KR20210094497A - An infection preventing system for tunnel - Google Patents

Abstract

The present invention relates to an infection preventing system for tunnel, and more particularly, to an infection preventing system for tunnel for effective prevention of objects in the tunnel. The present invention provides an infection preventing system for tunnel, which comprises: a tunnel unit (100) having an inlet and an outlet; a sterilization and air conditioning generating unit (110) for generating fine particles of sterilization water and discharging into the tunnel unit (100) together with air; a control unit (120) for operating the sterilization and air conditioning generating unit (110) when an object moves through the tunnel unit (100); a temperature measuring unit (130) installed in the tunnel unit (100) to measure a temperature of an object moving in a space of the tunnel unit (100); a distance measuring unit (140) installed in the tunnel unit (100) to measure a position of an object moving in the space of the tunnel unit (100), in which the control unit (120) sets a virtual quarantine space from the temperature measuring unit (130) and the distance measuring unit (140), thereby providing the advantage of enabling effective quarantine of the object as well as the space around the object, by measuring the distance and temperature of the object in the tunnel.

Description

An infection preventing system for tunnel

The present invention relates to an infection prevention tunnel system, and more particularly, to an infection prevention tunnel system for effective prevention of objects in a tunnel.

In general, tunnels are artificially excavated and penetrated by rock or soil to provide transportation, drainage, and water (irrigation, power generation, water and sewage) channels for roads, railroads, subways and underpasses, transport and underground storage of oil, and communications and electricity. It is a facility used for underground cavities, underground storage of nuclear waste, and mines and military facilities.

Since the structure of the tunnel is very difficult to ventilate, it is very important to treat it if there is an airborne infectious source inside.

In particular, in the case of a pedestrian tunnel, there is a problem of infection by an infectious agent existing in the tunnel while walking in a long tunnel.

Tunnels are usually equipped with a fan system for ventilation.

However, there is a limit to the removal of infectious substances existing in the tunnel only with such a ventilation system.

In particular, in the case of the recent Corona 19, it is very important to suppress the spread of infection, and even more so in the tunnel.

The above problem also occurs in the elevator hoisting path, which is a tunnel in a broad sense.

US 2194935 B1

An object of the present invention to overcome the above problems of the prior art is to provide an infection prevention tunnel system for effective prevention of objects in a tunnel.

a tunnel unit 100 having an inlet and an outlet; a sterilization and air conditioning generation unit 110 for generating sterilized water particles and discharging them into the tunnel unit 100 together with air; a control unit 120 for operating the sterilization and air conditioning generation unit 110 when an object moves through the tunnel unit 100; a temperature measuring unit 130 installed in the tunnel unit 100 to measure the temperature of an object moving in the tunnel unit 100 space; a distance measuring unit 140 installed in the tunnel unit 100 to measure the position of an object moving in the tunnel unit 100 space; The control unit 120 includes an infection prevention tunnel system that sets a virtual quarantine space from the temperature measurement unit 130 and the distance measurement unit 140 .

In addition, when a heat generating object above a certain temperature is generated, the nozzle 111 direction of the sterilization and air conditioning generating unit 110 sets an infected space and a non-infected space including the heat object, and the sterilization and air conditioning generating unit 110 is sterilized. It includes an infection prevention tunnel system that controls the air conditioning injection amount and the sterilization and air conditioning concentration.

In addition, the sterilization and air conditioning injection amount and the sterilization and air conditioning concentration include an infection prevention tunnel system calculated by the surface area per unit time of the object moving through the tunnel unit 100 .

In addition, the surface area includes an infection prevention tunnel system that calculates by summing the areas of the object for which the temperature is sensed.

In addition, it includes an infection prevention tunnel system that is calculated including the heating and cooling flow rate when the tunnel unit 100 is air-conditioning and air-conditioning.

