 and the mounting plate 20 enclose an air duct cavity 11, the light emitting component 30 is disposed on one side of the mounting plate 20 near the air duct cavity 11, the light emitting component 30 is fixedly connected with the mounting plate 20, and the light emitting component 30 is used for emitting deep ultraviolet rays into the air duct cavity 11;

the air channel cavity 11 comprises an air inlet 12 and an air outlet 13, and air flows into the air channel cavity 11 from the air inlet 12 and flows out of the air channel cavity 11 from the air outlet 13; when the gas flows through the air duct cavity 11, the gas is irradiated by deep ultraviolet rays, so that the sterilization of the gas is realized.

In the embodiment of the present application, the air duct body 10 is provided to provide a space for the air to flow through the sterilization device 1. The mounting plate 20 is arranged to enclose the air duct body 10 to form an air duct cavity 11, and during operation of the sterilization device 1, gas flows along the air duct cavity 11 in the sterilization device 1. The light emitting assembly 30 is fixedly connected with the mounting plate 20, and the light emitting assembly 30 is arranged on one side of the mounting plate 20 close to the air duct cavity 11, and the light emitting assembly 30 is used for emitting deep ultraviolet rays into the air duct cavity 11. The air inlet 12 is arranged to allow air to flow from the air inlet 12 into the air channel cavity 11, and the air outlet 13 is arranged to allow air to flow from the air outlet 13 out of the air channel cavity 11. When the sterilizing device 1 works, the light-emitting device emits deep ultraviolet rays into the air channel cavity 11, and gas flows into the air channel cavity 11 from the air inlet 12 and flows out of the air channel cavity 11 from the air outlet 13. When the gas flows along the air duct cavity 11, the light emitting assembly 30 emits deep ultraviolet rays to the air duct cavity 11, and the deep ultraviolet rays sterilize the gas flowing through the air duct cavity 11, so that the sterilized gas flows out from the air outlet 13. In the embodiment of the application, the sterilization of the gas in the air channel cavity 11 is realized by performing deep ultraviolet sterilization on the gas flowing in the air channel cavity 11. Because sterilizing equipment 1 can not carry out the deep ultraviolet radiation to the wind channel chamber 11 outward at the during operation, consequently, when carrying out the sterilization to the gas through wind channel chamber 11 in, the deep ultraviolet in sterilizing equipment 1 can not cause the injury to wind channel chamber 11 outward, no matter set up the device outside wind channel chamber 11 or be in the personnel outside wind channel chamber 11, can not receive the injury of deep ultraviolet, can understand that sterilizing equipment 1 can carry out the work at any moment and realize the sterilization to the gas, has real-time sterilizing's beneficial effect.

The light with the wavelength of 200-350 nm in the ultraviolet rays is called deep ultraviolet rays, is widely used in the fields of air sterilization, formaldehyde treatment and the like in water purifying factories, hospitals and dust-free workshops of factories, and has a good sterilization effect.

It should be further noted that, the air duct body 10 and the mounting plate 20 may be bonded, may be screwed and may be welded, preferably, may be fixedly connected by laser welding, so as to avoid falling off of the air duct body 10, play a role in fixing the air duct body 10, ensure that the air duct body 10 cannot fall off due to impact or jolt, cause damage to the sterilizing device 1, and affect the operation of the sterilizing device 1 and the sterilizing effect on gas.

It should be noted that the light emitting element may be irradiated at a small angle, which reduces the possibility of leakage of deep ultraviolet on the one hand, and makes the energy of the deep ultraviolet more concentrated on the other hand, so as to have a more obvious sterilization effect. The reflectivity of the mirror aluminum at the bottom of the spotlight can reach more than 90%, after the deep ultraviolet rays are reflected, the air in the air duct can be irradiated again, and the energy of the deep ultraviolet rays is fully utilized

Optionally, referring to fig. 1 to 2, in the embodiment of the present application, the light reflecting member 40 is further included, the light reflecting member 40 is disposed in the air duct cavity 11, the surface of the air duct body 10 facing the mounting plate 20 is an air duct bottom surface, the light reflecting member 40 is fixedly connected to the air duct bottom surface, and the light reflecting member 40 and the light emitting component 30 are disposed opposite to each other.

