KR102181038B1 - System for removing timeworn paint coating layer of steel box girder used in bridge - Google Patents

Abstract

The present invention relates to a system for removing a decrepit paint coating of a steel box girder installed on a bridge, which can easily remove a corroded existing decrepit paint coating of a steel box girder installed on a bridge. To this end, the present invention provides a system for removing a decrepit paint coating of a steel box girder installed on a bridge, which removes an existing decrepit paint coating remaining on a steel box girder which is a superstructure of a bridge to repaint the steel box girder during repair construction since the paint coating of the steel box girder is delaminated by cracking due to vibration from the load of passing vehicles or storm and flood damage and degradation. In addition, the system can prevent environmental pollution even in a small space, and allows removal work for the existing decrepit paint coating to be easily performed while protecting the health of workers. The system for removing a decrepit paint coating of a steel box girder installed on a bridge comprises a short-blast spray (10), a collection tank (20), a separation tank (50), a collecting hose (30), a first diaphragm pump (40), a supplying hose (60), and a second diaphragm pump (70).

Description

System for removing timeworn paint coating layer of steel box girder used in bridge}

The present invention relates to a system for removing the old coating film of a steel box girder installed on a bridge, and more particularly, to a system for repainting an old old bridge during maintenance work. The present invention relates to a system for removing the old coating film of a steel box girder installed on a bridge so that the coating film can be easily removed.

In general, a bridge is a civil engineering structure placed across rivers, lakes, bays, canals, rivers, streams, valleys, or narrow straits of the sea for the passage of vehicles or people. These civil structures, such as bridges, are slabs. It consists of a girder and an upper structure that forms the main body of the bridge, and a lower structure that supports the upper structure, which consists of foundation slabs, piers, and abutments.

There are various types of bridges constructed in this way depending on the type, purpose, or material used of the superstructure. Among them, the types of the superstructure are girder bridges and simple beam bridges. , Continuous bridge, Gerber bridge, Truss bridge, Arch bridge, Rahmen bridge, Suspension bridge, Cable stayed bridge, etc. .

In the type of bridge according to the type of the upper structure as above, the girder bridge uses a girder, a member such as a girder that supports the load of vehicles or people applied to the upper slab of the bridge. Depending on the shape, there are T-beam bridges, plate girder bridges, steel box girder bridges, steel top plate girder bridges, PSC box girder bridges, and PSC beam bridges. Among them, steel box girder bridges are made of steel plates, and 50~60m is economical. In general, steel boxes are manufactured in factories and assembled on site and installed with cranes, so they are easily applied to curved areas or wide areas such as highway ICs, and are widely used today.

The steel box girder bridge, which is widely used in this way, prevents corrosion or contamination of the steel box girder, which is the upper structure of the bridge, when the bridge is first constructed, and to enhance the exterior. A certain amount of paint is applied to form a coating film on the surface of the steel box girder.

In this way, if a steel box girder that has been coated with a certain paint is used for a long time after the initial installation, the coating film is deteriorated on the surface of the steel box girder, which is the upper structure of the bridge, due to vibration due to the load of the passing vehicle, wind and flood damage, and corrosion such as aging. Since the existing coating film is cracked due to corrosion such as the back, it is necessary to remove the existing coating film that has been corroded due to aging in the steel box girder in order to repaint it during maintenance work of the constructed bridge.

In the conventional technology of removing the existing coating film corroded by the aging of the steel box girder installed on the bridge, the worker used a hand grinder or sand blasting to remove the existing aging coating film remaining on the surface of the steel box girder.

In addition, in Registered Patent Publication No. 10-2002014 (announced date 10, 01, 2019), a mobile cart with a laser gun is installed on the guide means, and the bridge is supported by the laser beam of the laser gun that is moved according to the guide means. A coating layer removal device for bridge and structure support beams using a laser system that removes the coating layer of the finishing panel installed on the beam has been developed.

However, the conventional technology is mainly due to the generation of fine dust due to the occurrence of fine dust, since the work of removing the existing coating film corroded due to the aging of the steel box girder of the bridge for repainting during the maintenance work of the bridge is mainly performed in a narrow space. There is a problem of environmental pollution or harm to the health of workers, and the removal of the coating film by sand blasting has a problem that a large amount of waste is generated because abrasive materials such as sand cannot be reused. Also, coating for bridges and support beams using a laser system The layer removal device has a problem in use due to its complicated structure.

