KR102538427B1 - Painting apparatus for trnsmission tower - Google Patents

Abstract

Transmission tower painting equipment includes a power generating device, a paint container that accommodates paint, a spray device that charges and sprays the paint supplied from the paint container using the power of the power generating device, and the sprayer. A compressed air supply device providing compressed air for scattering paint to the device side, and an anode cable electrically connecting the anode of the power generating device to the transmission tower.

Description

Painting equipment for transmission tower {PAINTING APPARATUS FOR TRNSMISSION TOWER}

The present invention relates to a painting equipment for a transmission tower, and more particularly, the present invention relates to a painting equipment for a transmission tower capable of applying paint to a transmission tower in an electrostatic manner.

In general, the process of transporting electric power generated in a power plant to a power consumer is called power transmission, and a tower for supporting a transmission line used at this time is called a transmission tower. Transmission towers are spaced apart from each other and installed on the ground, and transmission lines are supported by the transmission towers.

Meanwhile, transmission towers are painted with paint to prevent corrosion of transmission towers and to beautify the environment. As a method of painting the transmission tower, a method in which a worker directly paints the transmission tower with a brush after ascending the tower and a method using a mechanical spray gun are mainly used. The method using a brush is inconvenient because the worker has to carry the paint container and brush by hand after climbing the transmission tower, and the paint thickness is not constant depending on the nature of the manual work, and the paint loss is high. In addition, the method of utilizing a mechanical spray gun has limitations in how to use it because the paint is scattered around the transmission tower by the wind.

An object of the present invention is to provide a painting equipment for a transmission tower capable of easily applying paint to the transmission tower.

In order to achieve the object of the present invention described above, a transmission tower painting facility for painting a transmission tower includes a power generating device, a paint container for accommodating paint, and a power supply provided from the paint container using the power of the power generating device. It includes a spray device that charges and sprays the paint, a compressed air supply device that supplies compressed air that scatters the paint to the spray device, and an anode cable electrically connecting the anode of the power generator to the transmission tower.

In one embodiment of the present invention, the compressed air supply device may be installed on the ground where the transmission tower is installed, and the anode cable may be electrically connected to a lower end of the transmission tower adjacent to the ground.

In one embodiment of the present invention, the power generation device and the paint container may be coupled to the spray device.

In one embodiment of the present invention, the transmission tower painting equipment further includes a compressed air pipe connecting the compressed air supply device to the spray device and a paint pipe connecting the paint container to the spray device. The anode cable extends from the power generator coupled to the spray device toward the lower end of the transmission tower.

Another transmission tower painting equipment for achieving the above object of the present invention is a power generation device, a spray device that charges and sprays paint using the power of the power generation device, and an electrode pad electrically connected to the anode of the power generation device. , and a portable package wearable on the body. The portable package includes a paint container for accommodating paint, and a compressed air supply device for providing compressed air for scattering the paint toward the spray device.

In one embodiment of the present invention, the electrode pad includes a conductor exposed to the outside.

In one embodiment of the present invention, the portable package is implemented as a backpack.

In one embodiment of the present invention, the power generation device is coupled to the spray device.

In one embodiment of the present invention, the transmission tower painting equipment includes a compressed air pipe connecting the compressed air supply device to the spray device, a paint pipe connecting the paint container to the spray device, and an anode of the power generating device. A cathode cable electrically connected to the electrode pad is further included.

In one embodiment of the present invention, the portable package further includes a battery for providing power to the compressed air supplier.

In one embodiment of the present invention, the electrode pad is coupled to the lower end of the work shoe.

In one embodiment of the present invention, the transmission tower painting equipment further includes overshoes made of an insulating material and covering the bottom of the work shoes.

In one embodiment of the present invention, the electrode pad is coupled to the bottom surface of the overshoe.

According to an embodiment of the present invention, when a transmission tower is painted using compressed air and paint provided from a spray device, even if the paint is scattered in the air, the scattered paint is easily settled on the frames of the transmission tower by electrical attraction. and a uniform coating thickness can be obtained. Therefore, the efficiency of the painting process of the transmission tower can be improved, and the effect of reducing the amount of paint lost in the air due to scattering can occur.

