KR101649571B1 - Yard fugitive dust protection apparatus - Google Patents

Abstract

The present invention relates to an apparatus for preventing scattered dust in a yard, which comprises a water supply pipe arranged in a yard to store coal, building waste, etc., and arranged to be buried in a yard, a water supply device connected to the water supply pipe to supply water; A column connected to the water supply pipe and vertically installed at an upper portion of the yard; A spraying unit formed at an upper end of the strut and connected to the water supply pipe to spray water; A camera mounted on one side of the injection unit to photograph the periphery thereof; A monitoring device connected to the camera via a wired or wireless connection to receive an image photographed; And a central control unit connected to the monitoring device and remotely operating a photographing angle and a photographing point of the camera.
According to this, since the height of the support can be actively adjusted according to the height change due to the increase of the yard of the yard, it is possible to adjust the height of the injection unit to improve the injection efficiency, So that it can be installed at the most necessary position, and dust removal efficiency can be improved.

Description

{Yard fugitive dust protection apparatus}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an anti-scattering dust prevention device for a yard, and more particularly, to an anti-scattering dust prevention device for preventing scattering dust generated in a yard that stores steel byproducts such as slag, dust and sludge.

Generally, large amounts of coke, such as coal-fired power plants and steel mills, are loaded with coal in large quantities at facilities that use coal as raw material.

In addition, the construction waste is collected in one place, and the wasted construction waste is used as the material for the landfill of the construction work, so it must be collected in a large amount in the yard.

Construction wastes are collectively referred to as sand, gravel, garbage, waste wood, waste materials, waste concrete, rebar, vinyl, styrofoam, paper and the like, which are emitted from construction sites and civil engineering works. The amount of emissions is increasing day by day.

In the yard where the coal and the waste aggregate are piled up, dust is always generated and the damage is caused to the surroundings. Therefore, dust scattering prevention equipment is required to prevent this.

Korean Utility Model Application No. 20-2006-0032942 discloses a technique related to a scattering dust suppression facility.

On the other hand, in the prior art, it is difficult to adjust the height of the spray nozzle actively in case the height of the field of the yard is increased or decreased. In addition, it is not easy to disassemble and assemble in preparation for the position fluctuation of the yard. There was a disadvantage that the shooting equipment was insufficient.

Disclosure of the Invention The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a water jet nozzle capable of actively adjusting the height of a water jet nozzle according to a change in height of a yard, And an object of the present invention is to provide a device for preventing scattering dust in a yard with a photographing means capable of monitoring in real time.

The above object of the present invention can be achieved by a water supply pipe installed in a yard where the coal, building waste, etc. are loaded, and arranged to be buried in the yard, a water supply device connected to the water supply pipe to supply water; A column connected to the water supply pipe and vertically installed at an upper portion of the yard; A spraying unit formed at an upper end of the strut and connected to the water supply pipe to spray water; A camera mounted on one side of the injection unit to photograph the periphery thereof; A monitoring device connected to the camera via a wired or wireless connection to receive an image photographed; And a central control unit connected to the monitoring device for remotely controlling the photographing angle and the photographing point of the camera.

The water supply device includes a water tank connected to a water supply pipe and storing water, and a pump connected to the water supply pipe and supplying water to the water tank.

The support is formed by joining a plurality of hollow pipes, and the first and second end pipes are coupled to each other by fastening means so that the second end pipe can be detachably attached to the first end pipe.

The injection unit includes a body having a discharge hole formed at its front end and having a water supply pipe formed therein, a water supply hose connected to the water supply pipe to supply high-pressure water, an inner pipe body formed at one end of the water supply pipe, And a guide vane is formed in a spiral shape to form a guide vane.

And a rotating blade is formed at an end portion of the body so that water particles are finely dispersed and rotated.

The camera is based on a weekly photographing function and has an infrared ray function capable of photographing at night.

The camera is provided with a rotating means to set an angle, and the rotating means is constituted by a motor for rotating the camera, a main gear connected to the motor, and a longitudinal synchronous gear which is gear-engaged with the main gear and connected to the camera .

According to the present invention, the height of the support can be actively adjusted according to the height change due to the increase of the yard of the yard, so that the height of the injection unit can be adjusted to improve the injection efficiency, and the support can be easily disassembled and assembled So that it can be installed in the most necessary position, and dust removal efficiency can be improved.

In addition, it is possible to observe the field conditions in real time, so that the field conditions can be observed from a long distance, and the water dispensing position can be adjusted while confirming the state of water spraying and dust removal on the yatch water, There is an effect that can protect.

