KR20220038928A - Apparatus of Gas Injection - Google Patents

Abstract

The present invention relates to a gas injection apparatus capable of injecting gas to remove fog or fire in roads and tunnels. More particularly, the gas injection apparatus comprises: a measuring device which measures the air quality of roads and tunnels; an injection device which sprays gas according to the air quality measured by the measuring device; a generator which supplies current to the measuring device and the injection device; and a control device which controls the injection amount of a plurality of injection devices.

Description

Apparatus of Gas Injection

The present invention relates to a gas injection device capable of injecting gas to remove fog or fire from roads and tunnels.

Patent Document 001 discloses a visibility sensor that detects visibility in the air and a controller that outputs an operation signal when the visibility detected by the visibility sensor is within 200 m, and a frequency of 15 to 50 Hz or less according to an operation signal generated from the controller. It consists of a sound wave generator that generates a low-pitched sound wave, a speaker that outputs the sound wave generated by the sound wave generator to the outside, and an installation platform in which the speaker and the visibility sensor are installed to be spaced apart from the ground by about 3 to 5 m, and the sound wave The generator is equipped with a phase control switch, a frequency control switch, and an amplitude control switch to adjust the frequency, phase, and amplitude as needed. The fog is removed more efficiently by using the wavelength of The fog removal device consisting of a sound wave generator that makes a sound wave, a speaker that outputs the sound wave generated by the sound wave generator to the outside, and an installation stand that allows the speaker and the visibility sensor to be installed to be spaced apart from the ground by about 3 to 5 m. Visibility sensors installed in the ascending line installed on both sides of the road in the longitudinal direction based on A technology is proposed in which the controller outputs a signal so that the sound wave generator operates when the visibility of the visibility sensor is 200 m or less while sensing the visibility of the sensor and sending a signal to the controller.

Patent Document 002 discloses a device for preventing and removing fog using a sprinkler, a water tank buried in the ground around a runway, a water tank temperature sensor detecting the water temperature of the water tank, and a water tank installed inside the water tank. a heater for heating the stored water, and a cooler installed inside the water tank to cool the water stored in the water tank; a sprinkler installed on both sides of the runway and on the ground around the runway, receiving water stored in the water tank, and spraying water toward the runway and the atmosphere around the runway; and a control unit that receives the water temperature of the water tank from the water tank temperature sensor and controls the operation of the sprinkler, the heater, and the cooler according to an operation signal input from the outside.

Patent Document 003 discloses a fog diffusion prevention wall surrounding the periphery of the atmospheric vaporizer to be spaced apart from the outer surface of the atmospheric vaporizer; and a fog diffusion prevention means provided under the fog diffusion prevention wall and preventing the fog generated during operation of the atmospheric vaporizer from spreading to the outside of the fog diffusion prevention wall, wherein the fog diffusion preventing means includes the fog diffusion prevention means The fog generated from the inside of the barrier wall is passed through and removed by the flow of the atmosphere, and the fog diffusion preventing means proposes a technology including a mesh network.

Patent Document 004 discloses an ad balloon that is lighter than air and lifts up and down from the ground to a height of 900 m to 1200 m by helium gas, which is an inert gas, and a wire having one end connected to the ad balloon and the other end being wound on a winch or releasably connected to the winch. And, a high-pressure hose connected to the upper part of the ad balloon in which the elevating amount is restrained by the wire and the lower part is connected to the pump, and a water storage tank for receiving and storing water supplied through the high-pressure hose from a water supply source; When the water stored in the tank is moved to the upper part of the high-pressure hose by the driving force of the pump, it is composed of a spray nozzle that is rotatably coupled to the upper part of the high-pressure hose so that water is sprayed into the atmosphere within the range of 90 to 120 m at a pressure of 2800 bar to 3100 bar. In being, the outer part of the high-pressure hose proposes a technology in which the insulating coil (C) is installed so that it does not overlap.