1 is a diagram schematically showing a painting facility for a transmission tower according to an embodiment of the present invention.
Figure 2 is a view showing the spray device shown in Figure 1.
3 is a diagram schematically showing a painting facility for a transmission tower according to another embodiment of the present invention.
FIG. 4 is a rear view of a first overshoe coupled to the first electrode pad shown in FIG. 3 .

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Objects, features and effects of the present invention described above will be understood through the embodiments related to the drawings. However, the present invention is not limited to the embodiments described herein, and may be applied and modified in various forms. Rather, the embodiments of the present invention to be described below are provided so that the technical spirit disclosed by the present invention can be more clearly explained, and furthermore, the technical spirit of the present invention can be sufficiently conveyed to those skilled in the art having average knowledge in the field to which the present invention belongs. Therefore, it should not be construed that the scope of the present invention is limited by the examples to be described later. On the other hand, the same reference numerals in the following embodiments and drawings indicate the same components.

In addition, in this specification, terms such as 'first' and 'second' are used for the purpose of distinguishing one component from another component without limiting meaning. In addition, when a part such as a film, region, component, etc. is said to be 'on' or 'on' another part, not only when it is directly above the other part, but also when another film, region, component, etc. is interposed therebetween. Including case

FIG. 1 is a schematic view of a painting facility for a transmission tower according to an embodiment of the present invention, and FIG. 2 is a view showing a spray device shown in FIG. 1 .

Referring to FIGS. 1 and 2 , a transmission tower painting facility 300 (hereinafter referred to as 'painting facility') is a facility used to paint the transmission tower 10 with a paint 110. In this embodiment, the coating equipment 300 may coat the transmission tower 10 with the paint 110 in an electrostatic manner.

In this embodiment, the painting equipment 300 includes a compressed air supply device 50, a spray device 100, a power generator 40, a paint container 104, and an anode cable 41.

The compressed air supply device 50 provides compressed air used to scatter the paint 110 toward the spray device 100. In this embodiment, the compressed air supply device 50 is located on the ground 5 on which the transmission tower 10 is installed, and the compressed air supply device 50 can be loaded and moved on a moving means 30 such as a wagon. .

In addition, a compressed air pipe 53 is connected to a portion where compressed air is output from the compressed air supply device 50, and the compressed air pipe 53 is coupled to the spray device 100. In this embodiment, the compressed air pipe 53 has a shape extending from the compressed air supply device 50 toward the spray device 100, and the compressed air pipe 53 is connected to the body 101 of the spray device 100. It can be provided in an embedded form.

In this embodiment, the spray device 100 is combined with the power generator 40 and the paint container 104, that is, the spray device 100, the power generator 40 and the paint container 104 are integrated into one. and can be implemented.

The spray device 100 sprays the paint 110 electrostatically. In this embodiment, the spray device 100 includes a body 101 , a nozzle 107 and a trigger 105 .

Inside the body 101, a connection line part 55 composed of an anode cable 41 and a paint pipe 53 is accommodated. The nozzle 107 is located at the front end of the body 101 and sprays the paint 110. The trigger 105 is a component that controls the operation of spraying the paint 110 in the spray device 100, and when the operator pulls the trigger 105, the paint 110 is sprayed through the nozzle 107.

The power generator 40 is coupled to the body 101 of the spray device 100, and in this embodiment the power generator 40 may be a battery. The power generating device 40 generates power, and the painting facility 300 may apply the paint 110 to the transmission tower 10 in an electrostatic manner using the power generated from the power generating device 40 .

The paint container 104 supplies the paint 110 to the spray device 100 through the paint pipe 106. The paint container 104 accommodates the paint 110 and is coupled to the spray device 100. In this embodiment, the paint container 104 may be detachably coupled to the body 101 of the spray device 100.

The anode cable 41 electrically connects the anode of the power generator 40 to the transmission tower 10. More specifically, the anode cable 41 is built into the body 101 of the spray device 100, one end of the anode cable 41 is electrically connected to one end of the power generator 40, and the anode The other end of the cable 41 is connected to the contact point 20 on the frame 15 of the transmission tower 10.

In this embodiment, in order to facilitate connection between the transmission tower 10 and the anode cable 41, the other end of the anode cable 41 may have a clamp shape.

