Patent Description:
In <NUM>, the novel coronavirus pneumonia epidemic (named by the WHO as COVID-<NUM>) broke out globally. The virus is highly contagious, spreads fast, and greatly affects the social production order, so it will cause immeasurable losses to the global economy. Further, due to the emergency and high transmission rates of COVID-<NUM>, it has caused social panic to some extent, and the task of epidemic prevention and control is thereby arduous.

The SARS epidemic that broke out in <NUM> caused a total of <NUM>,<NUM> cases and <NUM> deaths in China, resulting in a direct economic loss of <NUM> billion yuan in China. Besides, winter and spring are the seasons of high incidence of epidemic and infectious diseases in southern China, such as influenza and bird flu. Every year, a large number of people are infected with such epidemics, and production and life are greatly affected.

After the outbreak, an epidemic prevention channel can be set up at the entrance of the building to carry out epidemic prevention and control work. At present, in the epidemic prevention channel, a set of return air circulation, ventilation, and purification system is mainly used to circulate and purify the internal air in the closed channel. Next, side-to-side blowing or a combination of side-to-side blowing and top-down blowing is used to shower and purify the surface of the personnel. If an infected person enters the channel, after the return air circulates, the virus exhaled by the infected person may continue to exist in the channel, making the personnel who enter the channel later face the risk of cross-infection. As a result, the epidemic spreads inside the building and leads to serious safety hazards.

Therefore, in view of the shortcomings of the abovementioned epidemic prevention channel, a research on an epidemic prevention method for an epidemic prevention channel to avoid the risk of cross-infection is an important issue.

Document <CIT> describes a movable disinfection and sterilization apparatus sterilizing contagious viruses using an antiseptic solution and ultraviolet rays.

The Invention aims to provide an epidemic prevention channel to realize sterilization and to avoid the risk of cross infection at the same time.

The invention provides an epidemic prevention channel as defined in claim <NUM>, including a channel body, wherein the channel body <NUM> is provided with an air inlet system, an air return system, and an exhaust system. An interior of the channel body is divided into an upper area and a lower area. The air inlet system includes air inlets, an air intake fan, a first filtering and sterilizing device, and a first nozzle group formed by a plurality of nozzles installed on a top wall of the channel body and side walls of the upper area. The air intake fan introduces external fresh air through the air inlets, the external fresh air passes through the air inlets, the air intake fan, the first filtering and sterilizing device, and the first nozzle group in sequence and is then sprayed into and purifies the upper area of the channel body. The air return system includes an air return port, an air return fan, a second filtering and sterilizing device, and a second nozzle group formed by a plurality of nozzles installed on side walls of the lower area of the channel body. The air in the channel body passes through the air return port, the air return fan, the second filtering and sterilizing device, and the second nozzle group in sequence and circulates, is sprayed into, and purifies the lower area of the channel body. The exhaust system includes an exhaust air inlet provided at a bottom of two ends of the channel body, an exhaust pipe communicating with the exhaust air inlet, an exhaust fan, a third filtering and sterilizing device, and an exhaust air outlet. The air discharged from the interior of the channel body passes through the exhaust air inlet, the exhaust pipe, the exhaust fan, the third filtering and sterilizing device, and the exhaust air outlet in sequence and flows to the outside of the epidemic prevention channel.

The epidemic prevention channel provided by the invention may be set at the entrance of places where people gather, such as stations, airports, shopping malls, and communities, to allow the people entering these places to be purified and sterilized. After a person enters the epidemic prevention channel, the external fresh air is pressurized by the air intake fan first, is sterilized by the first filtering and sterilizing device next, and is finally sprayed into the upper area of the channel body through the first nozzle group. Herein, the nozzles on the top wall of the channel body spray external fresh air from top to bottom, and the nozzles on the side walls of the upper area spray external fresh air oppositely. The air inlet system can quickly remove viruses, bacteria, and dust in the upper area, and can sterilize all parts of a person's body in the upper area through blowing. The air return system is used to guide the airflow direction in the channel body, so that the air in the channel body is pressurized by the air return fan, sterilized by the second filtering and sterilizing device, and then sprayed into the lower area of the channel body through the second nozzle group. The nozzles on the side walls of the lower area spray the airflow oppositely, and through blowing, all parts of the body in the lower area are fully sprayed and purified. The exhaust system is used to extract the air in the channel body, so as to control the pressure difference inside and outside the epidemic prevention channel together with the air inlet system. The extracted air is discharged from the exhaust air outlet after being processed by the third filtering and sterilizing device, such that secondary pollution caused by the exhausted air is prevented from being generated. The air inlet system, the air return system, and the exhaust system provided by the invention act simultaneously, so that the air in the channel body flows in an organized and directional manner. The upper area is continuously fed with filtered and sterilized external fresh air. Therefore, the air in the upper area continues to flow to the lower area, and the continuous high-speed airflow generates positive pressure so that the air in the lower area does not flow upwards, ensuring that the air inhaled by the person in the upper area is fresh and non-toxic air.