KR 10-1607932 B1 (March 25, 2016) KR 10-2011-0047104 A (May 06, 2011) KR 10-2017-0103854 A (September 13, 2017) KR 10-1941784 B1 (January 17, 2019)

The present invention relates to a gas injection device capable of injecting gas to remove fog or fire from roads and tunnels.

In order to solve the problems of the prior inventions, the present invention is a measuring device 100 for measuring the air quality of roads and tunnels; an injector 200 for injecting gas according to the air quality measured by the measuring apparatus 100; a power generation device 300 for supplying current to the measuring device 100 and the injector 200; A control device 400 for controlling the injection amount of the plurality of injection devices 200; consists of a configuration including.

The present invention is an invention for a gas injection device, the measuring device 100 presented above; injection device 200; power generation device 300; The control device 400; is formed in the injection device 200 to the invention consisting of, and a storage device 600 for storing gas; is added.

The present invention is an invention for a gas injection device, the measuring device 100 presented above; injection device 200; power generation device 300; Control device 400; is formed in the measuring device 100 in the invention consisting of, an identification sensor 110 for measuring the visible distance of the road 10 and the tunnel 20; a heat sensor 120 for detecting heat; An air quality sensor 130 for measuring air quality; is added.

The present invention is an invention for a gas injection device, the measuring device 100 presented above; injection device 200; power generation device 300; The control device 400; is formed in the injection device 200 in the invention consisting of, the case 210 fixed to the road 10 and the tunnel 20; an injection nozzle 220 formed on one surface of the case 210 and injecting gas; A supply pump 230 connected to the injection nozzle 220 and supplying pressure is added.

The present invention is an invention for a gas injection device, the measuring device 100 presented above; injection device 200; power generation device 300; a control device 400; a generator 310 that is formed in the power generation device 300 in the present invention and is fixed to the road 10 to generate a current; It is formed in the generating unit 310, the supply unit 320 for supplying current to the power generation device 300; is added.

The present invention can remove fog by measuring the fog on the road and injecting gas.

The present invention can detect and remove a fire in a tunnel.

The present invention can be connected to a server to adjust the amount of gas injection according to the weather conditions of the Meteorological Agency information.

The present invention can measure the fog and fire of roads and tunnels by photographing them or emitting infrared rays.

The present invention can measure the range of fog as a plurality of measuring devices communicate with each other.

The present invention can reduce the risk by extensively removing the fog as the spray nozzle is varied.

The present invention can supply a certain amount of gas to a plurality of injectors as the storage tank in which the gas is stored is formed.

1 is an exemplary view showing a state in which the gas injection device of the present invention is installed on a road.
Figure 2 is an exemplary view showing a state that the gas injection device of the present invention is installed in the tunnel.
Figure 3 is an exemplary view showing a state that the gas injection device of the present invention is installed on the sound barrier.
Figure 4 is a cross-sectional view showing a gas injection device installed in the power generation device of the present invention.
5 to 6 are exemplary views showing a state of measuring the fog in the measuring device of the present invention.
7 is a cross-sectional view showing the injection device of the present invention.
8 is a cross-sectional view showing the injection nozzle of the injection device of the present invention.
9 is a cross-sectional view showing a variable device of the injector of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to explain in detail enough that a person of ordinary skill in the art to which the present invention pertains can easily carry out the present invention.

The numbers cited in the examples below are not limited only to the objects of reference, and may be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the embodiment corresponds to an equivalent replacement object. The higher-level concept presented in the examples includes sub-concept objects that are not described.

(Embodiment 1-1) The present invention provides a gas injection device, comprising: a measuring device 100 for measuring air quality of a road 10 and a tunnel 20; an injector 200 for injecting gas according to the air quality measured by the measuring apparatus 100; a power generation device 300 for supplying current to the measuring device 100 and the injector 200; and a control device 400 for controlling the injection amount of the plurality of injection devices 200 .

(Embodiment 1-2) In the gas injector of the present invention, in Embodiment 1-1, the gas injected from the injector 200 is formed of a selected one of nitrogen (N2) and carbon dioxide (CO2); include

(Embodiment 1-3) In Embodiment 1-1, the gas injection device of the present invention includes a server 500 that communicates with the control device 400 and provides weather and traffic information.