According to the configuration of the anode cable 41 described above, since the transmission tower 10 has a structure in which steel frames are combined, when the anode cable 41 is connected to the contact point 20, the transmission tower 10 can be positively charged. there is.

Hereinafter, the principle or method of painting the transmission tower 10 using the painting equipment 300 having the above configuration is as follows. Meanwhile, the driving method of the painting equipment 300 to be described later is provided to explain the driving principle of the painting equipment 300, and the present invention is not limited to the order of the driving method of the painting equipment 300 to be described later.

First, the power generator 40 is operated and power is generated from the power generator 40 . After that, the anode cable 41 electrically coupled to the anode of the power generator 40 is electrically connected to the contact 20 of the transmission tower 10. As a result, the plurality of frames 15 constituting the transmission tower 10 can be positively charged.

In addition, when power is generated from the power generating device 40, an electric field may be generated inside the body 101 of the spray device 100. The electric field may be formed on a path through which the paint 110 accommodated in the paint container 104 is discharged through the nozzle 107 through the paint pipe 106 .

After that, the compressed air generator 50 is operated and compressed air is supplied to the spray device 100 through the compressed air pipe 53. In this case, the compressed air is mixed with the paint 110 inside the body 101 of the spray device 100 and sprayed to the outside through the nozzle 107, and the compressed air scatters the paint 110. .

On the other hand, in the process of spraying the compressed air to the outside through the nozzle 107 together with the paint 110, the paint 110 is applied to the body 101 of the spray device 100 by the power of the power generator 40. passes through the electric field generated inside, and as a result, the paint 110 can pick up the negative charge of the electric field. Therefore, the effect of the paint 110 being negatively charged can be obtained, and accordingly, the paint 110 can be seated on the frames 15 of the transmission tower 10 that are positively charged by electric attraction.

According to the above-described painting method, even if the paint 110 is scattered in the air by the compressed air provided from the compressed air generating device 50, the scattered paint 110 is transferred to the frames of the transmission tower 10 by electrical attraction. (15) can be easily seated. Therefore, the efficiency of the painting process of the transmission tower 10 can be improved, and the effect of reducing the amount of the paint 110 lost in the air due to scattering can occur.

Meanwhile, in this embodiment, it has been described that the frames 15 of the transmission tower 10 are positively charged and the paint 110 is negatively charged, but in another embodiment of the present invention, the transmission tower 10 It may also be possible that the frames 15 are negatively charged and the paint 110 is positively charged.

FIG. 3 is a diagram schematically showing a painting equipment for a transmission tower according to another embodiment of the present invention, and FIG. 4 is a rear view of a first overshoe coupled to the first electrode pad shown in FIG. 3 . Meanwhile, in the description of FIGS. 3 and 4 , reference numerals are added to the components described above, and redundant descriptions of the components are omitted.

Referring to FIGS. 3 and 4, a transmission tower painting facility (301, hereinafter referred to as 'painting facility') is a facility used to paint a transmission tower (10 in FIG. 1) with a paint 110, and the painting facility 301 is The paint 110 may be applied electrostatically.

In this embodiment, the painting facility 301 includes a spray device 100, a power generator 40, a portable package 200, a first overshoe 240, a second overshoe 245, and a first electrode pad 250 ) and a second electrode pad 255.

The spray device 100 is a device that sprays the paint 110 electrostatically. In this embodiment, the spray device 100 may be combined with the power generator 40. Also, unlike the spray device shown in FIG. 2 ( 100 in FIG. 2 ). The spray device 100 shown in FIG. 3 may have a form separated from the paint container 210.

The spray device 100 is connected to the anode cable 235, the paint pipe 219 and the compressed air pipe 221. The anode cable 235 electrically connected to the anode of the power generator 40 is led out of the spray device 100 through the body of the spray device 100, and the anode cable 235 drawn out is the first and electrically connected to the second electrode pads 250 and 255 . In addition, the paint 110 accommodated in the paint container 210 may be provided to the spray device 100 through the paint pipe 219, and the compressed air generated from the compressed air generator 220 through the compressed air pipe 221 Compressed air may be provided to the spray device 100 side.