In addition, the control unit 120 through communication with the tunnel management unit 200, induces the movement of the heating object to the infected space among the quarantine space, and induces the movement of the non-heating object to the non-infected space. Includes a preventive tunnel system.

In addition, the tunnel 100 having an inlet and an outlet; a sterilization and air conditioning generation unit 110 for generating sterilized water particles and discharging them into the tunnel unit 100 together with air; a control unit 120 for operating the sterilization and air conditioning generation unit 110 when an object moves through the tunnel unit 100; a distance measuring unit 140 installed in the tunnel unit 100 to measure the position of an object moving in the tunnel unit 100 space; The control unit 120 includes an infection prevention tunnel system that sets a virtual quarantine space from the distance measurement unit 140 and controls the sterilization and air conditioning injection amount and the sterilization and air conditioning concentration of the sterilization and air conditioning generator 110 .

In addition, the tunnel unit 100 provided with an entrance; a sterilization and air conditioning generation unit 110 for generating sterilized water particles and discharging them into the tunnel unit 100 together with air; a control unit 120 that operates the sterilization and air conditioning generation unit 110 when an object stays in the tunnel unit 100; a temperature measuring unit 130 installed in the tunnel unit 100 to measure the temperature of an object staying in the tunnel unit 100 space; The control unit 120 includes an infection prevention tunnel system that sets a virtual quarantine space from the temperature measuring unit 130 and controls the sterilization and air conditioning injection amount and the sterilization and air conditioning concentration of the sterilization and air conditioning generator 110 .

According to the present invention as described above, there are the following effects.

First, there is an advantage in that effective quarantine of the space around the object including the object is possible by measuring the distance and temperature of the object in the tunnel part.

Second, when heating and cooling air conditioning, since it is calculated including the heating and cooling flow rate, a decrease in the prevention effect does not occur.

Third, by setting infected and non-infected spaces including feverish objects, intensive quarantine can be made in infected spaces, thereby maximizing the efficiency of quarantine and at the same time improving economic efficiency by eliminating unnecessary disinfection and air conditioning to non-infected spaces. have an advantage

Fourth, by performing quarantine from the moment an object enters the tunnel through the tunnel, the strength of blocking the influx of infectious agents into the tunnel is demonstrated.

Fifth, it is possible to minimize contact with infection by separating the heating object and the non-heating object in the quarantine space.

1 is a configuration diagram of a tunnel unit according to a preferred embodiment of the present invention;
2 is a flowchart of a method for operating an infection prevention tunnel system according to a preferred embodiment of the present invention;
3 is a control diagram of an infection prevention tunnel system according to a preferred embodiment of the present invention;
4 is a sterilization and air conditioning generation unit of the infection prevention tunnel system according to a preferred embodiment of the present invention.
5 is a modified part of the infection prevention tunnel system according to a preferred embodiment of the present invention.
6 is a configuration diagram of a tunnel unit according to another preferred embodiment of the present invention;

Since the present invention can have various changes and can have various embodiments, specific embodiments are illustrated in the drawings and will be described in detail in the detailed description. However, this is not intended to limit the present invention to a specific embodiment, it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

In describing each figure, like reference numerals are used for like elements.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one component from another.

For example, without departing from the scope of the present invention, a first component may be referred to as a second component, and similarly, a second component may also be referred to as a first component. The term “and/or” includes a combination of a plurality of related listed items or any of a plurality of related listed items.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. shouldn't

1 is a configuration diagram of a tunnel unit according to a preferred embodiment of the present invention, and FIG. 2 is a flowchart of an operation method of an infection prevention tunnel system according to a preferred embodiment of the present invention.

Prior to the description, it should be understood that the term "tunnel" in the following description may be a pedestrian tunnel through which people walk, may be a vehicle tunnel having other lanes, and may refer to the hoisting passage of an elevator in a building. do.