The epidemic prevention channel provided by the invention provides the following optimization improvements.

In the invention, hollow sandwich wall layers may be provided between the top wall and side walls of the channel body, and the sandwich wall layers include an upper layer and a lower layer. The upper layer and the lower layer are partitioned such that air cannot circulate. A top portion of the upper layer communicates with an outlet of the air intake fan, the upper layer also communicates with the first nozzle group, and the first filtering and sterilizing device is arranged in the upper layer. A bottom portion of the lower layer communicates with an outlet of the air return fan, the lower layer also communicates with the second nozzle group, and the second filtering and sterilizing device is arranged in the lower layer. The upper layer is provided with an air duct configured to communicate with the lower layers of two sandwich wall layers on the opposite side walls.

In the invention, top of the channel body may be provided with an air inlet box body, the air inlets are arranged at both ends of the air inlet box body, and the air intake fan is located in the air inlet box body.

In the invention, the air return port may be located on a side wall inside the channel body, and the air return port communicates with the lower layer of the sandwich wall layer through the air return fan.

In the invention, an exhaust box body may be arranged at an edge of the bottom of two ends of the channel body, the exhaust air inlet is arranged at the exhaust box body, the exhaust box body communicates with the exhaust pipe, and the exhaust pipe is connected to the exhaust fan.

In the invention, each of the first filtering and sterilizing device, the second filtering and sterilizing device, and the third filtering and sterilizing device may be one or a combination of any two filtering and sterilizing devices such as a primary filter, a high-efficiency filter, a high-pressure sterilization filter, and an ultraviolet sterilizer, and is configured for air sterilization, disinfection, and purification.

The invention further aims to provide an epidemic prevention method defined in claim <NUM>, using the epidemic prevention channel. Each nozzle of the first nozzle group and the second nozzle group is nozzle with adjustable spraying direction. The air inlet system, the air return system, and the exhaust system control the pressure difference between the air inside and outside the channel body and control the flowing speed and direction of the airflow in the channel body to form the upper and lower air areas. The first nozzle group of the air inlet system feeds the external fresh air processed by the first filtering and sterilizing device into the upper area of the channel body, so that the air is sprayed into and purifies the upper area. The second nozzle group of the air return system circulates and feeds the air processed by the second filtering and sterilizing device into the lower area of the channel body, so that the air is sprayed into and purifies the lower area. The person entering the channel body is sprayed and sterilized. The first nozzle group continuously blows the air in the upper area to the lower area to ensure that the air inhaled by the person is the external fresh air processed by the first filtering and sterilizing device in the upper area.

Through the epidemic prevention method provided by the invention, it is ensured that the non-toxic air in the channel body is filtered and sterilized, especially the air in the upper area for inhalation is continuously updated to fresh non-toxic air to avoid cross-infection.

In the invention, the height of the epidemic prevention channel may be determined according to the height of the user. When the epidemic prevention channel is to be used by adults, the internal height of the channel body is <NUM> meters, and when the epidemic prevention channel is to be used by children, the height of the channel body is <NUM> meters. As for other usage scenarios, the height may be adjusted according to needs. The height of the upper area ≥ <NUM>/<NUM> of the height of the interior of the channel body, such that the body part above the armpit of the person inside the channel body is allowed to be located in the upper area.

In view of the foregoing, the invention features the following advantages.

<NUM>: channel body, <NUM>: air inlet, <NUM>: air intake fan, <NUM>: first filtering and sterilizing device, <NUM>: first nozzle group, <NUM>: air return port, <NUM>: air return fan, <NUM>: second filtering and sterilizing device, <NUM>: air duct, <NUM>: second nozzle group, <NUM>: exhaust air inlet, <NUM>: exhaust pipe, <NUM>: exhaust fan, <NUM>: third filtering and sterilizing device, <NUM>: exhaust air outlet: <NUM>: upper area, and <NUM>: lower area.

The technical solutions of the disclosure are further described in detail in combination with the accompanying drawings and embodiments.