1 is a perspective view of a scattering prevention device for a yard, according to the present invention,
FIG. 2 is a schematic view showing an apparatus for preventing scattering dust in a yard area according to the present invention;
FIG. 3 is a partial schematic view of a yard scattering dust prevention device according to the present invention,
FIG. 4 is an enlarged view of a main portion of a yard scattering dust prevention device according to the present invention,

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. It does not mean anything.

In addition, the sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation, and the terms defined specifically in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user, operator It should be noted that the definitions of these terms should be made on the basis of the contents throughout this specification.

1 is a perspective view showing an apparatus for preventing scattering dust in a yard according to the present invention, FIG. 2 is a view showing the apparatus for preventing scattering dust in a yard according to the present invention, and FIG. 3 is a view showing a scattering- Fig. 4 is an enlarged view of the main portion of the yard scattering dust prevention device according to the present invention. Fig.

1 to 4, the yard scattering dust prevention apparatus according to the present invention is installed in a yard (W) for loading coal, building waste, etc., and is installed in a yard (W) A hose (22), a water supply device (2) connected to the water supply hose (22) and supplying water thereto; A strut (4) connected to the water supply hose (22) and vertically installed on the upper part of the yard; A spray unit (5) formed at the upper end of the strut (4) and connected to the water supply hose (22) to spray water; A camera (6) mounted on one side of the injection unit (5) and photographing the periphery thereof; A monitoring device 7 for receiving an image captured by a wired or wireless connection with the camera 6; And a central control unit (8) connected to the monitoring device (7) for remotely controlling the photographing angle and the photographing point of the camera (6).

The water supply device 2 is connected to the water supply hose 22 and includes a water tank 24 for storing water and a pump 26 connected to the water supply hose 22 and supplying water to the water tank 24 .

The strut 4 is formed by a plurality of hollow pipes connected to each other by a fastening means so that the lower end first pipe 41 and the second end pipe 42 are detachably attached to the upper end of the first end pipe 41.

In order to enhance the fixing force of the column 4, a pedestal 3 made of concrete may be embedded in advance on the ground. The pedestal (3) is provided with a coupling hole for inserting the lower end of the column (4).

As an example of the fastening means,

A male screw 411 formed on the upper peripheral surface of the first end pipe 41;

And a female screw 422 formed on a lower inner peripheral surface of the second end pipe 42.

Accordingly, the first end pipe 41 and the second end pipe 42 can be fastened together by coupling the male screw 411 and the female screw 422, respectively, and can be disengaged by unscrewing.

Of course, it is natural that a plurality of pipes such as a third-stage pipe and a fourth-stage pipe may be further provided.

On the other hand, another example of the fastening means includes a fitting projection 413 formed on the upper outer peripheral surface of the first end pipe 41; And a fitting groove 425 formed in the lower inner circumferential surface of the second end pipe 42.

Therefore, the fitting protrusion 413 of the first end pipe 41 is connected to the fitting groove 425 of the second end pipe 42 by force.

Of course, it is natural that a plurality of pipes such as a third-stage pipe and a fourth-stage pipe may be further provided.

In this way, the height of the pillar 4 can be adjusted by connecting the pillar 4 with a multi-stage pipe, so that the length of the pillar can be increased or decreased corresponding to the height change of the pillar.

In addition, when the deformation such as the bending of the support is generated due to the pressure of the barrel water and it is damaged, it can be replaced promptly and the use becomes convenient.

On the other hand, the injection unit 5 includes a body 52 having a discharge hole 520 formed at the front end thereof and a water supply pipe 524 formed therein, and a water supply hose 22 connected to the water supply pipe 524 so as to supply high- And the inner tubular body 54 is formed at one end of the water supply pipe 524.

The inner tubular body 54 is formed with a guide vane 542 in a spiral shape to form a vortex in the inner peripheral wall.

Thus, while passing through the inner tubular body 54, the water can rotate along the guide vane 542 to form a vortex.

A rotary vane 55 is formed on the discharge side of the inner tubular body 54. The shaft 551 of the rotary vane 55 is coupled to the center of the stopper 543 formed on the discharge side of the inner tubular body 54 and a plurality of through holes 544 are formed radially in the stopper 543. [

The water that has been converted into the eddy current can be discharged through the plurality of through holes 544, the discharged water collides with the rotating vane 55 and is finely dispersed, and the rotating vane 55 is rotated, .

On the other hand, the camera 6 is installed at the upper end of the support, and has an infrared ray function that is based on a daytime photographing function and can be photographed even at night.

