KR101948433B1 - Tunnel exit-standing tunnel dust collecting apparatus having anti-freezing. - Google Patents

Abstract

The present invention relates to a tunnel dust collection apparatus installed at a tunnel exit with an anti-freezing function and, more specifically, relates to a tunnel dust collection apparatus installed at a tunnel exit with an anti-freezing function, capable of purifying polluted air, which is discharged from an exit of a tunnel, by removing fine dust or nitrogen oxide from the air while making the pollution degree of the air relatively low. The tunnel dust collection apparatus includes: an extension space functioning as a mixing space for lowering the pollution degree of polluted air discharged from a tunnel; a tunnel exit installation type dust collecting structure formed in the upper part of the extension space and including a dust collection space; a snow-melting solution spraying part preventing roads of the extension space from being frozen; an electric dust collecting part collecting dust with inductive voltages; an active carbon filter part and an axial fan part located at the rear end of the electric dust collecting part; a direction switching part switching a flow direction of the air so that a part of the air flow is able to go into the extension space; and an operation control part controlling the operation of the axial fan part and the electric dust collecting part. Thus, the present invention is capable of preventing roads from being frozen because of the air flowing into the extension space, while purifying polluted air with a relatively low pollution degree of the polluted air, and raising energy efficiency, spatial efficiency, and the efficiency of dust collection based on design with a relatively small processing capacity.

Description

TECHNICAL FIELD [0001] The present invention relates to a tunnel type dust collecting apparatus having an anti-freeze function.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tunnel type dust collector installed at an exit of a tunnel through which a vehicle travels and removes various pollutants generated from the vehicle at the exit of the tunnel to the atmosphere. A tunnel outlet type tunnel type tunneling type tunneling type tunneling type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type tunnel type To a dust collecting apparatus.

In general, a car tunnel is a tunnel having an inner diameter section of a considerable size formed by piercing through a mountain, underground, or a spruce for the purpose of passage of a vehicle.

In the case of tunnels, which are inevitably constructed during mountainous mountainous areas or high-altitude road construction, the air in the car tunnels is contaminated by various harmful substances contained in the exhaust gas of the vehicle. The pollution degree of the inside air is considerably high.

Examples of harmful substances contained in the air inside the vehicle tunnel include fine dust (PM ₁₀ ), carbon monoxide (CO), NO _x gas, volatile organic compounds (VOC), and ozone generated by nitrogen oxides.

The fine dust (PM ₁₀ ) is a particulate matter having an average diameter of 0.1 to 0.3 탆 which is discharged mainly from a light truck, and is known to float in the air for a long time and to be deeply deposited in the lung by respiration to induce cancer.

Furthermore, the carbon particles, which are the main components of particulate matter emitted from light vehicles, have a great influence on the reflection and absorption of light and have extinction coefficients of light three to four times larger than those of other particulate matter in the atmosphere. This will have an adverse effect on the distance.

On the other hand, volatile organic compounds (VOCs) are substances that are environmentally harmful substances such as toluene, xylene, glycol ether, crude oil refining compound, naphtha acetone, paraffin, and olefin aromatic compounds. Such substances are also fatal to the human body There will be no.

Therefore, in order to remove such harmful substances from the inside of the tunnel to create a pleasant driving environment, conventionally, a ventilation system of air inside a tunnel using a jet fan has been used. That is, the top and bottom tunnels have ventilation directions on the ceiling portion in the same way as the direction of travel of the vehicle.

A number of jet fans are installed, and ventilation of the inside of the tunnel is performed in such a manner that contaminated air inside the tunnel is discharged to the outside of the tunnel by blowing action of the jet fan.

However, according to the conventional ventilation system, contaminated air inside the tunnel is discharged untreated to the surrounding environment of the tunnel, which inevitably involves contamination of the surrounding environment.

Therefore, the ventilation method of the air inside the tunnel using the conventional blowing air causes environmental pollution around the tunnel and causes a lot of problems. Especially, it damages crops caused by soil pollution around the tunnels and seriously damages the health of residents living around the tunnels Causing problems.

In order to solve the above-mentioned problem of the ventilation method of the air inside the tunnel, Patent Application No. 10-2005-0074863 'Tunnel pollutant complex purification system' is disclosed.

The above-mentioned prior art has a feature of directly purifying air in a contaminated tunnel by a complex purification system of tunnel pollutants for purifying polluted air in tunnels.

That is, as shown in the representative drawing of the 'tunnel pollutant complex purification system' of FIG. 1, No. 10-2005-0074863, the complex purification system for tunnel pollutants includes a bypass for removing contaminants generated in the tunnel The tunnel 100 is arranged in parallel with the main tunnel 10 in which the vehicle travels so that the contaminated air in the main tunnel 10 flows through the air inlet 110 of the bypass tunnel 100 to be purified And then sent back to the main tunnel 10 through the air outlet 120.

As described above, the prior art has the effect of significantly reducing the adverse effects on the environment around the tunnel by purifying the contaminated air inside the main tunnel by itself in the tunnel and discharging it out of the tunnel.