Registered Patent Publication Registration No. 10-2002014 (announcement date, October 1, 2019)

The present invention was conceived to solve the conventional problems as described above, and as the coating film of the steel box girder, which is the upper structure of the bridge, is corroded due to vibration, wind and flood damage, and aging due to the load of the passing vehicle, it is thus In order to repaint during maintenance work in Korea, the old paint film remaining on the steel box girder is removed, and environmental pollution is prevented even in a confined space and the old paint film is removed while protecting the health of workers. Its purpose is to provide a system for removing the old paint film of a steel box girder installed on a bridge so that it can be carried out easily.

In order to achieve the above object, the present invention is a shot blast sprayer for removing the old coating film by spraying steel balls and abrasives onto the old coating film of the steel box girder, and is disposed below the steel box girder to fall from the steel box girder. A collection tank for recovering the waste coating material and steel balls, and an inclined mesh net is installed inside, and a magnetic structure that collects the steel balls by magnetic force is installed in the lower part, and the waste coating material and steel balls supplied from the collection tank are provided. A separation tank to separate, a recovery hose connected between the recovery tank and the separation tank to transfer the waste coating material and steel balls from the recovery tank to the separation tank, and a steel ball in the recovery tank mounted on the recovery hose A first diaphragm pump that sucks the waste paint and discharges it to the separation tank, and a supply hose connected to enable communication between the lower part of the separation tank and the shot blast sprayer to resupply the steel balls collected in the separation tank to the shot blast sprayer. Wow, it provides a system for removing the old paint film of the steel box girder installed on the bridge consisting of a second diaphragm pump that is mounted on the supply hose and sucks the steel balls collected in the separation tank and discharges it toward the shot blast sprayer.

In the present invention, a first compressed air supply line for supplying compressed air for transporting the waste coating material and the steel ball is connected to a predetermined position of the recovery hose connected between the outlet of the first diaphragm pump and the inlet of the separation tank. And a second compressed air supply line for supplying compressed air for conveying flow of steel balls is connected to a predetermined position of the supply hose connected between the outlet of the second diaphragm pump and the shot blast injector.

In addition, a third compressed air supply line for supplying compressed air to the shot blast injector is connected to a predetermined position of the supply hose connected to the shot blast injector.

In addition, a plurality of vibrators are mounted on the outer surface of the recovery hose to provide a flow force for transport to the waste coating material and the steel ball, and the outer surface of the supply hose also provides a flow force for transport to the steel ball. It is characterized in that a plurality of vibrators are mounted.

In addition, a screw conveyor is connected to the outlet of the separation tank for carrying out the waste coating material to the outside.

The present invention provides the following effects through the above-described problem solving means.

First, according to the present invention, in order to remove the old paint film of the steel box girder installed on the bridge, steel balls sprayed by the shot blast sprayer are recovered using a magnetic, and then resupplied to the shot blast sprayer. Since the ball can be recovered and reused, there is an effect of remarkably reducing the generation of waste.

Second, according to the present invention, the compressed air supplied to the supply hose and the recovery hose, and abrasive materials such as steel balls sprayed on the old coating film of the steel box girder by vibrators mounted on the hoses flow smoothly within the hose. It is supplied and can be recovered.

Third, according to the present invention, even in a confined space, the waste coating material that has been easily removed from the existing aging coating film of the steel box girder can be recovered through the recovery tank and the separation tank, thus preventing environmental pollution caused by work in a confined space. It is possible to do, and it is possible to protect the health of the workers performing the maintenance work of the bridge, so there is an eco-friendly effect in the maintenance of the bridge.

1 is a block diagram showing a system for removing an old coating film of a steel box girder installed on a bridge according to the present invention.
Figure 2 is a block diagram showing the operation flow of the old coating film removal system of the steel box girder installed on the bridge according to the present invention.

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

Attached Figure 1 is a configuration diagram showing the old coating film removal system of the steel box girder installed on the bridge according to the present invention, Figure 2 is an operation flow of the old coating film removal system of the steel box girder installed on the bridge according to the present invention As a configuration diagram showing, in each drawing, reference numeral 100 denotes a steel box girder.

The steel box girder 100 is a girder of the upper structure that is installed on the upper part of the bridge and supports the load of vehicles applied to the upper slab, and the steel box girder 100, which is the upper structure of the first built bridge, has corrosion of the bridge. It is coated with a certain paint coating film to prevent contamination and considering the appearance.