(Embodiment 1-4) In the gas injection device of the present invention, in Embodiment 1-3, the server 500 is formed as a control center for observing the traffic condition of the road 10, and controls information from the Meteorological Agency. and sending to 400 .

(Embodiment 1-5) The gas injection device of the present invention according to Embodiment 1-1, wherein the measuring device 100 measures a selected one of fog, fire, and temperature of the road 10; .

(Example 1-6) In the gas injection device of the present invention, in Example 1-1, the power generation device 300 supplies current to the plurality of injection devices 200 and the measuring device 100 includes ;

The present invention relates to a gas injection device for detecting and removing fog and fire of a road (10) and a tunnel (20). The gas injection device is formed on one side of the road 10 and the tunnel 20 . Accordingly, fog generated on the road 10 and fire in the tunnel 20 can be detected and removed. In general, hot air is supplied to remove fog from the road 10 to reduce fog, but this may be affected by temperature, weather, etc. as hot air is supplied by a hot air fan. The gas injector may inject nitrogen (N2) to remove fog from the road 10 or carbon dioxide (CO2) to remove fire in the tunnel 20 .

Accordingly, the mist is removed from the desired space by combining with nitrogen or continuously spraying nitrogen gas, and fire can also be removed by combining with carbon dioxide. In addition, the gas injector may reduce contamination of the road 10 and the tunnel 20 by injecting a sterilizing gas. In this gas injection device, a measuring device 100 for measuring the fog and fine dust, temperature of the road 10, and the temperature of the tunnel 20 and air quality due to fire is formed, and the fog measured by the measuring device 100 is formed. , an injection device 200 for spraying gas to remove fire, fine dust, etc. is formed.

At this time, the measuring device 100 and the injector 200 supply current by the power generation device 300 , and the measuring device 100 , the injector 200 , and the generator 300 are selected and the control device 400 . ) is controlled by In addition, the control device 400 receives information on the weather and traffic volume of the road 10 by transmitting and receiving information with the server 500 formed outside. The server 500 is formed as a control center, and the control center receives information from the Korea Meteorological Administration by observing the traffic condition of the road 10 . In this way, the amount of gas injected can be adjusted according to the amount of fog by the control device 400 interlocked with the server 500 .

Accordingly, the gas injection device of the present invention is to prevent an accident of a vehicle due to fog, fine dust, etc. on the road 10 or to reduce a fire in the tunnel 20 and has a feature of injecting gas.

(Embodiment 1-7) The gas injection device of the present invention according to Embodiment 1-1, wherein the injection device 200 is installed on the sound barrier 30 to inject gas toward the road 10; including; do.

(Embodiment 1-8) The gas injection device of the present invention according to Embodiment 1-1, wherein the injection device 200 generates and sprays artificial rainfall through a chemical reaction.

The present invention relates to the injector 200 , and specifically, the injector 200 is installed on the sound barrier 30 to inject gas into the road 10 . The injection device 200 is formed on one surface of the sound barrier 30, and as the gas is sprayed, the cohesive force by the sound barrier 30 surface may be improved. And the injector 200 generates artificial rainfall by a chemical reaction, and mixes and sprays a plurality of chemical substances that generate artificial rainfall, such as silver iodide.

(Embodiment 2-1) The present invention relates to a gas injection device, and in the embodiment presented above, the storage device 600 is formed in the injection device 200 and stores gas; it includes.

(Embodiment 2-2) The gas injection device of the present invention according to Embodiment 2-1, wherein the storage device 600 is formed integrally and separately from the injection device 200; includes.

(Embodiment 2-3) In Embodiment 2-2, the gas injection device of the present invention includes: a storage tank 610 formed in the storage device 600 and storing gas formed of liquid and gas; It includes a; it extends from the storage tank (610), the connection pipe (620) connected to the plurality of the injection device (200).