However, such a self-cleaning method has a problem that installation cost of the tunnel air purification system is excessively required because the bypass tunnel 100 is installed.

In addition, there is no way to install the bypass tunnel in the already completed tunnel, and there is a problem that there is no way to apply the conventional self-purification method.

Further, when the capacity of the tunnel air cleaning system is required to be increased beyond the capacity of the tunnel air cleaning system installed in the tunnel due to an increase in vehicle operation or the like, there is a problem that it is difficult to expand the tunnel air cleaning system.

In order to solve the above-mentioned problems, the prior art has been disclosed in the title of the invention, 'Application No. 10-2014-0129582' Tunnel air purification system with tunnel exit at a car '.

As shown in the representative drawing of the 'Tunnel air purification system for vehicle tunnel installed at the exit of the vehicle' in FIG. 2, the prior art is provided with an air purification facility outside the tunnel and an intake means at the tunnel exit The air inside the tunnel including the harmful substances such as fine dust (PM10), NOx (nitrogen oxides) gas, volatile organic compound (VOC) and ozone generated by the running of the vehicle in the tunnel is sucked at the exit of the tunnel Which is purified and released into the atmosphere.

However, in the conventional art, there is a problem that a separate space for installing an air purification facility requiring a considerable installation space is formed, and a distance between the air purification facility and the intake unit causes a lot of energy loss due to intake air There is a problem that a relatively high performance suction fan is required to maintain the suction force.

In particular, the prior art according to the above application No. 10-2014-0129582 must design the treatment capacity for treating the polluted air discharged from the tunnel on the basis of the worst contamination concentration.

Therefore, an excessive air purification facility is required, thereby requiring a relatively large space and cost, and a relatively large maintenance cost.

In addition, if the pollution concentration increases due to an increase in the traffic amount exceeding the expected level, there is a problem that the polluted air can not be sufficiently purified and the pollutant is discharged to the atmosphere.

In addition, there is a physical limitation in sucking contaminated air at the tunnel exit, and there is also a problem that the polluted air is directly discharged to the atmosphere due to the operation of the vehicle.

In the meantime, the reference numerals of the drawings shown in FIGS. 1 and 2 are not described separately from those of the present invention.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art as described above, and it is an object of the present invention to provide a method and apparatus for purifying contaminated air by injecting purified air into polluted air discharged from a tunnel exit, The present invention provides a tunnel outlet installation type tunnel dust collector which can be designed to have a lower processing capacity than the installation type tunnel dust collector and which can be easily installed at a tunnel exit and relatively improve spatial efficiency, energy efficiency and dust collecting efficiency, The object of the present invention is to prevent the road from freezing in the course of the air injection.

It is still another object of the present invention to provide a tunnel outlet installation type tunnel dust collector having a relatively low installation cost and a short installation period.

 Other objects, features and advantages of the present invention will become apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

In order to achieve the above object, the present invention has the following technical features.

The present invention provides a tunnelled dust collecting apparatus having a tunnel-outlet-installed function that is fixedly installed at a tunnel exit of a vehicle to extend an inner space of the tunnel and form an extended space serving as a mixing space for lowering the contamination concentration of polluted air discharged from the tunnel The extension space is connected to the dust collection space through a suction hole formed on the bottom surface of the dust collection space located at the beginning of the extension space, A tunnel outlet type dust collection structure for providing a circulation path through which air sucked through the tunnel is distributed; A plurality of molten liquid injection heads installed in an extension space of the tunnel exit type dust collecting structure, and a melt liquid supply unit connected to the melt liquid injection head through pipes to supply a melt fluid; An electric dust collection unit installed in the dust collection space and collecting fine dust contained in air introduced through the suction hole at a rear end of the suction hole by a dust collection method using an induction voltage; Located downstream of the electrical dust collecting part, a carbon monoxide (CO), the active carbon filter unit for removing nitrogen oxide (NO _X) and volatile organic compound (VOC) contained in the fine dust removal, including activated carbon chip air; An accelerator pan provided at a rear end of the activated carbon filter unit to provide a suction force to the suction hole and discharge the purified air to the atmosphere; A direction in which a flow direction of the air is changed so that a part of the air flow generated in the accelerator pan portion can be directed into the extended space, A switching portion; And a drive control unit for controlling driving of the melted liquor spraying unit, the electric dust collection unit, and the accelerator pan unit.

Further, the dust collecting space of the tunnel outlet type tunnel dust collector having the icing prevention function according to the present invention gradually becomes narrower from the suction hole to the accelerator fan portion.

The electric dust collecting part of the tunnel outlet type tunnel dust collecting device having the icing prevention function according to the present invention is characterized in that the front, rear, upper and lower surfaces are opened and both side surfaces are closed, A dust collecting block housing provided on the front surface of the dust collecting block housing and having a guide for guiding contaminated air to a center portion of the installation space, and a dust collecting block housing provided on a front surface of the dust collecting block housing and connected to a high voltage applying means, A plurality of ionizers each having a plurality of projections formed along a longitudinal direction thereof in the shape of a saw having a predetermined length for arranging a plurality of ionizers in parallel and a plurality of grounded parallel metal plates positioned in the installation space at the rear of the electrification unit, A dust collecting electrode for collecting a charged object to be charged and a dust collecting electrode And by the technical features; that formed by laminating the electric dust collector includes a dust collection block consisting of induction voltage without plate-term connection that causes the voltage induced by the matching unit vertically and horizontally.