The infection prevention tunnel system according to a preferred embodiment of the present invention may include a tunnel unit 100 , a sterilization and air conditioning generation unit 110 , a control unit 120 , a temperature measurement unit 130 , and a distance measurement unit 140 . .

In the case of a pedestrian-only tunnel, the tunnel part 100 is provided with an entrance part (A) and an exit part (B).

On the other hand, in the case of a vehicle tunnel, the one-way communication tunnel may have an entrance part (A) at one end, and an exit part (B) at the other end, respectively, like the pedestrian tunnel described above.

However, when a median lane is formed inside the vehicle tunnel, the inlet portion A and the outlet portion B may be provided at both ends of the tunnel portion 100 , respectively.

In other words, in the case of a tunnel having a reciprocating lane, it should be understood that an exit portion may also be provided at the inlet portion A shown in FIG. 1 .

The sterilization and air conditioning generation unit 110 generates sterilized water particles and discharges them into the tunnel unit 100 together with air.

Meanwhile, the control unit 120 operates the sterilization and air conditioning generation unit 110 when the object moves through the tunnel unit 100 .

In this case, the object refers to an object passing through the tunnel, and may be a person who is a pedestrian or a vehicle.

The temperature measuring unit 130 is installed in the tunnel unit 100 to measure the temperature of an object moving in the space of the tunnel unit 100 .

The distance measuring unit 140 is installed in the tunnel unit 100 to measure the position of an object moving in the space of the tunnel unit 100 .

The control unit 120 preferably sets a virtual quarantine space from the temperature measuring unit 130 and the distance measuring unit 140 .

More specifically, as shown in FIG. 1 , an object passing through the tunnel 100 may have a predetermined area T. As shown in FIG.

At this time, when a heating object of a certain temperature or higher is generated, the nozzle 111 direction of the sterilization and air conditioning generating unit 110 sets the infected space and the non-infected space including the heating object, and the amount of sterilization and air conditioning sprayed by the sterilization and air conditioning generator 110 . And it is possible to control the concentration of sterilization and air conditioning.

In other words, by setting the infected and non-infected space including the fever object, intensive quarantine can be made in the infected space, thereby maximizing the efficiency of quarantine, and at the same time, eliminating unnecessary sterilization and air conditioning to the non-infected space, thereby improving economic efficiency. have an advantage

In this case, it may be more preferable that the air-conditioning injection amount and the air-conditioning concentration are calculated by the surface area per unit time of the object moving through the tunnel part 100 .

In other words, as the surface area per unit time of the object moving through the tunnel part 100 increases, it may be necessary to set a larger injection amount and a higher concentration.

In FIG. 1 , the nozzle part 111 is provided at the inlet part A, but in another embodiment of the present invention, the nozzle part 111 may be provided at the outlet part B, and the inlet part A ) and the outlet portion (B) may be provided, respectively.

On the other hand, in another embodiment of the present invention, it is preferable that the nozzle part is automatically transported according to the command of the control unit along the longitudinal direction of the tunnel, or can be slidably moved along the rail part (not shown) so that it can be transported by manual operation. .

In an embodiment of the present invention, the nozzle unit may be provided in the center of the tunnel.

On the other hand, the installation position of the nozzle unit 111 may be any of the ceiling or the side of the tunnel.

On the other hand, it may be preferable to calculate the surface area by summing the areas of the object for which the temperature is sensed.

When heating and cooling air conditioning, it is also desirable to calculate the heating and cooling flow rate.

That is, when heating and cooling air conditioning is performed, it is calculated including the heating and cooling flow rate, so that the prevention effect does not decrease.

In other words, when the air-conditioning flow rate is increased, an increase in the amount of sterilization particle injection and an increase in the sterilization concentration may be accompanied based on the increased flow rate.

2 and 4 , the above-described sterilization and air conditioning generation unit 110 may be understood as the following concept of an air purifying and sterilizing device.

Meanwhile, the aforementioned tunnel management unit 200 is also expressed as a tunnel server unit below.