In the embodiment of the present application, the reflector 40 is configured to reflect deep ultraviolet light emitted from the light emitting assembly 30 in the air channel cavity 11. The surface of the duct body 10 facing the light emitting assembly 30 is a duct bottom surface on which the light reflecting member 40 is disposed. The light reflecting piece 40 and the light emitting component 30 are arranged on the bottom surface of the air duct in a relative mode, most of the deep ultraviolet light emitted by the light emitting component 30 directly irradiates the light reflecting piece 40, and the light reflecting piece 40 plays a role in reflecting the deep ultraviolet light. In the embodiment of the present application, the reflective member 40 directly reflects the deep ultraviolet rays, and increases the sterilization rate by increasing the reflectivity of the deep ultraviolet rays in the duct chamber 11, thereby having the beneficial effects of expanding the sterilization range and improving the sterilization efficiency.

The reflecting member 40 may be aluminum foil, aluminum film, or mirror aluminum. The reflectivity of the reflecting mirror aluminum can reach more than 90%, and after the deep ultraviolet rays are reflected by the reflecting mirror aluminum, the gas in the air duct cavity 11 is irradiated again, so that the energy of the deep ultraviolet rays is fully utilized, and the sterilization rate of the deep ultraviolet rays is improved.

It should be further noted that the light reflecting member 40 and the duct body 10 may be fixedly connected by glue.

Alternatively, referring to fig. 3 to 4, in the embodiment of the present application, the first protrusion 14 is disposed on the bottom surface of the air duct, and the first protrusion 14 is disposed near the periphery of the light reflecting member 40.

In the embodiment of the present application, the first protrusion 14 is disposed around the reflective element 40, and the first protrusion 14 is configured to reduce the divergence of the deep ultraviolet rays and prevent the deep ultraviolet rays from overflowing from the air inlet 12 or the air outlet 13. In the process of the sterilization device 1, the light emitting component 30 emits deep ultraviolet rays to the air duct cavity 11, on one hand, the deep ultraviolet rays irradiated on the first protrusion 14 are blocked by the first protrusion 14, and the deep ultraviolet rays irradiated on the first protrusion 14 are blocked from being directly emitted from the air inlet 12 or the air outlet 13 along the air duct cavity 11. On the other hand, the arrangement of the first protrusion 14 makes the deep ultraviolet light flow out of the air duct cavity 11 after being reflected at least twice, and the energy of the deep ultraviolet light gradually decreases along with the increase of the reflection times, when the deep ultraviolet light after being reflected at least twice is diffused out of the air duct cavity 11, the energy of the deep ultraviolet light is greatly attenuated, the energy of the overflowed deep ultraviolet light is reduced, and the damage to the outside of the air duct cavity 11 is smaller.

It should be noted that the first protrusion 14 may be provided in plural numbers, and the specific number may be determined according to practical applications. In addition, wave-shaped stop grating which can be vertically arranged in the air duct

Optionally, in the embodiment of the present application, the inner wall of the air duct body 10, the air duct bottom surface and the first protrusion 14 are all provided with an absorbing layer 50, and the absorbing layer 50 is used for absorbing deep ultraviolet rays.

In the embodiment of the present application, the absorption layer 50 is disposed at the positions of the air duct body 10 except the positions where the light reflecting members 40 are disposed, and it is understood that the absorption layer 50 is disposed on the inner wall of the air duct body 10, the air duct bottom surface and the first protrusions 14. When the sterilization device 1 is in operation, the light emitting assembly 30 emits deep ultraviolet rays to the air duct cavity 11, the deep ultraviolet rays are dispersed in the air duct cavity 11, and the deep ultraviolet rays irradiated on the inner wall of the air duct body 10, the air duct bottom surface and the first protrusions 14 are at least partially absorbed by the absorption layer 50. The first protrusion 14 is disposed to reflect the deep ultraviolet ray at least twice and then to eject the deep ultraviolet ray out of the air channel cavity 11, and the energy is greatly attenuated after the deep ultraviolet ray passes through the absorbing material twice. In the embodiment of the present application, the absorption layer 50 protects the inner wall of the duct body 10, the duct bottom surface and the first protrusion 14 by absorbing the deep ultraviolet rays, and has the beneficial effect of preventing the above-mentioned positions from being damaged by the irradiation of the deep ultraviolet rays.