The present invention is also directed to a multi-cross fin ionizer in which a plurality of side projections for generating corona discharge on both sides of the Ionizer of the tunnel outlet type tunnel dust collector having the icing prevention function of the present invention are formed in the longitudinal direction.

The activated carbon filter unit of the tunnel outlet type tunnel dust collector having the icing prevention function according to the present invention comprises a honeycomb board having a plurality of hexagonal through holes connected to each other in a plane and a net connected to both sides of the honeycomb board, And a plurality of activated carbon filter plates arranged in a plane, wherein the active carbon filter plate includes a chip inside the hexagonal through-hole.

Further, the activated carbon filter unit of the tunnel outlet type tunnel dust collector having the icing prevention function according to the present invention includes a fixed frame of a screen wind structure made of an aluminum material or a stainless steel material, and the activated carbon filter plate is mounted Is a technical feature.

The direction switching unit of the tunnel outlet installation type tunnel dust collector having the icing prevention function according to the present invention is formed to be long in the lateral direction in accordance with the outlet width of the tunnel outlet installation type dust collecting structure and the inner side surface facing the accelerator fan unit is formed in a concave shape Is a technical feature.

An air nozzle for forming an air curtain around the outlet of the tunnel outlet installation type dust collecting structure is formed in the lower portion of the inner side surface of the direction switching portion of the tunnel outlet installation type tunnel dust collector having the icing prevention function of the present invention As a technical feature.

The direction changing unit of the tunnel exit device with a tunnel exit function having the icing prevention function according to the present invention has an angle controlled by the driving force of the electric motor.

The direction switching unit of the tunnel outlet type tunnel type dust collector having the icing prevention function according to the present invention has an angle controlled by a driving force of a hydraulic cylinder.

In addition, the tunnel outlet type dust collecting structure of the tunnel outlet installation type tunnel dust collector having the icing prevention function according to the present invention is characterized in that a solar panel for generating electric energy by sunlight is formed on the roof.

The tunnel injection device according to the present invention is characterized in that the injection port of the tunnel outlet device of the present invention is fixed to a side wall forming an extension space of the tunnel exit installation type dust collecting structure, A plurality of LED light emitting devices connected to the external power source, the plurality of LED light emitting devices being fixedly mounted on the guide light housing, wherein the plurality of LED light sources are connected to the external power source, And an LED driver driving a plurality of LED light emitting elements.

Further, the present invention further includes a road surface condition monitoring unit installed in an extension space of the tunnel exit installation type dust collecting unit of the tunnel exit installed type tunnel dust collector of the present invention to monitor the road surface condition of the road It is a technical feature.

The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a tunnel-outlet-type tunnel dust collecting apparatus for purifying contaminated air in a relatively low concentration of contaminated air discharged from a tunnel exit, So that it is possible to prevent the road from freezing in the process of injecting purified air through the melt spraying unit.

In addition, the present invention can be designed to have a relatively small processing capacity and can be easily installed at a tunnel exit, and has an effect of relatively increasing spatial efficiency, energy efficiency, and dust collection efficiency.

Particularly, the present invention has an effect of relatively increasing the dust collecting efficiency and performance by using the mixing space in which the contaminated air and the purified air are mixed to lower the contamination concentration of the contaminated air.

In addition, the present invention can relatively reduce the installation cost and reduce the installation period.

In addition, the present invention has an effect of preventing polluted air that has not been purified from being discharged without being cleaned due to movement of a vehicle or the like.

Other advantages of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings. BRIEF DESCRIPTION OF THE DRAWINGS

1 is a representative drawing of Application No. 10-2005-0074863 'Tunnel pollutant complex purification system'
FIG. 2 is a representative drawing of the 'Tunnel air purification system with a tunnel exit at a vehicle', No. 10-2014-0129582,
3 is a conceptual explanatory view of a tunnel outlet installation type tunnel dust collecting apparatus having an icing prevention function according to the present invention,
FIG. 4 is a view for explaining a tunnel exit-type dust collecting structure of a tunnel outlet-type tunnel dust collector having an anti-icing function according to the present invention;
5 is a view for explaining a configuration of a tunnel outlet type tunnel dust collecting apparatus having an icing prevention function according to the present invention,
6 is a view for explaining an electric dust collection unit of a tunnel outlet type tunnel dust collecting apparatus having an icing prevention function according to the present invention,
7 is a view for explaining a multi-cross fin ionizer of a tunnel outlet type tunnel dust collecting apparatus having an icing prevention function according to the present invention,
8 is a view for explaining an activated carbon filter plate of a tunnel outlet type tunnel dust collector having an icing prevention function according to the present invention,
9 is a view for explaining an embodiment of an activated carbon filter unit according to the tunnel outlet-type tunnel dust collector having the icing prevention function according to the present invention,
10 is a view for explaining an embodiment of a direction switching unit according to a tunnel outlet installation type tunnel dust collector having an icing prevention function according to the present invention,
11 is a view for explaining another embodiment of a direction switching unit according to the tunnel outlet installation type tunnel dust collector having the icing prevention function of the present invention,
12 is a view for explaining an embodiment of a tunnel exit installation type dust collector according to a tunnel outlet installation type tunnel dust collector having an icing prevention function according to the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It should also be understood that the position or arrangement of individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