The air purification and sterilization device is installed in the tunnel, the main body having an inlet and an outlet; an air flow unit installed in the main body, sucking outside air through the inlet and discharging it to the outlet along a set flow path; It is installed in the main body, the storage unit for storing the electrolyte; a reforming unit installed in the main body, receiving an electrolyte, and reforming by applying an electric current to the electrolyte to form sterilizing water; It is formed in the main body and includes an anion providing unit providing plasma negative ions on the flow path, and a humidifying unit installed in the main body to apply ultrasonic vibrations to the sterilizing water to humidify the water along the flow path.

Meanwhile, a reforming unit of a preferred embodiment of the present invention will be described with reference to FIG. 5 .

The reforming unit has an inlet through which electrolyte is injected on one side, an outlet through which electrolyte is discharged on the other side, a housing having a receiving space therein, and electrode plates of different polarities in the receiving space of the housing so that they are sequentially staggered It includes an electrode assembly that is, but protrusions are formed on the outer surface of the electrode plates.

The electrode plates include a first cathode electrode plate, a first anode electrode plate, a second cathode electrode plate, and a second anode electrode plate, and the electrode assembly includes a first electrode member and a second electrode member. do.

The first electrode member includes a disk-shaped first cathode electrode plate, a first partition plate disposed on the side of the first cathode electrode plate, and having first radial ribs formed thereon, and a disk disposed on the side of the first partition plate. The shape of the first anode electrode plate and the first radiation plate disposed on the side of the first anode electrode plate, the first radiation passage forming a radial shape in the center includes a first radiation plate.

The second electrode member includes a disk-shaped second cathode electrode plate, disposed on the side of the second cathode electrode plate, a second partition plate having first radial ribs formed thereon, and disposed on the side of the second partition plate It includes a second anode electrode plate having a disk shape, and a second radiation plate disposed on the side of the second anode electrode plate and having a second radiation flow path forming a radial shape in the center.

The protrusions are formed to protrude from one side of the first cathode electrode plate, the first anode electrode plate, the second cathode electrode plate, and the second anode electrode plate.

Also, the first electrode formed on the second cathode electrode plate and the second electrode electrode formed on the second anode electrode plate protrude from one side of the housing.

In addition, the protrusions are formed along a direction radiating from the center of each of the electrode plates.

The electrode plates are formed at intervals along different diameter lines, respectively.

Here, it may also be very desirable for the control unit to use the disinfection unit to control the area on the movement path of the object in the tunnel to perform the disinfection process in advance.

In other words, the control unit 120 predicts the arrival time of the object approaching the tunnel unit 100 by the method of artificial intelligence learning, and based on this, the sterilization and air conditioning generation unit for a predetermined time before the object enters the tunnel unit 100 . It may be desirable to prime 110 .

This demonstrates the strength of blocking the influx of infectious agents into the tunnel by performing quarantine from the moment an object enters the tunnel through the tunnel.

3 is a control diagram of an infection prevention tunnel system according to a preferred embodiment of the present invention.

In addition, the tunnel server unit may transmit information on the number of objects moving in the tunnel to the control unit.

The control unit may control the operation of the air purification and disinfection unit to achieve a spray amount of the disinfecting water and a generation amount of plasma negative ions in proportion to the number of objects of the moving object.

Also, the tunnel may be provided with a tunnel server in which information on whether or not infections of objects moving in the tunnel are stored in advance.

The controller may receive information on an infected object among objects moving through the tunnel from the tunnel server.

The air inside the tunnel is discharged to the outside for a set period of time through the discharge unit installed in the tunnel, and by using the air purification and disinfection unit, it is possible to control the sterilization water to be sprayed at a set emergency concentration.

At this time, as described above, the sterilization and air conditioning generation unit 110 generates sterilization water particles and discharges them into the tunnel unit 100 together with air. It may be preferable to calculate from the moving speed of .