The absorbent layer 50 may be a sprayed paint, a laid absorbent film, or an absorbent sheet. The absorbing layer 50 may be any layer that can absorb deep ultraviolet light, and the present embodiment is not limited thereto.

Alternatively, in the embodiment of the present application, the side of the mounting plate 20 adjacent to the air duct cavity 11 is provided with a second protrusion 21, and the second protrusion 21 is disposed adjacent to the periphery of the light emitting assembly 30.

In the embodiment of the present application, the second protrusion 21 is disposed around the light emitting component 30, and the second protrusion 21 is configured to reduce the emission of deep ultraviolet rays and prevent the deep ultraviolet rays from overflowing from the air inlet 12 or the air outlet 13. During the operation of the sterilization apparatus 1, the light emitting assembly 30 emits deep ultraviolet rays toward the air duct chamber 11, the light reflecting member 40 disposed opposite to the light emitting assembly 30 reflects the deep ultraviolet rays in the air duct chamber 11, and the second protrusion 21 may reflect the deep ultraviolet rays. The deep ultraviolet reflected on the second protrusion 21 is blocked by the second protrusion 21, and the deep ultraviolet reflected on the second protrusion 21 is blocked from being directly emitted from the air inlet 12 or the air outlet 13 along the air duct cavity 11. The embodiment of the application has the beneficial effect of reducing the divergence of the deep ultraviolet rays.

It should be noted that, the second protrusion 21 may reflect the deep ultraviolet irradiated on the second protrusion 21, the energy of the deep ultraviolet gradually decreases with the increase of the reflection times, and the deep ultraviolet after multiple reflections diverges out of the air duct cavity 11 to cause less damage to the outside of the air duct cavity 11.

It should be noted that the second protrusion 21 may be provided in plural numbers, and the specific number may be determined according to practical applications.

Alternatively, referring to fig. 3 to 4, in the embodiment of the present application, an absorbing layer 50 is also provided on a side surface of the mounting plate 20 adjacent to the duct chamber 11 and the second protrusion 21.

In the embodiment of the present application, the mounting board 20 is provided with the absorption layer 50 except for the position where the light emitting assembly 30 is provided, and it is understood that the mounting board 20 is provided with the absorption layer 50 on one side surface close to the air duct cavity 11 and the second protrusion 21. When the sterilization device 1 is in operation, the light emitting assembly 30 emits deep ultraviolet rays to the air duct cavity 11, the deep ultraviolet rays are dispersed in the air duct cavity 11, and the light reflecting member 40 arranged opposite to the light emitting assembly 30 reflects the deep ultraviolet rays in the air duct cavity 11. When the deep ultraviolet rays are reflected to the side surface of the mounting plate 20 near the duct chamber 11 and the second protrusions 21, the absorbing layer 50 absorbs the deep ultraviolet rays reflected to the above-mentioned position at least partially. In the embodiment of the present application, the absorbing layer 50 protects the side surface of the mounting plate 20, which is close to the air duct cavity 11, and the second protrusion 21 by absorbing the deep ultraviolet rays, so as to prevent the above-mentioned positions from being damaged due to the irradiation of the deep ultraviolet rays, and also has the beneficial effect of reducing the divergence of the deep ultraviolet rays to the outside of the air duct cavity 11 due to the absorption of at least part of the deep ultraviolet rays.

The absorbent layer 50 may be a sprayed paint, a laid absorbent film, or an absorbent sheet. The absorbing layer 50 may be any layer that can absorb deep ultraviolet light, and the present embodiment is not limited thereto.