As shown in the figure for conceptually explaining a tunnel outlet installation type tunnel dust collector having an anti-icing function according to the present invention, a tunnel outlet type tunnel dust collector 100 having an anti- S and a dust collecting space S1 and a melted liquid injecting unit 180 installed in an extension space of the tunnel outlet installation type dust collecting structure 110 and a dust collecting system using an induced voltage, An activated carbon filter unit 130 positioned at a rear end of the electric dust collector 120 and a suction port provided at a rear end of the activated carbon filter unit 130 to supply the purified air to the atmosphere The air flow direction of the air is changed so that a portion of the air flow generated by the accelerator pan 140 is directed into the extended space S, It may comprise a driving control unit 160 for controlling the driving direction of the switching section 150 and the raised seolaek ejecting portion 180 and the electric dust collecting part 120 and the accelerator fan section (140).

As described above, according to the tunnel exit-type tunnel dust collecting apparatus 100 having an anti-freezing function according to the present invention, when the purified air is introduced into the extended space S at high pressure through the melt spraying unit 180, The contaminated air 20 discharged from the tunnel 10 is mixed with the purified air 22 to purify the air while the contamination concentration of the contaminated air 20 is lowered.

That is, according to the present invention, the road on which the tunnel exit-type dust collecting structure 110 is located is prevented from being frozen by the high-pressure airflow flowing into the extended space S through the melt spraying unit 180, The polluted air 20-1 having a lower contamination concentration is purified by mixing the purified air 20 and the purified air 22. [

Hereinafter, each constitution of the tunnel outlet installation type tunnel dust collector 100 having the icing prevention function of the present invention will be described in detail.

The tunnel outlet installation type dust collecting structure 110 is a means for providing a space for purifying air discharged from the tunnel 10 and a space for installing necessary structures for purification, And the extension space S and the dust collection space S1 are formed in parallel with each other in a shape and structure that can be installed at the outlet 12 of the tunnel 10.

The tunnel exit installation type dust collecting structure 110 is formed using various building materials such as concrete, reinforcing bar, H beam, panel, and the like.

The tunnel outlet installation type dust collecting structure 110 can be assembled to the outlet 12 of the tunnel 10 by a material and a structure.

 As shown in the figure for explaining the tunnel outlet type dust collector structure of the tunnel outlet type tunnel dust collector having the icing prevention function of the present invention, To form an extension space S which serves as a mixing space for extending the internal space of the tunnel 10 and lowering the contamination concentration of the contaminated air 20 discharged from the inside of the tunnel The side wall 112 is formed.

A dust collecting space S1 as shown in FIG. 4 is formed on the upper portion of the extended space S and a dust collecting space S1 is formed on the bottom surface of the dust collecting space S1 The extension space S and the dust collection space S1 are spatially connected through the suction hole 111. [

 The dust collecting space S1 formed in the upper portion of the extended space S is a closed space connected from the suction hole 111 to the accelerator pan 140. The air sucked through the suction hole And serves to provide a circulation passage through which the air is discharged to be discharged through the accelerator pan section 140.

3, the contaminated air 20 discharged from the tunnel 10 and the purified air 22 discharged from the accelerator pan 140 are mixed in the extended space S, After the contamination concentration of the air 20 is lowered, it is introduced into the dust collecting space S1 and purified, and then discharged to the atmosphere through the accelerator pan 140. [

4, the dust collection space S1 of the tunnel outlet installation type dust collection structure 110 includes a first installation space S11 in which the electric dust collection unit 120 and the activated carbon filter unit 130 are installed, And a second installation space S12 in which the accelerator pan portion 140 is installed.

The first dust collecting part 120 and the activated carbon filter part 130 are arranged in a first space S11 which is the same space and the accelerator pan part 140 is provided in a spatially separated second space S12, It is possible to reduce the loss of the suction force generated in the accelerator pan unit 140 and to further facilitate the maintenance of the accelerator pan unit 140, the electric dust collector 120, and the activated carbon filter unit 130.

4, the first installation space S11 of the dust collecting space S1 formed in the tunnel exit installation type dust collecting structure 110 is connected to the accelerator pedal 140 in the suction hole 111, It is preferable that the space is gradually reduced in width as it goes to the second installation space S12 provided with the second installation space S12.

This is to allow the air in the first installation space S12 to be smoothly discharged as the flow rate of air in the first installation space S12 increases as the air in the dust collection space S1 is discharged to the atmosphere through the accelerator pan portion 140 .