(Embodiment 2-4) In the gas injection device of the present invention, in Embodiment 2-3, the storage tank 610 includes: a distributor for distributing gas to a plurality of the injection devices 200; It is formed in the distributor, the control valve for controlling the gas; includes.

(Embodiment 2-5) The gas injection device of the present invention according to Embodiment 2-2, wherein the storage device 600 is formed by being buried in the ground.

The present invention relates to the storage device 600 , and specifically, the storage device 600 stores gas formed of liquid and gas and supplies it to the plurality of injection devices 200 . The storage device 600 is provided with a storage tank 610 that is installed or buried in the shoulder of the road 10 or the emergency road 10 . At this time, when the storage tank 610 is buried in the road 10, it is formed to be covered with concrete or the like on the outside so that the gas does not escape.

The storage tank 610 is formed with an opening and closing door for smooth charging, and a distributor for distributing gas to the plurality of injection devices 200 is formed. In the distributor, each control valve is formed to control the amount of gas supplied according to the degree of fog and fire. In the distributor, a connecting pipe 620 is connected to each injector 200 , and the gas is injected by controlling the amount of gas injected by the connecting pipe 620 by a control valve. As such, the storage device 600 for supplying gas to the injector 200 supplies gas by the supply pump 230, and the gas formed as a liquid is converted into gas and supplied.

Accordingly, the storage device 600 is embedded and installed in the road 10 and has a feature of supplying the gas stored therein to the plurality of injection devices 200 .

(Example 3-1) The present invention relates to a gas injection device, and in Example 2-1, it is formed in the measuring device 100 and measures the visible distance of the road 10 and the tunnel 20 identification sensor 110; a heat sensor 120 for detecting heat; It includes; an air quality sensor 130 for measuring the air quality.

(Embodiment 3-2) The gas injection apparatus of the present invention according to Embodiment 3-1, wherein the measuring apparatus 100 includes a camera for photographing the road 10 .

(Embodiment 3-3) The gas injection device of the present invention according to Embodiment 3-1, wherein the air quality sensor 130 measures air quality by inhaling air.

The present invention relates to the measuring device 100 , and specifically, the measuring device 100 is to measure the fog, fine dust of the road 10 , and the fire and air quality of the tunnel 20 . This measuring device 100 measures the visible distance of the road 10 and the tunnel 20. In order to identify fog and fine dust generated on the road 10 or smoke and fine dust caused by a fire in the tunnel 20 An identification sensor 110 and a heat sensor 120 for detecting heat are formed.

And the air quality sensor 130 for measuring the air quality by sucking air from the road 10 and the tunnel 20 is formed. The identification sensor 110 is formed as a camera that identifies by photographing the road 10 , and determines whether a vehicle traveling on the road 10 is identified by measuring the captured image by the control device 400 and the server 500 . do. In addition, the heat sensor 120 may measure the temperature of the road 10 to determine the fog and the road 10 state, and measure the temperature of the tunnel 20 to determine whether there is a fire. The air quality sensor 130 determines the air quality by sucking air from the road 10 and the tunnel 20, and a suction pump is formed, and a determination device for determining the air quality sucked from the suction pump is formed. Such a measuring device 100 may be installed in the injection device 200, and the plurality of measuring devices 100 may determine the range of occurrence of fog and fire by communicating with each other.

Accordingly, the measuring device 100 measures the visibility distance, heat, and air quality of the road 10 and the tunnel 20 to remove the fog of the road 10 and the fire of the tunnel 20 .

(Embodiment 3-4) In Embodiment 3-1, the gas injection device of the present invention includes a light emitting device formed in the identification sensor 110 and emitting infrared rays.

(Embodiment 3-5) The gas injection device of the present invention according to Embodiment 3-1, wherein the light emitting device is formed in the injection device 200, and includes: a light emitting part for emitting infrared rays; a reflection unit reflecting the infrared light emitted from the light emitting unit; and a light receiving unit for receiving the infrared rays reflected by the reflecting unit.