Alternatively, in an embodiment of the present application, the light emitting assembly 30 includes a bead plate and a temperature control member, with the bead plate and the temperature control member being connected.

In the embodiment of the application, the lamp bead plate is arranged to emit deep ultraviolet light, the temperature control piece is arranged to realize an over-temperature protection function, and the lamp beads are protected by setting a temperature threshold value. The lamp bead plate has the beneficial effects of prolonging the service life of the lamp bead, prolonging the service life of the lamp bead plate and reducing the cost.

It should be noted that, the lamp bead plate adopts aluminum substrate design, and the lamp bead is backed by metal aluminum for the lamp bead reaches the maximum in the radiating effect of working process, ensures the operating time of lamp bead, improves the bactericidal rate.

It should be further noted that the temperature control element may be a thermistor, a temperature sensor, or an infrared sensor, and the lamp bead is protected by setting a temperature threshold, which is not limited in this embodiment.

Optionally, in the embodiment of the present application, the air duct device further includes a power circuit board 60 and a power protection shell 61, the power circuit board 60 is disposed on a side of the mounting board 20 away from the air duct cavity 11, the power circuit board 60 is fixedly connected with the mounting board 20, and the power circuit board 60 is used for providing stable current for the light emitting component 30, so that the light emitting component 30 emits deep ultraviolet light;

the power supply protection shell 61 is arranged on one side of the mounting plate 20, which is away from the air duct cavity 11, the power supply protection shell 61 and the mounting plate 20 are fixedly connected to form a sealing cavity, and the power supply circuit board 60 is arranged in the sealing cavity.

In the embodiment of the application, the power circuit board 60 is disposed on one side of the mounting board 20 away from the air duct cavity 11, and the power circuit board 60 is configured to convert a stabilized voltage power supply into a stabilized current power supply to supply the light emitting component 30, so as to provide a stable current for the light emitting component 30, and enable the light emitting component 30 to emit deep ultraviolet rays. The power protection shell 61 and the mounting plate 20 are connected through screws, the power protection shell 61 and the mounting plate 20 are fixedly connected to form a sealing cavity, the power circuit board 60 is located in the sealing cavity, the power protection shell 61 plays a role in protecting the power circuit board 60, and the power protection shell 61 has certain dustproof and waterproof performances.

Optionally, in an embodiment of the present application, there is also provided an air conditioning system including the sterilization apparatus 1 as described above.

In an embodiment of the present application, an air conditioning system includes a sterilization device 1 as described above, and a sterilization assembly 1 is integrated on the air conditioning system. In the working process of the air conditioning system, the air sucked into the sterilizing device 1 passes through the air duct cavity 11 and is irradiated by deep ultraviolet rays, so that microorganisms such as bacteria and viruses in the air are killed, and the aim of purifying the air is fulfilled. Most of the deep ultraviolet rays emitted by the lamp bead plate are directly irradiated on the reflecting piece 40, and at other positions in the air duct cavity 11, the deep ultraviolet rays can escape out of the air duct cavity 11 at least through twice reflection, and the energy of the deep ultraviolet rays reflected at least twice is reduced, so that the damage of the deep ultraviolet rays to the outside of the air duct cavity 11 is greatly reduced. Meanwhile, an absorbing layer 50 is further disposed at other positions in the air duct cavity 11, and the absorbing layer 50 can at least partially absorb the deep ultraviolet rays irradiated on other positions in the air duct cavity 11, so that the reflectivity of the deep ultraviolet rays is reduced, and the leakage amount of the deep ultraviolet rays from the air duct cavity 11 is reduced. The embodiment of the application reduces the damage of the deep ultraviolet rays to the air duct body 10, and simultaneously reduces the escape amount and the escape energy of the deep ultraviolet rays, and has the beneficial effects of realizing that the air conditioning system can work under the condition of people and realizing real-time sterilization due to the reduction of the escape amount and the escape energy of the deep ultraviolet rays.

Optionally, in an embodiment of the present application, there is also provided a vehicle including the air conditioning system described above.