As shown in FIG. 5 for explaining the construction of the tunnel outlet installation type tunnel dust collecting apparatus having the icing prevention function of the present invention, the melting liquid spraying unit 180 is installed in the extension space (not shown) of the tunnel outlet installation type dust collecting structure 110 S and a melt solution supply unit 183 connected to the melt solution injection head 181 through a pipe 182 to supply a melt solution.

5, the plurality of injection nozzles 1812 may include a plurality of injection nozzles 1812. The plurality of injection nozzles 1812 may include a plurality of injection nozzles 1812, (1811).

That is, the spray head body 1811 is connected to the pipe 182 to which the melt is supplied, and is supplied with the melt liquid from the melt liquid supply means 183.

Thus, the melt is introduced into the internal space of the injection head body 1811 through the pipe 182 and injected at a high pressure through the plurality of injection nozzles 1812.

The spray head body 1811 may be made of a metal material and may have various shapes in addition to the shape shown in FIG. 5, in which the spray nozzle 1812 can be installed to widely spray the melt. .

For example, as shown in the example of the ejection head body 1811 shown in Fig. 5, the ejection nozzles 1812 are provided on the ejection surface, and the ejection nozzles 1812 are provided along the curved surfaces at predetermined intervals The curvature of the curved surface allows the entire width of the sprayed liquid to be expanded.

In addition to the form shown in FIG. 5, the ejection head body 1811 can be implemented in various forms as needed.

The injection nozzle 1812 can be any of a variety of liquid injection nozzles capable of ejecting the melt as widely as possible and is not limited to any particular shape or structure of injection nozzles.

5, the melt spray injection head 181 is fixed to the side wall forming the extended space S of the tunnel outlet installation type dust collecting structure 110, A jetting head body 1811 having a plurality of jetting nozzles 1812 formed therein for jetting the jetting liquid from the jetting liquid supply means 183 and spraying the jetting liquid onto the roads and the jetting head body 1811 fixedly coupled to the jetting head body 1811, And an induction lamp 184 which emits light for driving.

As shown in FIG. 5, the guide light housing 1841 fastened to the upper portion of the injection head body 1811 and the guide light housing 1841 fastened to the guide light housing 1841 And an LED driving unit 1843 connected to the external power source and driving the plurality of LED light emitting devices 1842.

The guide light housing 1841 has a closed space for installing the LED driver 1843 therein and has a structure in which the LED light emitting element 1842 can be installed, .

The induction lamp housing 1841 may be made of various materials such as metal, non-ferrous metal, or synthetic resin, but it is preferable that the induction lamp housing 1841 is made of a non-ferrous metal having a high thermal conductivity to facilitate heat dissipation.

The LED light emitting device 1842 is a low-emission high-efficiency light emitting device commonly referred to as an 'LED'. In the present invention, the LED device is not limited to any specific LED device but uses a conventional LED device.

However, it is preferable that the LED light emitting element 1842 is 0.5 watt or more, so that the driver can confirm the road shape by the melt spray head 181 according to the present invention from a distance and can make a boundary Do.

The LED driving unit 1843 is installed in the guiding lamp housing 1841 and is connected in circuit with the LED light emitting device 1842 to receive a power supplied from the outside to drive a plurality of LED light emitting devices 1842.

The LED driver 1843 may be a connection circuit for electrically connecting an external power source and a plurality of LED light emitting devices 1842 or may be a flashing circuit for blinking a plurality of LED light emitting devices 1842.

The connection between the LED driver 1843 and the external power source is connected through various wires such as an electric wire inserted into the guide light housing 1841.

On the other hand, the melt fluid supply means 183 includes a tank for storing the melt, a pump for supplying the melt fluid stored in the tank at a high pressure, a pump controller for controlling the pump, and the like. And drives the pump to supply the molten liquid at the high pressure through the pipe 182 to the molten liquid injection head 181.

Such a melt fluid supply means 183 is not limited to any specified melt fluid supply means as a conventional melt fluid supply means for supplying a melt fluid.

Further, the melt spraying unit 180 according to the present invention further includes a road surface condition monitoring unit 185, as shown in FIG.

The road surface condition monitoring unit 185 is installed in the extended space S of the tunnel exit type dust collecting structure 110 to monitor the road surface condition of the road.

The road surface condition monitoring unit 185 automatically detects the temperature of the road surface, such as the road surface temperature, humidity, etc., through the various sensors that detect the state of the road surface, Or to acquire images capable of grasping the state of the road surface by a means such as a surveillance camera, and to drive the fusion liquid supply means 183 in accordance with an image acquired by the surveillance camera at a spaced apart position .

5, the electric dust collecting unit 120 is installed in the dust collecting space S1 and is positioned at the rear end of the suction hole 111 to collect the contaminated air 20 in the extended space S, Such as fine dust contained in the contaminated air 20-1 flowing through the suction hole 111 in a state where the contamination concentration of the polluted air 20 is lowered by mixing the purified air 22 with the purified air 22, Is collected by the induced voltage method.