The power generation device 40 is coupled to the spray device 100. In this embodiment, the power generating device 40 may be a battery. The power generating device 40 generates power, and the painting facility 301 may apply the paint 110 to the transmission tower in an electrostatic manner using the power generated from the power generating device 40 .

The portable package 200 includes a compressed air supply device 220, a paint container 210, and a battery 230. In this embodiment, the portable package 200 may be implemented in a backpack type so that a worker can easily wear it. And a backpack strap 215 coupled to the storage unit 240 may be further included.

The compressed air supply device 220 provides compressed air used to scatter the paint 110 toward the spray device 100. In this embodiment, the compressed air supply device 220 may be portable, and in this case, the size of the compressed air supply device 220 is the compressed air installed on the ground (5 in FIG. 1) described with reference to FIG. It may have a smaller size than the supply device (50 in FIG. 1). As described above, the compressed air supply device 220 may be configured as a portable package 200 together with the paint container 210 and the battery 230.

A compressed air pipe 221 is connected to a portion where compressed air is output from the compressed air supply device 220, and the compressed air pipe 221 is coupled to the spray device 100. In this embodiment, the compressed air pipe 221 has a shape extending from the compressed air supply device 220 toward the spray device 100, and the compressed air pipe 221 passes through the inside of the spray device 100 to the nozzle ( 107) can be connected.

The paint container 210 accommodates the paint 110, and as described above, the paint container 210 may be configured as a portable package 200 together with the compressed air supply device 220 and the battery 230. The space in which the paint 110 is accommodated in the paint container 210 is covered by the stopper 218, and the paint 110 flows toward the spray device 100 through the paint pipe 219 coupled to the stopper 218. Provided.

The battery 230 provides power to the compressed air supply device 220 side. In this embodiment, the battery 230 may be configured as a portable package 200 together with the paint container 210 and the compressed air supply device 220.

The first overshoes 240 and the first electrode pad 250 are coupled to the first work shoes 260, and the second overshoes 245 and the second electrode pad 255 are coupled to the second work shoes 265.

Each of the first overshoes 240 and the second overshoes 245 is formed of an insulating material such as rubber and is covered over the first work shoes 260 and the second work shoes 265, respectively. More specifically, the first overshoe 240 includes a portion covering the bottom of the first work shoe 260, and the second overshoe 245 includes a portion covering the bottom of the second work shoe 265. .

In this embodiment, each of the first and second electrode pads 250 and 255 may have a structure in which a conductor is exposed to the outside. For example, each of the first and second electrode pads 250 and 255 may have a mesh structure made of wires made of iron. However, the present invention is not limited to the respective structures of the first and second electrode pads 250 and 255 . For example, in another embodiment, each of the first and second electrode pads 250 and 255 may be formed of a metal material and protrude sharply from the bottom surface of the first and second overshoes 240 and 245 .

The first electrode pad 250 and the second electrode pad 255 are coupled to the bottom surface of the first overshoe 240 and the bottom surface of the second overshoe 245 , respectively. For example, as shown in FIG. 4 , the first electrode pad 250 may be fixed to the bottom surface 241 of the first overshoe 240 .

The first electrode pad 250 may be electrically connected to the first sub-anode cable 236 branched from the cathode cable 235, and the second electrode pad 255 may be electrically connected to the second sub-cathode branched from the cathode cable 235. It may be electrically connected to the second sub-anode cable 237 branched from the anode cable 237 .

Hereinafter, the principle or method of painting the transmission tower using the painting equipment 301 having the above-described configuration is as follows. Meanwhile, the driving method of the painting equipment 301 to be described later is provided to explain the driving principle of the painting equipment 301, and the present invention is not limited to the order of the driving method of the painting equipment 301 to be described later.

First, the operator wears the portable package 200 on the body using the backpack straps 215 . After that, the power generator 40 is operated, and as a result, each of the first and second electrode pads 250 and 255 electrically connected to the first and second sub-anode cables 236 and 237 are positively charged. can Therefore, when a worker climbs the transmission tower by stepping on the frames of the transmission tower after wearing the first and second work shoes 260 and 265, the first and second electrode pads 250 and 255 come into contact with the steel frames of the transmission tower. The frames of can be positively charged.