As shown in <FIG> and <FIG>, the invention provides an epidemic prevention channel including a channel body <NUM>, and the channel body <NUM> is provided with an air inlet system, an air return system, and an exhaust system. An interior of the channel body <NUM> is divided into an upper area <NUM> and a lower area <NUM>. The air inlet system includes air inlets <NUM>, an air intake fan <NUM>, a first filtering and sterilizing device <NUM>, and a first nozzle group <NUM> formed by a plurality of nozzles installed on a top wall of the channel body <NUM> and side walls of the upper area <NUM>. The air intake fan <NUM> introduces external fresh air through the air inlets <NUM>, the external fresh air passes through the air inlets <NUM>, the air intake fan <NUM>, the first filtering and sterilizing device <NUM>, and the first nozzle group <NUM> in sequence and is then sprayed into and purifies the upper area <NUM> of the channel body <NUM>. The air return system includes an air return port <NUM>, an air return fan <NUM>, a second filtering and sterilizing device <NUM>, and a second nozzle group <NUM> formed by a plurality of nozzles installed on side walls of the lower area <NUM> of the channel body <NUM>. The air in the channel body <NUM> passes through the air return port <NUM>, the air return fan <NUM>, the second filtering and sterilizing device <NUM>, and the second nozzle group <NUM> in sequence and then circulates, is sprayed into, and purifies the lower area <NUM> of the channel body <NUM>. The exhaust system includes an exhaust air inlet <NUM> provided at a bottom of two ends of the channel body <NUM>, an exhaust pipe <NUM> communicating with the exhaust air inlet <NUM>, an exhaust fan <NUM>, a third filtering and sterilizing device <NUM>, and an exhaust air outlet <NUM>. The air in the interior of the channel body <NUM> may pass through the exhaust air inlet <NUM>, the exhaust pipe <NUM>, the exhaust fan <NUM>, the third filtering and sterilizing device <NUM>, and the exhaust air outlet <NUM> in sequence and flows to the outside of the epidemic prevention channel. The exhausted air is filtered and sterilized air and thus may not lead to secondary pollution.

In a preferred embodiment, the top of the channel body <NUM> is provided with an air inlet box body, the air inlets <NUM> are arranged at both ends of the air inlet box body, and the air intake fan <NUM> is located in the air inlet box body. Hollow sandwich wall layers are provided between the top wall and side walls of the channel body <NUM>, the sandwich wall layers include an upper layer and a lower layer. The upper layer and the lower layer are partitioned such that air cannot circulate. A top portion of the upper layer communicates with an outlet of the air intake fan <NUM>, the upper layer also communicates with the first nozzle group <NUM>, and the first filtering and sterilizing device <NUM> is arranged in the upper layer. The first filtering and sterilizing device <NUM> is connected to the outlet of the air intake fan <NUM>. The external fresh air is pressurized by the air intake fan <NUM>, is sterilized by the first filtering and sterilizing device <NUM>, and then flows into the upper layer, and the clean air flow is sent into the upper area <NUM> at a high speed through the first nozzle group <NUM> communicating with the upper layer.

Preferably, the air return port <NUM> is located on a side wall inside the channel body <NUM>, and the air return port <NUM> communicates with the lower layer of the sandwich wall layer through the air return fan <NUM>. A bottom portion of the lower layer communicates with an outlet of the air return fan <NUM>, the lower layer also communicates with the second nozzle group <NUM>, and the second filtering and sterilizing device <NUM> is arranged in the lower layer. The upper layer may be provided with an air duct <NUM> configured to communicate with the lower layers of two sandwich wall layers on the opposite side walls. The second filtering and sterilizing device <NUM> may be connected to the outlet of the air return fan <NUM>. Part of the air processed by the second filtering and sterilizing device <NUM> is directly sprayed into the lower area <NUM> through the nozzles of the side wall where it is located, and the other part flows into the lower layer of the sandwich wall layer of the other side wall through the air duct <NUM> and is sprayed to the lower area <NUM> by the nozzles installed on the side wall, forming the effect of high-speed air-to-air blowing of clean air in the lower area <NUM>.

Both the air intake fan <NUM> and the air return fan <NUM> are turned on. The nozzles in the first nozzle group <NUM> installed on the top wall spray from top to bottom, and the nozzles installed on the side wall of the upper area spray from opposite sides. The airflow in the upper area <NUM> continues to flow downwards, and the positive pressure created by the airflow from the upper area causes the return air circulation to only take place in the lower area.

An exhaust box body may be arranged at an edge of the bottom of two ends of the channel body <NUM>, the exhaust air inlet <NUM> is arranged at the exhaust box body, the exhaust box body communicates with the exhaust pipe <NUM>, and the exhaust pipe <NUM> is connected to the exhaust fan <NUM>. While the air inlet system inputs fresh air into the channel body <NUM>, the exhaust fan <NUM> leads the air to the outside of the epidemic prevention channel. By adjusting the pressure difference between the inside and outside of the channel body <NUM>, it is ensured that fresh air is always introduced into the upper area <NUM> of the channel body <NUM>.