As shown in the drawings for explaining the electric dust collection unit of the tunnel outlet type tunnel dust collector having the icing prevention function according to the present invention, 6, the electric dust collecting unit 120 is formed in the shape of a dust collecting wall formed across the dust collecting space S1 by stacking a plurality of electric filter blocks 122 on a plane.

The dust collecting wall type electrostatic precipitator 120 including the electric filter block 122 is generally formed in one stage as shown in FIG. 6, but in the case where the pollution concentration is relatively high, .

That is, the total dust collection area of the electric dust collection unit 120 is increased by using a plurality of dust collection walls made of the electric filter block 122.

6, the front, rear, upper and lower surfaces of the electric filter block 122 are opened and the both sides thereof are closed and installed in the interior of the electric filter block 122, And a filter block housing 1221 having a guide 1222 for guiding polluted air to the center of the installation space.

In addition, a plurality of projections 1224-2 are formed along the length direction in the shape of a saw having a predetermined length for charging the object to be trapped by the corona discharge, which is provided on the front surface of the filter block housing 1221 and connected to the high- And a charging unit 1223 in which a plurality of ionizers 1224 are arranged in parallel.

The dust collecting electrode 1226 and the dust collecting electrode 1226 are disposed in the installation space of the filter block housing 1221 on the rear side of the charging unit 1223 and are provided with parallel grounded metal plates to collect the charged objects to be collected. And an induction voltage plate 1227 for generating a voltage induced by the charging unit 1223 without electrical connection.

That is, as shown in FIG. 6, the dust collecting unit 1225 that collects the charged collecting object has a stacked structure in which the collecting electrode 1226 and the induction voltage plate 1227 are alternately arranged at regular intervals, 1226 and the induction voltage plate 1227, an electrical force acts on the charged object to be collected in the direction of the dust collecting electrode 1226 and is collected.

As shown in the figure for explaining the multi-cross fin ionizer of the tunnel outlet type tunnel dust collector having the icing prevention function of the present invention, the ionizer 1224 is formed in a shape of a saw, Crossing pin ionizer 1224-1 in which a plurality of side projections 1224-3 are formed in the longitudinal direction in which a plurality of projections 1224-2 are formed along the direction of the corrugation 1224-2 and corona discharge is generated on both sides .

The multi-cross fin Ionizer 1224-1 is connected to the high voltage supplying means to generate a corona discharge, and has a predetermined length for charging the fine particles, and has a plurality of projections 1224-2 A plurality of side projections 1224-3 are formed in the longitudinal direction to cause corona discharge on both sides of the at least one projection type discharge electrode in which the fine particles are charged. .

As shown in FIGS. 3, 5 and 6, the activated carbon filter unit 130 is disposed at the rear end of the electric dust collector 120, and includes carbon monoxide (CO) ), Nitrogen oxides (NO _x ) and volatile organic compounds (VOC).

8, the activated carbon filter plate 130 includes an activated carbon filter plate 132 and a plurality of activated carbon filter plates 132. The activated carbon filter plate 130 includes an activated carbon filter plate 132, .

8, the activated carbon filter plate 132 includes a honeycomb board 1321 having a plurality of hexagonal through holes 1321-1 connected to each other in a plane, And the activated carbon chip 1323 is included in the hexagonal through hole 1321-1.

It is preferable that the honeycomb board 1321 and the net 1322 are made of a synthetic resin material and that the activated carbon chip 1323 charged in the hexagonal through hole 1321-1 is in contact with the hexagonal through hole 1321-1 It is preferable to fill the inner volume by about 40% to 60%.

This is for smooth air flow, and if the activated carbon chip 1323 is filled in the hexagonal through hole 1321-1 excessively, it may interfere with the smooth flow of air and the efficiency may be lowered.

As shown in FIG. 8, the activated carbon filter plate 132 is formed in a plate shape, so that the activated carbon filter unit 130 can be formed in various shapes.

That is, the activated carbon filter unit 130 according to the present invention arranges a plurality of the activated carbon filter plates 132 as described above in a planar manner to remove carbon monoxide (CO), nitrogen Oxide (NO _x ) and volatile organic compound (VOC) are adsorbed and removed by the activated carbon chip 1323.

The activated carbon filter unit 130 using the activated carbon filter plate 132 is shown in FIG. 9 for explaining an embodiment of the activated carbon filter unit according to the tunnel outlet device of the present invention having the icing prevention function. It is preferable to include a fixed frame 134 of a screen wind structure made of an aluminum material or a stainless steel material and to mount the activated carbon filter plate 132 on the fixed frame 134. [

That is, the activated carbon filter unit 130 has an advantage that the filtering area can be relatively increased by using the fixed frame 134 having a screen wind structure as shown in FIG. 9, (132) is used to facilitate maintenance.

As shown in FIGS. 3, 5 and 6, the accelerator pan 140 is provided at the rear end of the activated carbon filter unit 130 to provide a suction force to the suction hole 111, and the suction hole 111 To pass through the electrostatic precipitator 120 and the activated carbon filter unit 130 and to discharge the purified air to the atmosphere.