In addition, when power is generated from the power generator 40, an electric field is generated inside the spray device 100, and the electric field causes the paint 110 contained in the paint container 210 to pass through the paint pipe 219 through the nozzle. It may be formed on the path discharged through (107). After that, the compressed air generator 220 is operated by the power of the battery 230, and compressed air is provided to the spray device 100 through the compressed air pipe 221. In this case, the compressed air is mixed with the paint 110 inside the spray device 100 and sprayed to the outside through the nozzle 107, and the compressed air scatters the paint 110.

On the other hand, in the process of spraying the compressed air to the outside through the nozzle 107 together with the paint 110, the paint 110 is applied to the body 101 of the spray device 100 by the power of the power generator 40. passing through the electric field generated inside the Therefore, the effect of the paint 110 being negatively charged can be obtained, and accordingly, the paint 110 is electrically attracted to the positively charged frames of the transmission tower by the first and second electrode pads 250 and 255. Thus, the transmission tower 10 may be coated with the paint 110.

According to the above-described painting method, even if the paint 110 is scattered in the air by the compressed air provided from the compressed air generator 50, the scattered paint 110 is easily attached to the frames of the transmission tower by electrical attraction. can be settled. Therefore, the efficiency of the painting process of the transmission tower 10 can be improved, and the effect of reducing the amount of the paint 110 lost in the air due to scattering can occur.

Although described with reference to the above embodiments, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the present invention described in the scope of the claims below. You will understand.

10: transmission tower 100: spray device
41: anode cable 110: paint
40: power generator 210: paint container
220: compressed air generator 230: battery
200: portable package 260: first work shoes
240: first overshoe 250: first electrode pad
300: painting equipment for transmission tower

Claims (12)

power generator;
A paint container for accommodating paint;
a spray device for charging and spraying the paint supplied from the paint container by using the power of the power generator;
a compressed air supply device for providing compressed air to scatter the paint toward the spray device;
an anode cable electrically connecting the anode of the power generating device to a transmission tower; and
Including; compressed air pipe connecting the compressed air supply device with the spray device,
The spray device includes a body and a nozzle positioned at the front end of the body to spray paint,
The power generator is coupled to the body,
A connection line portion composed of the anode cable and the compressed air pipe is accommodated inside the body, the anode cable is connected to the power generator, and the compressed air pipe is connected to the nozzle. painting equipment. The painting equipment for a transmission tower according to claim 1, wherein the compressed air supply device is installed on the ground where the transmission tower is installed, and the anode cable is electrically connected to a lower end of the transmission tower adjacent to the ground. delete According to claim 1,
Painting equipment for a transmission tower, characterized in that it further comprises a paint pipe connecting the paint container to the spray device. power generator;
a spray device that charges and sprays paint using the power of the power generator;
an electrode pad electrically connected to the anode of the power generator; and
Including a portable package that can be worn on the body,
The portable package,
A paint container for accommodating paint; and
Including a compressed air supply device for providing compressed air for scattering the paint to the spray device side,
Further comprising an overshoe formed of an insulating material and covering the bottom of the work shoe,
The electrode pad is coupled to the lower end of the work shoes, and when a worker climbs the transmission tower by stepping on the frames of the transmission tower after wearing the work shoes, the electrode pad contacts the steel frames of the transmission tower so that the frames of the transmission tower are positively charged. Painting equipment for transmission towers, characterized in that. The coating equipment for a transmission tower according to claim 5, wherein the electrode pad includes a conductor exposed to the outside. [6] The painting equipment for a transmission tower according to claim 5, wherein the portable package is implemented in a backpack type. [6] The painting equipment for a transmission tower according to claim 5, wherein the power generation device is coupled to the spray device. According to claim 5,
A compressed air pipe connecting the compressed air supply device to the spray device;
a paint pipe connecting the paint container to the spray device; and
The painting equipment for a transmission tower, characterized in that it further comprises an anode cable electrically connecting the anode of the power generator to the electrode pad. The method of claim 5, wherein the portable package,
Painting equipment for a transmission tower, characterized in that it further comprises a battery for providing power to the compressed air supply device. delete delete

Images