That is, as the number of moving objects increases and the moving speed increases, an increase in the injection amount and an increase in the sterilization concentration may be accompanied.

In addition, the tunnel may include a temperature sensor that measures the temperature inside the tunnel and transmits the measured temperature to the controller.

When heating and cooling air conditioning of the tunnel unit 100, it may be calculated including the heating and cooling flow rate.

Accordingly, when the air conditioning flow rate is increased, an increase in the amount of spraying of bacteria-removing particles and an increase in the concentration of bacteria-removing particles may be accompanied based on the increased flow rate.

Therefore, a decrease in the prevention effect does not occur even during heating and air conditioning.

In addition, the control unit 120 can match the air pressure of the tunnel and the air pressure sterilization and air conditioning injection pressure discharged from the sterilization and air conditioning generator 110 .

Therefore, a more effective quarantine is achieved by preventing a decrease in the dispersion effect due to the pressure difference.

In addition, it may include a humidity sensor that measures the humidity inside the tunnel and transmits the measured humidity to the control unit.

6 is a block diagram showing a state in which a tunnel is arranged according to another preferred embodiment of the present invention.

That is, when the length of the tunnel is equal to or greater than a predetermined length, the area of the object close to the entrance A is provided by providing the nozzle 111 on the entrance A side of the tunnel and the nozzle 111 ′ on the exit B side as well. (T1) is injected from the nozzle 111 on the side of the inlet (A) closer do.

It may include a thermal sensor that detects the heat distribution of objects moving through the tunnel and transmits the detected heat distribution to the control unit.

When a heating object of a certain temperature or higher is generated, the nozzle 111 direction of the sterilization and air conditioning generation unit 110 may include an infection prevention tunnel system that faces the heating object.

In addition, it may be preferable to include a distance measuring unit 140 for measuring the position of the object in the tunnel unit 100 for setting the nozzle 111 direction and adjusting the injection pressure.

That is, since the tunnel unit 100 includes the distance measuring unit 140 for measuring the position of the object, the sterilization and air conditioning can reach the heating object by setting the nozzle 111 direction and adjusting the injection pressure.

Accordingly, by setting the predetermined area T centered on the heating object as the concentrated quarantine area, the direction of the nozzle 111 and the distance through the distance measuring unit 140 can be set to adjust the spraying direction and the spraying pressure.

On the other hand, the control unit 120 may include an infection prevention tunnel system that classifies a heating object and a non-heating object to control the amount of sterilization and air conditioning injection and the concentration of sterilization and air conditioning.

That is, since the control unit 120 controls the sterilization and air conditioning injection amount and the sterilization and air conditioning concentration by dividing the heating object and the non-heating object, unnecessary injection can be minimized, thereby enabling economical and efficient quarantine.

In other words, when the measured temperature and humidity reach a preset abnormal condition, or when the measured heat distribution reaches a preset abnormal heat distribution, the control unit can control the sterilization water to be sprayed at a preset emergency concentration.

The control unit transmits, to the tunnel server unit, the injection state of the sterilized water sprayed under the abnormal condition, the abnormal heat distribution, and the set emergency concentration.

On the other hand, the control unit 120 through communication with the tunnel management unit 200, inducing the movement of the heat-generating object to the infection space in the quarantine space, and for the non-heating object, it provides an infection prevention tunnel system that guides the movement to the non-infectious space. can do.

In other words, by separating the heating object and the non-heating object in the quarantine space, contact with infection can be minimized.

In other words, by blocking the contact between the infectious agent and the non-infected object in advance, the strength of blocking the risk of infection at the source is demonstrated.