As shown in FIG. 3, the accelerator pan 140 includes a fan that rotates at a high speed, such as a conventional jet fan, to generate a high- S can be forced to be sucked through the suction hole 111. [0064]

Meanwhile, the output and the number of the accelerator pedal 140 can be selectively applied according to the internal volume of the extended space S.

That is, the accelerator pedal 140 may be a single accelerator pedal or a plurality of accelerator pedals as shown in FIG.

3 and 5, the direction switching unit 150 is located at the rear end of the accelerator pedal 140 installed inside the tunnel exit installation type dust collecting structure 110, And is configured to switch the flow direction of the air so that a part of a flow of air discharged from the accelerator pan unit 140 can be directed into the extended space S, which is formed outside the tunnel exit-type dust collecting structure 110, As shown in FIGS. 3 and 5, a portion of the air flow generated in the accelerator pan 140 is installed in an upper portion of an outlet of the tunnel outlet installation type dust collecting structure 110 to extend an extension of the tunnel outlet installation type dust collector 110 And serves to redirect a part of the airflow so that it can be directed into the space S.

That is, in order to mix the contaminated air 20 discharged from the tunnel 10 and the purified air 22 discharged from the accelerator pan unit 140 in the internal space S, The direction of the airflow is switched so as to direct a part of the airflow of the purified air 22 propelled by the accelerator pan 140 to the internal space S.

As shown in Fig. 10 for explaining an embodiment of the direction changing portion according to the tunnel outlet type tunnel dust collecting device having the icing prevention function of the present invention, in the embodiment of the direction switching portion 150, And an inner side surface 151 facing the accelerator pedal 140 is formed in a concave shape in a plate shape.

A part of the air flow generated by the accelerator pan 140 is guided by the concave inner side surface 151 of the direction switching unit 150 in the direction of the extension space S of the tunnel exit installation type dust collecting structure 110 .

As shown in FIG. 11, the direction switching unit 150 includes a direction switching unit 150 and a direction switching unit 150. The direction switching unit 150 includes a direction switching unit 150, And an air nozzle 152 formed in the lower portion of the inner side surface 151 to form an air curtain A3 around the outlet of the tunnel outlet installation type dust collecting structure 110. [

The air nozzle 152 is formed in a slit shape below the inner side surface 151 of the direction switching unit 150 so that air flows A1 and A2 formed by the accelerator pan unit 140 are supplied to the direction switching unit 150 A part of the air flows A2 whose direction has been changed is injected through a slit-shaped nozzle to form an air curtain A3 at the outlet of the tunnel outlet installation type dust collecting structure 110. [

The air curtain A3 is a wind film sprayed at a high pressure at the outlet of the tunnel outlet installation type dust collecting structure 110. The contaminated air 20 in the extension space S of the tunnel outlet installation type dust collecting structure 110, And the like.

Although the air 20 contaminated by the air flow A2 flowing into the extended space S by the direction switching unit 150 does not easily flow out to the atmosphere, It is possible to remarkably reduce the outflow of the polluted air 20.

10 and 11 so that the air flow generated by the accelerator pedal 140 can be changed by about 40% to 60% of the air flow generated by the accelerator pedal 140, The direction changing unit 150 may be vertically moved or adjusted in a state where the direction switching unit 150 is installed so that the direction and the direction of the air flow can be adjusted. This can be done by the driving force of the motor or by the driving force of the hydraulic cylinder.

When the direction switching unit 150 is moved up or down or the angle is adjusted by the electric motor or the hydraulic cylinder, gears for operating the direction switching unit 150 according to the electric motor or the hydraulic cylinder that provides the driving force, Axis, and the like.

Finally, as shown in FIG. 3, the tunnel-type dust collecting apparatus 100 having a tunnel-outlet-equipped function according to the present invention includes a drive control unit 160.

The drive control unit 160 controls the driving of the electric dust collecting unit 120 and the accelerator pedal 140. When the direction switching unit 150 is driven by an electric motor or a hydraulic cylinder, Thereby controlling the operation of the hydraulic cylinder.

The driving control unit 160 controls driving of the electric dust collecting unit 120 and the accelerator pan unit 140 by a program set according to the frequency of vehicle use of the tunnel by day or time, The operation of the electric dust collecting unit 120 and the accelerator pan unit 140 can be controlled according to the air pollution degree detected by the sensor.

The tunnel outlet installation type dust collection structure 110 of the tunnel outlet installation type tunnel dust collector having the icing prevention function according to the present invention is similar to that of the tunnel outlet installation type dust collector structure of the present invention, As shown in the drawings for explaining an example, it is preferable to form a solar panel 170 on a roof for producing electric energy by sunlight.

The solar panel 170 is an ordinary solar power generating means for generating electric energy by using sunlight. The solar panel 170 includes an inverter and a battery and uses renewable energy using solar light, The energy efficiency of the tunnel dust collecting apparatus can be increased.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, And such variations and modifications are intended to fall within the scope of the appended claims.