However, the steel box girder 100, which is the upper structure of the bridge, cracks and falls off the coating film of the steel box girder 100 due to corrosion caused by passing vehicles or wind and flood damage and aging over time. For maintenance work, the old paint film must be removed.

Accordingly, the old coating film of the steel box girder 100 is sprayed with a steel ball 12 having a diameter of about 0.6 to 2.0 mm and an abrasive from the shot blast sprayer 10 to remove the old coating film.

That is, waste coating material from the surface of the steel box girder 100 by spraying the steel ball 12 and the abrasive onto the aging existing coating film of the steel box girder 100 while the operator grips the shot blast sprayer 10 Will be eliminated.

At this time, a recovery tank 20 for recovering the waste paint 14 and steel balls 12 falling from the steel box girder 100 is disposed at a predetermined position below the steel box girder 100.

Accordingly, when removing the waste coating material by spraying the steel ball 12 and the abrasive on the surface of the old coating film of the steel box girder 100, the waste coating material 14 including the steel ball 12 is the recovery tank ( 20) It falls into the inside and can be easily recovered.

On the other hand, in order to transfer the waste coating material 14 and the steel ball 12 from the recovery tank 20 to the separation tank 50 disposed at a remote distance from the steel girder box 100, the recovery tank 20 is separated. The tank 50 is connected with a recovery hose 30.

The separation tank 50 is equipped with a steel ball 12 and an inclined mesh net 52 for falling of the waste coating material, and a magnetic 54 that collects the steel ball 12 by magnetic force is installed in the lower part. It is equipped with a structured structure.

At this time, the recovery hose 30 is equipped with a first diaphragm pump 40 that sucks the steel ball 12 and the waste coating material in the recovery tank 20 and discharges it toward the separation tank 50.

In addition, at a predetermined position of the recovery hose 30 connected between the outlet of the first diaphragm pump 40 and the inlet of the separation tank 50, smooth flow and transfer of the waste coating material 14 and the steel ball 12 The first compressed air supply line 81 for supplying compressed air is connected.

In addition, a plurality of vibrators 90 are mounted on the outer surface of the recovery hose 30 to provide flow force by vibration for smooth transfer to the waste coating material 14 and the steel ball 12.

Accordingly, the waste coating material 14 and the steel ball 12 recovered in the recovery tank 20 are sucked by the driving of the first diaphragm pump 40, and the separation tank 50 along the recovery hose 30 ) Is discharged and moved.

At this time, it is preferable to provide a flow force by pressure and vibration by compressed air so that the waste coating material 14 and the steel ball 12 in the recovery hose 30 can be smoothly moved.

That is, only the pumping force of the first diaphragm pump 40 can cause the waste coating material 14 and the steel ball 12 in the recovery hose 30 to stop smoothly without moving, so that the recovery hose 30 It is to provide a flow force by pressure and vibration by compressed air so that the inner waste coating material 14 and the steel ball 12 can flow and move smoothly.

To this end, a first compressed air supply line 81 for supplying compressed air for the transfer flow of the waste coating material 14 and the steel ball 12 is connected to a predetermined position of the recovery hose 30, and A plurality of vibrators 90 are mounted on the outer surface of the receiving hose 30 to provide a flow force for conveying the waste coating material 14 and the steel ball 12.

Accordingly, the waste coating material 14 is discharged to the separation tank 50 along the recovery hose 30 by the pumping force of the first diaphragm pump 40, and is transferred by the first diaphragm pump 40 And the steel ball 12 receives the pressure of the compressed air provided from the first compressed air supply line 81 and the flow force due to the vibration provided from the plurality of vibrators 90, and eventually the recovery hose ( 30) the waste coating material 14 and the steel ball 12 can be easily moved to the separation tank (50).

Subsequently, the waste coating material 14 and the steel ball 12 transferred into the separation tank 50 from the recovery hose 30 are separated while falling into the inclined mesh net 52, and at this time, the steel ball 12 Passing through the mesh net 52 and being attached by the magnetic force by the magnetic 54 mounted on the lower portion thereof, it can be easily collected.

At this time, a screw conveyor 56 for carrying out the waste coating material 14 is connected to the outlet of the separation tank 50, and the waste coating material 14 in which the steel ball 12 is filtered by the mesh net 52 ) Is moved to the outside along the screw conveyor 56 for carrying out.

In this way, even in the narrow lower space of the steel girder box 100, the waste coating material that has easily removed the existing aging coating film of the steel box girder 100 is easily removed through the recovery tank 20 and the separation tank 50. Since it can be recovered, it is possible to prevent contamination of the work environment during bridge repair work and to protect the health of workers.