An infection prevention tunnel system according to another embodiment of the present invention includes a tunnel unit 100 having an entrance and exit, a sterilization and air conditioning generation unit 110 for generating fine particles of sterilization water and discharging it into the tunnel unit 100 together with air; When an object stays in the tunnel unit 100, the control unit 120 for operating the sterilization and air conditioning generation unit 110, and the object installed in the tunnel unit 100 to measure the temperature of the object staying in the tunnel unit 100 space It includes a temperature measuring unit 130, and the control unit 120 sets a virtual quarantine space from the temperature measuring unit 130, and it is possible to control the sterilization and air conditioning injection amount and the sterilization and air conditioning concentration of the sterilization and air conditioning generation unit 110. .

Thereby, for example, quarantine in a space such as an elevator can be easily and effectively performed.

100: tunnel part
110: sterilization and air conditioning generation unit
111: nozzle
120: control unit
130: temperature measurement unit
140: distance measuring unit
200: tunnel management department
T1, T2: surface area of the object
A, B : Entrance

Claims (8)

a tunnel unit 100 having an inlet and an outlet;
a sterilization and air conditioning generation unit 110 for generating fine particles of sterilization water and discharging them into the tunnel unit 100 together with air;
a control unit 120 that operates the sterilization and air conditioning generation unit 110 when the object moves through the tunnel unit 100;
a temperature measuring unit 130 installed in the tunnel unit 100 to measure the temperature of an object moving in the tunnel unit 100 space;
a distance measuring unit 140 installed in the tunnel unit 100 to measure the position of an object moving in the tunnel unit 100 space;
The control unit 120 establishes a virtual quarantine space from the temperature measuring unit 130 and the distance measuring unit 140 in an infection prevention tunnel system.
According to claim 1,
When a heat-generating object over a certain temperature occurs,
The direction of the nozzle 111 of the sterilization and air conditioning generation unit 110 sets an infected space and a non-infected space including the heat object,
Controlling the sterilization and air conditioning injection amount and the sterilization and air conditioning concentration of the sterilization and air conditioning generator 110 .
Infection prevention tunnel system.
According to claim 1,
The sterilization and air conditioning injection amount and the sterilization air conditioning concentration are calculated by the surface area per unit time of the object moving through the tunnel part 100,
Infection prevention tunnel system.
4. The method of claim 3,
The surface area is an infection prevention tunnel system that is calculated by adding up the areas of the objects for which the temperature is sensed.
5. The method of claim 4,
An infection prevention tunnel system that is calculated including the heating and cooling flow rate when the tunnel unit 100 is air-conditioning.
According to claim 1,
The control unit 120 induces the movement of the heating object to the infection space among the quarantine space through communication with the tunnel management unit 200,
An infection prevention tunnel system that induces movement of non-heating objects to the non-infectious space.
a tunnel unit 100 having an inlet and an outlet;
a sterilization and air conditioning generation unit 110 for generating sterilized water particles and discharging them into the tunnel unit 100 together with air;
a control unit 120 for operating the sterilization and air conditioning generation unit 110 when an object moves through the tunnel unit 100;
a distance measuring unit 140 installed in the tunnel unit 100 to measure the position of an object moving in the tunnel unit 100 space;
The control unit 120 sets a virtual quarantine space from the distance measuring unit 140 and controls the sterilization and air conditioning injection amount and the sterilization and air conditioning concentration of the sterilization and air conditioning generation unit 110 ,
Infection prevention tunnel system.
Tunnel unit 100 provided with an entrance;
a sterilization and air conditioning generation unit 110 for generating sterilized water particles and discharging them into the tunnel unit 100 together with air;
a control unit 120 that operates the sterilization and air conditioning generation unit 110 when an object stays in the tunnel unit 100;
a temperature measuring unit 130 installed in the tunnel unit 100 to measure the temperature of an object staying in the tunnel unit 100 space;
The control unit 120 sets a virtual quarantine space from the temperature measuring unit 130 and controls the sterilization and air conditioning injection amount and the sterilization and air conditioning concentration of the sterilization and air conditioning generation unit 110 ,
Infection prevention tunnel system.

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