10: Tunnel
12: Exit of tunnel
20: Contaminated air
22: purified air
110: Tunnel exit-type dust collecting structure
111: Suction ball
120: electric dust collector
122: electric filter block
130: Activated carbon filter unit
132: activated carbon filter plate
134: Fixed frame
140: Accelerator pan
150:
151: My side
152: Air nozzle
160:
170: solar panel
180:
181: Dewatering liquid spray head
182: pipe
183: Dewatering liquid supply means
184: Guide light
185: Surface condition monitoring section
1221: Filter block enclosure
1222: Guide
1223:
1224: Ionizer
1225:
1226: dust collecting electrode
1227: Induced voltage plate
1321: Honeycomb board
1322: Network
1323: Activated carbon chip
1811: injection head body
1812: Spray nozzle
1841: Guide light enclosure
1842: LED light emitting element
1843: LED driver

Claims (13)

An extension space fixedly installed at an exit of a tunnel of a vehicle and serving as a mixing space for extending the inner space of the tunnel and lowering the contamination concentration of contaminated air discharged from the inside of the tunnel and having a dust collecting space formed on the upper portion of the extension space A tunnel outlet connected to the extended space through a suction hole formed in a bottom surface of the dust collecting space located at the beginning of the extended space and providing a circulation path through which the air sucked through the suction hole flows, Installation type dust collecting structure;
A plurality of molten liquid injection heads installed in an extension space of the tunnel exit type dust collecting structure, and a melt liquid supply unit connected to the melt liquid injection head through pipes to supply a melt fluid;
An electric dust collection unit installed in the dust collection space and collecting fine dust contained in air introduced through the suction hole at a rear end of the suction hole by a dust collection method using an induction voltage;
Located downstream of the electrical dust collecting part, a carbon monoxide (CO), the active carbon filter unit for removing nitrogen oxide (NO _X) and volatile organic compound (VOC) contained in the fine dust removal, including activated carbon chip air;
An accelerator pan provided at a rear end of the activated carbon filter unit to provide a suction force to the suction hole and discharge the purified air to the atmosphere;
A direction in which a flow direction of the air is changed so that a part of the air flow generated in the accelerator pan portion can be directed into the extended space, A switching portion; And
And a drive control unit for controlling driving of the molten liquid spraying unit, the electric dust collection unit, and the accelerator pan unit,
The direction-
An inner surface facing the accelerator pedal is formed in a concave shape and is angularly adjusted by a driving force of an electric motor or a driving force of a hydraulic cylinder; And a tunnel outlet installed type tunnel dust collector having an anti-freezing function. The dust collecting apparatus according to claim 1,
Wherein the space is gradually narrowed from the suction hole to the accelerator fan portion. The electric dust collecting apparatus according to claim 1,
The front surface, the rear surface, the upper surface and the lower surface are opened and both side surfaces are closed to provide an installation space inside, and the front surface guides the contaminated air to the center of the installation space based on the direction in which the air contaminated by the rectangular parallelepiped structure flows A plurality of protrusions formed along the longitudinal direction in a shape of a saw having a predetermined length for charging the object to be collected by the corona discharge, the dust block being provided on the front surface of the dust collecting block housing and connected to the high voltage applying means, A dust collecting electrode disposed continuously in parallel with a grounded parallel metal plate located in the installation space at the rear of the charging unit and collecting the charged objects to be collected; An induction voltage plate for generating a voltage induced by the charging unit without connection Tunnel exit-standing tunnel dust collecting apparatus having an anti-icing function, characterized by; eojin the electrostatic precipitator dust collection will be made of a block including a laminated vertically and horizontally. 4. The method of claim 3,
And a multi-cross fin ionizer in which a plurality of side projections are formed in the longitudinal direction to cause corona discharge on both sides of the tunnel insulator. The method of claim 1, wherein the activated carbon filter portion
And an activated carbon filter plate comprising a honeycomb board formed by connecting a plurality of hexagonal through holes in a plane and a mesh connected to both sides of the honeycomb board, wherein an activated carbon chip is included in the hexagonal through hole,
Wherein a plurality of the activated carbon filter plates are arranged in a plane. 6. The apparatus of claim 5, wherein the activated carbon filter portion
And a fixed frame of a screen structure made of an aluminum material or a stainless steel material,
And the activated carbon filter plate is mounted on the fixed frame. delete [2] The apparatus according to claim 1,
And an air nozzle formed in a slit shape at the lower portion to form an air curtain around the outlet of the tunnel exit-installed dust collecting structure. delete delete [2] The dust collecting structure according to claim 1,
And a solar panel for generating electric energy by sunlight is formed on the roof. The method according to claim 1,
A jetting head body fixed to a side wall forming an extension space of the tunnel exit installation type dust collecting structure and having a plurality of jetting nozzles for receiving the flux from the melt fluid feeding means through the pipe and jetting onto the road, And a plurality of LED light emitting devices fixed to the guide light housing and an LED driving unit connected to an external power source to drive the plurality of LED light emitting devices, Tunnel type dust collector. The method according to claim 1,
And a road surface condition monitoring unit installed in an extension space of the tunnel exit type dust collecting structure to monitor the road surface condition of the road.

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