In this embodiment, each of the first filtering and sterilizing device <NUM>, the second filtering and sterilizing device <NUM>, and the third filtering and sterilizing device <NUM> is one or a combination of any two filtering and sterilizing devices such as a primary filter, a high-efficiency filter, a high-pressure sterilization filter, and an ultraviolet sterilizer, and is configured for air sterilization, disinfection, and purification.

The invention further provides an epidemic prevention method as defined in claim <NUM>, which is implemented through the following steps.

Each nozzle of the first nozzle group <NUM> and the second nozzle group <NUM> is nozzle with adjustable spray direction, so that the direction of the ejected airflow may be adjusted freely according to the height of a person or the key purification area to ensure good disinfection, sterilization, and purification effects. After a person enters the epidemic prevention channel, the air inlet system, the air return system, and the exhaust system control the pressure difference between the air inside and outside the channel body <NUM> and control the flowing speed and direction of the airflow in the channel body <NUM> to form the upper and lower air areas. The first nozzle group <NUM> of the air inlet system feeds the external fresh air processed by the first filtering and sterilizing device <NUM> into the upper area <NUM> of the channel body <NUM>, so that the air is sprayed into and purifies the upper area <NUM> and sterilizes the various body parts of the person at the upper area <NUM>. The second nozzle group <NUM> of the air return system circulates and feeds the air processed by the second filtering and sterilizing device <NUM> into the lower area <NUM> of the channel body <NUM>, so that the air is sprayed into and purifies the lower area <NUM> and sterilizes the various body parts of the person at the lower area <NUM>. The person entering the channel body <NUM> is sprayed and sterilized in this way. The first nozzle group <NUM> continuously blows the air in the upper area <NUM> to the lower area <NUM> to ensure that the air inhaled by the person is the external fresh air processed by the first filtering and sterilizing device <NUM> in the upper area <NUM>.

In the invention, the nozzles on the side walls are arranged opposite to each other to ensure the air-to-air blowing effect.

The height of the epidemic prevention channel is determined according to the height of the user. For example, when the epidemic prevention channel is to be used by adults, the internal height of the channel body is <NUM> meters, and when the epidemic prevention channel is to be used by children, the height of the channel body is <NUM> meters. As for other usage scenarios, the height may be adjusted according to needs. The height of the upper area <NUM> may be ≥ <NUM>/<NUM> of the height of the interior of the channel body <NUM>, such that the body part above the armpit of the person inside the channel body <NUM> is allowed to be located in the upper area <NUM>.

Claim 1:
An epidemic prevention channel, characterized in that: comprising a channel body (<NUM>), the channel body (<NUM>) is provided with an air inlet system, an air return system, and an exhaust system, an interior of the channel body (<NUM>) is divided into an upper area (<NUM>) and a lower area (<NUM>), the air inlet system comprises air inlets (<NUM>), an air intake fan (<NUM>), a first filtering and sterilizing device (<NUM>), and a first nozzle group (<NUM>) formed by a plurality of nozzles installed on a top wall of the channel body (<NUM>) and side walls of the upper area (<NUM>), the air intake fan (<NUM>) introduces external fresh air through the air inlets (<NUM>), the external fresh air passes through the air inlets (<NUM>), the air intake fan (<NUM>), the first filtering and sterilizing device (<NUM>), and the first nozzle group (<NUM>) in sequence and is sprayed into and purifies the upper area (<NUM>) of the channel body (<NUM>), the air return system comprises an air return port (<NUM>), an air return fan (<NUM>), a second filtering and sterilizing device (<NUM>), and a second nozzle group (<NUM>) formed by a plurality of nozzles installed on side walls of the lower area (<NUM>) of the channel body (<NUM>) and, an air in the channel body (<NUM>) passes through the air return port (<NUM>), the air return fan (<NUM>), the second filtering and sterilizing device (<NUM>), and the second nozzle group (<NUM>) in sequence and circulates, is sprayed into, and purifies the lower area (<NUM>) of the channel body (<NUM>), the exhaust system comprises an exhaust air inlet (<NUM>) provided at a bottom of two ends of the channel body (<NUM>), an exhaust pipe (<NUM>) communicating with the exhaust air inlet (<NUM>), an exhaust fan (<NUM>), a third filtering and sterilizing device (<NUM>), and an exhaust air outlet (<NUM>), and the air discharged from the interior of the channel body (<NUM>) passes through the exhaust air inlet (<NUM>), the exhaust pipe (<NUM>), the exhaust fan (<NUM>), the third filtering and sterilizing device (<NUM>), and the exhaust air outlet (<NUM>) in sequence and flows to the outside of the epidemic prevention channel.