The present invention relates to a light emitting device, and specifically, the light emitting device is formed of the identification sensor 110 , and can measure the visible distance of the road 10 and the tunnel 20 . Such a light emitting device is formed in the plurality of injection devices 200, and when the injection device 200 emits infrared rays, the infrared rays reflected from the other injection devices 200 are received and the visible distance is measured. At this time, infrared light is emitted to pass through the road 10 and the tunnel 20 . The light emitting device is formed with a light emitting unit formed in the injector 200, and the light emitting unit emits infrared rays from one surface of the injector 200. In addition, a reflector that reflects infrared rays emitted from the light emitting unit is formed on the rear surface, and a light receiving unit is formed to be close to the light emitting unit.

Accordingly, the light emitting device can measure the visible distance and visibility due to fog or the like on the road 10 by emitting infrared light.

(Embodiment 4-1) The present invention relates to a gas injector, and in Embodiment 3-1, a case 210 formed in the injector 200 and fixed to the road 10 and the tunnel 20 ); an injection nozzle 220 formed on one surface of the case 210 and injecting gas; It is connected to the injection nozzle 220, the supply pump 230 for supplying pressure; includes.

(Embodiment 4-2) In Embodiment 4-1, the gas injection device of the present invention includes a battery 211 formed in the case 210 and storing current supplied from the charging device.

(Embodiment 4-3) According to Embodiment 4-2, the gas injection device of the present invention includes a variable device 221 formed in the case 210 to change the position of the injection nozzle 220; do.

(Embodiment 4-4) The gas injection device of the present invention according to Embodiment 4-2, wherein the case 210 includes a storage tank 240 in which the gas supplied from the storage tank 610 is accommodated.

(Embodiment 4-5) In the gas injection device of the present invention in Embodiment 4-1, the injection nozzle 220 includes a straight nozzle 222 for directly injecting gas; and a diffusion nozzle 223 for dispersing and spraying the gas.

(Embodiment 4-6) The gas injection device of the present invention according to Embodiment 4-5, wherein the injection nozzle 220 includes a control device for paralleling the straight nozzle 222 and the diffusion nozzle 223.

The present invention relates to the injector 200, and specifically, the injector 200 is to inject gas to remove the fog of the road 10 and the fire in the tunnel 20. The injector 200 has a case 210 fixed to the road 10 and the tunnel 20 , and the case 210 may be formed to be embedded in the road 10 and the tunnel 20 .

At this time, the case 210 has an injection nozzle 220 formed on one surface to inject gas, and the injection nozzle 220 includes a straight nozzle 222 that directly injects gas and a diffusion nozzle 223 that diffuses and injects gas. ) is formed. As for the straight nozzle 222 and the diffusion nozzle 223, the size of the injection hole is adjusted, and when the gas is injected by pressure, the gas passes through the injection hole. At this time, depending on the size of the injection hole, the gas is injected in a straight line or is diffused. The straight nozzle 222 and the diffusion nozzle 223 are replaced with those controlled by the adjusting device, and only the method of forming or spraying can be changed.

In addition, the injection nozzle 220 may be fixed to the case 210 and may adjust the injection position of the gas as it moves on one surface of the case 210 by the variable device 221 . The variable device 221 is supplied with air therein, and the air pressure is adjusted so that the position at which the gas is injected can be adjusted as one end is changed like a bar balloon. In detail, the variable device 221 is formed with a variable tube formed to be corrugated, and the variable tube is coupled to the injection nozzle 220 .

In addition, a variable cover whose position is changed by air pressure is formed on the outside of the variable tube, and when air is supplied to the variable cover, the position of the variable cover is changed in all directions. At this time, when the variable tube rotates and moves according to the pressure of the variable cover, the gas supplied through the injection nozzle 220 is sprayed in all directions. In the case 210 , a battery 211 for storing the current generated by the power generation device 300 is formed, and a storage tank 240 for accommodating the gas supplied from the storage tank 610 is formed. The receiving tank 240 may be omitted, but is connected to the injection nozzle 220 . And the injection nozzle 220 injects the gas of the receiving tank 240 by the supply pump 230 .