In the embodiment of the application, the vehicle provided with the air conditioning system irradiates deep ultraviolet rays to the gas in the air duct cavity 11 to sterilize the gas, and the deep ultraviolet rays realize sterilization of the gas in the air duct cavity 11, so that the air duct cavity 11 is not directly irradiated with the deep ultraviolet rays any more, the deep ultraviolet sterilization of the gas can be realized under the condition that people and vehicles are not separated, and the air conditioning system is started, and meanwhile, the sterilization effect can be realized. Since the deep ultraviolet rays are not directly irradiated into the vehicle, the inside of the vehicle can be sterilized by a driver and a passenger in a state where the vehicle is stopped or in a driving process. Has the beneficial effect of realizing sterilization without separation of people and vehicles.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element. Furthermore, it should be noted that the scope of the methods and apparatus in the embodiments of the present application is not limited to performing the functions in the order shown or discussed, but may also include performing the functions in a substantially simultaneous manner or in an opposite order depending on the functions involved, e.g., the described methods may be performed in an order different from that described, and various steps may be added, omitted, or combined. Additionally, features described with reference to certain examples may be combined in other examples.

The embodiments of the present application have been described above with reference to the accompanying drawings, but the present application is not limited to the above-described embodiments, which are merely illustrative and not restrictive, and many forms may be made by those having ordinary skill in the art without departing from the spirit of the present application and the scope of the claims, which are to be protected by the present application.

Claims (10)

1. A sterilization device, characterized in that it includes an air duct body, a mounting plate and a light-emitting component. The air duct body and the mounting plate are enclosed to form an air duct cavity. The light-emitting component is arranged close to the mounting plate. On one side of the air duct cavity, the light-emitting component is fixedly connected to the mounting plate, and the light-emitting component is used to emit deep ultraviolet light into the air duct cavity; The air duct cavity includes an air inlet and an air outlet. Gas flows into the air duct cavity from the air inlet and flows out of the air duct cavity from the air outlet. When the gas flows through the air duct cavity, The gas is irradiated by deep ultraviolet rays to achieve sterilization of the gas. 2. The sterilization device according to claim 1, further comprising a reflective member, the reflective member is disposed in the air duct cavity, and the surface of the air duct body facing the mounting plate is an air duct. On the bottom surface, the reflective part is fixedly connected to the bottom surface of the air duct, and the reflective part and the light-emitting component are arranged oppositely. 3. The sterilization device according to claim 2, wherein a first protrusion is provided on the bottom surface of the air duct, and the first protrusion is disposed close to the periphery of the reflective member. 4. The sterilization device according to claim 3, wherein an absorption layer is provided on the inner wall of the air duct body, the bottom surface of the air duct and the first protrusion, and the absorption layer is used to absorb Deep UV. 5. The sterilization device according to claim 4, wherein a second protrusion is provided on the side of the mounting plate close to the air duct cavity, and the second protrusion is disposed on a side close to the light-emitting component. around. 6. The sterilization device according to claim 5, wherein the absorbing layer is also provided on a side surface of the mounting plate close to the air duct cavity and the second protrusion. 7. The sterilization device according to claim 6, wherein the light-emitting component includes a lamp bead board and a temperature control component, and the lamp bead board and the temperature control component are connected. 8. The sterilization device according to claim 7, further comprising a power supply circuit board and a power supply protective shell, the power supply circuit board being disposed on a side of the mounting plate facing away from the air duct cavity, the power supply circuit board The circuit board is fixedly connected to the mounting board, and the power circuit board is used to provide a stable current for the light-emitting component so that the light-emitting component emits deep ultraviolet light; The power supply protective shell is disposed on a side of the mounting plate facing away from the air duct cavity. The power supply protective shell and the mounting plate are fixedly connected to form a sealed cavity, and the power circuit board is located in the sealed cavity. 9. An air conditioning system, characterized by comprising the sterilization device according to any one of claims 1 to 8. 10. A vehicle, characterized by comprising an air conditioning system as claimed in claim 9.