Further, the camera 6 is equipped with the rotating means 60, and the angle can be set to the left and right, so that the camera 6 can photograph the surroundings. Or the angle can be adjusted up and down.

The rotating means 60 includes a motor 602 for rotating the camera 6, a driven gear 604 connected to the motor 602, a driven gear 602, which is gear-engaged with the driven gear 604 and is connected to the camera 6 606).

On the other hand, the monitoring device 7 includes a monitor for displaying an image, a storage unit for storing the image, and a setting unit for setting the image storage time.

A sensor unit 9 is formed on one side of the column 4, and the sensor unit 9 includes a temperature sensor, a humidity sensor, and a dust sensor.

Accordingly, the temperature, humidity, and amount of dust are detected, and the temperature, humidity, and dust amount data are sent to the central control unit 8. The central control unit 8 receives the data, So that the water injection amount can be adjusted.

The central control unit 8 controls the on / off operation of the water supply device 2 to supply the water in the water tank 24 to the injection unit 5 and the high pressure air is supplied to the injection unit 5 The water is sprayed in the state of a water-like particle with a strong spraying force, and at the same time, the water is caused to cause a whirl.

Hereinafter, the operation of the present invention will be described.

The entire area of the yard is divided so that a virtual line such as a checkerboard is formed and the pedestal 3 is embedded at the intersection to set the installation position of the support 4. [

The struts 4 are assembled and vertically installed in the respective pedestals 3 and the camera 6 and the injection unit 5 are mounted on the upper ends of the respective struts 4. [

The camera 6 is connected to the external central control unit 8 and the monitoring device 7 wirelessly or by wire.

Thereafter, the water supply hose 22 of each strut 4 is inserted into the strut 4 of the injection unit 5 and connected.

Thereafter, the water supply device 2 is turned on to supply high-pressure water to the water supply pipe 524 of each injection unit 5 through the water supply hose 22.

The high-pressure water passes through the guide vane 542 of the inner tubular body 54 to form a vortex, and is then discharged to the outside while being dispersed in an atomized state after colliding with the rotary vane 55.

Therefore, the jetting unit 5 provided in each of the plurality of pillars 4 simultaneously injects water in an atomized state, so that it is possible to collect dust over the entire area of the yard field, thereby suppressing dust scattered to the outside.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it will be apparent to those skilled in the art that various modifications and variations can be made without departing from the spirit and scope of the invention, It is obvious that the claims fall within the scope of the claims.

2: water supply device 4: holding
5: injection unit 6: camera
7: Monitoring device 8: Central control part
42, 42: first and second pipes 52:
54: inner tubular body 60: rotating means

Claims (8)

Coal, construction waste, etc.,
A water supply pipe arranged to be buried in a yard; a water supply device connected to the water supply pipe to supply water;
A column connected to the water supply pipe and vertically installed at an upper portion of the yard;
A spraying unit formed at an upper end of the strut and connected to the water supply pipe to spray water;
A camera mounted on one side of the injection unit to photograph the periphery thereof;
A monitoring device connected to the camera via a wired or wireless connection to receive an image photographed;
A central control unit connected to the monitoring device for remotely operating an image capturing angle and a photographing point of the camera and controlling operation of the water supply device; And
Humidity, and dust, and provides the central control unit with data on the amount of temperature, humidity, and dust, so that the amount of water sprayed from the water supply device is adjusted according to the data And a sensor unit,
The injection unit includes a body having a discharge hole formed at a front end thereof and having a water supply pipe formed therein, an inner tube body formed at one end of the water supply tube, a cap formed at the discharge side of the inner tube body and having a plurality of through holes formed therein, A rotating blade,
A water supply hose is connected to the water supply pipe so as to supply high-pressure water, a guide vane is formed in a spiral shape so that a vortex is formed in an inner peripheral wall of the inner pipe,
Wherein the sensor unit includes a temperature sensor, a humidity sensor, and a dust sensor. The method according to claim 1,
The strut is formed by joining a plurality of hollow pipes,
Wherein the lower pipe and the upper pipe are coupled by a fastening means so as to be detachable. The method according to claim 1,
Wherein the water supply device includes a water tank connected to the water supply pipe and storing water, and a pump connected to the water supply pipe and supplying water to the water tank. The method according to claim 1,
The camera is provided with rotation means to set an angle,
Wherein the rotating means comprises a motor for rotating the camera, a main gear connected to the motor, and a longitudinal synchronous gear which is gear-engaged with the main gear and connected to the camera. The method according to claim 1,
Wherein the monitoring device includes a monitor for displaying an image, a storage for storing an image, and a setting unit for setting an image storage time. delete delete delete

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