Accordingly, the injector 200 of the present invention has a feature of removing fog and fire by spraying gas straight and diffusing.

(Example 5-1) The present invention relates to a gas injection device. In Example 4-1, the generator 310 is formed in the power generator 300 and is fixed to the road 10 to generate a current. ); It is formed in the generating unit 310, the supply unit 320 for supplying current to the power generation device (300); includes.

(Example 5-2) In the gas injection device of the present invention, in Example 5-1, the generator 310 includes a wind power generator 311 for generating a current by using wind power; A solar power generator 312 that generates an electric current by using solar heat; and a geothermal power generator 313 for generating an electric current by using geothermal heat.

The present invention relates to a power generation device 300 , and specifically, the power generation device 300 supplies current to the injection device 200 , and generates current through wind power, solar heat, geothermal heat, and the like. The generator 300 is fixed to the outside of the tunnel 20 and the road 10 on which the vehicle travels to form a generator 310 that generates a current, and the generator 310 includes a wind power generator 311, It is formed of at least one selected from the solar power generation device 312 and the geothermal power generation device 313 . The wind power generator 311 generates a current by rotating the blades by the wind, and the solar power generator 312 is installed on the outside of the injector 200 or installed separately 10 to generate a current by solar heat. . In addition, the geothermal generator 313 supplies current to the batteries 211 formed in the plurality of injectors 200 by generating a current using geothermal heat.

Therefore, the power generation device 300 of the present invention is to generate an electric current by wind power, solar heat, or geothermal heat, and injects gas to the injection device 200 .

(Embodiment 5-3) In Embodiment 5-2, the gas injection device of the present invention includes a piezoelectric device 314 installed on the road 10 to generate an electric current by the pressure of the vehicle.

The present invention relates to a piezoelectric device 314, and specifically, the piezoelectric device 314 is embedded in the ground across the road 10, and utilizes piezoelectricity generated by a load when the vehicle moves. The piezoelectric device 314 is formed with a main body embedded in the road 10 and a piezoelectric plate formed at the center of the main body. And the main body is a piezoelectric cell is formed, the current is generated by the vehicle traveling on the road (10).

10: Road 20: Tunnel
30: sound barrier 100: measuring device
110: identification sensor 120: thermal sensor
130: air quality sensor 200: injection device
210: case 211: battery
220: injection nozzle 221: variable device
222: straight nozzle 223: diffusion nozzle
230: supply pump 240: receiving tank
300: generator 310: generating unit
311: wind power generator 312: solar power generator
313: geothermal generator 314: piezoelectric device
320: supply 400: control device
500: server 600: storage device
610: storage tank 620: connector

Claims (5)

a measuring device 100 for measuring the state of the road 10 and the tunnel 20;
an injector 200 for injecting gas according to the state measured by the measuring apparatus 100;
a power generation device 300 for supplying current to the measuring device 100 and the injector 200;
A gas injection device comprising a; a control device 400 for adjusting the injection amount of the plurality of injection devices (200).
The method according to claim 1,
Gas injection device including; is formed in the injection device 200, the storage device 600 for storing the gas.
3. The method according to claim 2,
an identification sensor 110 formed in the measuring device 100 and measuring the visible distance of the road 10 and the tunnel 20;
a heat sensor 120 for detecting heat;
Air quality sensor 130 for measuring the air quality; gas injection device comprising a.
3. The method according to claim 2,
a case 210 formed in the injector 200 and fixed to the road 10 and the tunnel 20;
an injection nozzle 220 formed on one surface of the case 210 and injecting gas;
A gas injection device including; a supply pump 230 connected to the injection nozzle 220 and supplying pressure.
5. The method according to claim 4,
a generator 310 formed in the generator 300 and fixed to the road 10 to generate a current;
Gas injection device comprising a; is formed in the generator (310), the supply unit (320) for supplying current to the power generation device (300).

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