Meanwhile, the steel balls 12 collected by being attached to the magnetic 54 of the separation tank 50 may be resupplied to the shot blast sprayer 10 and reused.

To this end, the supply hose 60 between the lower portion of the separation tank 50 and the shot blast injector 10 in order to resupply the steel balls 12 collected in the separation tank 50 to the shot blast injector 10 ) Is connected to enable communication.

In addition, the supply hose 60 is equipped with a second diaphragm pump 70 for sucking the steel balls 12 collected in the separation tank 50 and discharging them toward the shot blast injector 10.

Accordingly, the steel balls 12 collected in the separation tank 50 are sucked by the drive of the second diaphragm pump 70 and are discharged and moved toward the shot blast injector 10 along the supply hose 60. .

At this time, it is preferable to provide a flow force due to pressure and vibration by compressed air so that the steel balls 12 in the separation tank 50 can move smoothly.

That is, since the steel ball 12 in the supply hose 60 may not move smoothly and stagnate only by the pumping force of the second diaphragm pump 70, the steel ball 12 in the supply hose 60 It is to provide a flow force by pressure and vibration by compressed air so that it can move smoothly.

To this end, a second compressed air supply line 82 for supplying compressed air for flow transfer of the steel ball 12 is connected to a predetermined position of the supply hose 60, and the supply hose 60 On the outer surface, a plurality of vibrators 90 that provide flow force by vibration for smooth transfer to the steel ball 12 are mounted.

Accordingly, by the pumping force of the second diaphragm pump 70, abrasives such as steel balls 12 are discharged to the shot blast injector 10 along the supply hose 60, and the transported steel ball 12 is The pressure of the compressed air provided from the second compressed air supply line 82 and the flow force by the vibrations provided from the plurality of vibrators 90 are received, so that the steel balls 12 in the supply hose 60 ) Is easily moved to the shot blast injector 10 to be discharged.

At this time, a third compressed air supply line 83 for supplying compressed air to the shot blast injector 10 is further connected to a predetermined position of the supply hose 60 connected to the shot blast injector 10.

Therefore, the shot blast injector 10 is the steel box girder again by the pressure of the compressed air supplied from the third compressed air supply line 83, the steel ball 12 transported along the supply hose 60 It can be sprayed on the aging paint film of (100).

In this way, in order to remove the old coating film of the steel box girder 100, the steel balls 12 sprayed by the shot blast injector 10 are recovered using a magnetic, etc., and then returned to the shot blast injector 10. By allowing resupply, steel balls can be recovered and reused, so waste generated during bridge repair work can be significantly reduced.

10: shot blast sprayer 12: steel ball
14: waste coating material 20: recovery tank
30: recovery hose 40: first diaphragm pump
50: separation tank 52: mesh net
54: magnetic 56: screw conveyor
60: supply hose 70: second diaphragm pump
81: first compressed air supply line 82: second compressed air supply line
83: third compressed air supply line 90: vibrator
100: steel box girder

Claims (5)

A shot blast sprayer 10 for removing the old coating film by spraying steel balls 12 and abrasives onto the old coating film of the steel box girder 100, and a steel box girder disposed under the steel box girder 100 A recovery tank 20 for recovering the waste coating material 14 and the steel ball 12 falling from the 100), and an inclined mesh net 52 is installed inside, and the steel ball 12 is collected by magnetic force in the lower part. A separation tank 50 provided in a structure in which a magnetic 54 is mounted to separate the waste coating material 14 and the steel ball 12 supplied from the recovery tank 20, and waste from the recovery tank 20 A recovery hose 30 connected in communication between the recovery tank 20 and the separation tank 50 in order to transfer the painting material 14 and the steel ball 12 to the separation tank 50, and the recovery hose A first diaphragm pump 40 mounted on 30 to suck in the steel ball 12 and waste coating material in the recovery tank 20 and discharge it toward the separation tank 50, and the steel balls collected in the separation tank 50 In order to resupply (12) to the shot blast injector 10, the supply hose 60 and the supply hose 60 are connected in communication between the lower portion of the separation tank 50 and the shot blast injector 10. In the old coating film removal system of the steel box girder consisting of a second diaphragm pump 70 that sucks the steel balls 12 mounted in the separation tank 50 and discharges them toward the shot blast sprayer 10,
Compressed air for flow transfer of the waste coating material 14 and the steel ball 12 is provided at a predetermined position of the recovery hose 30 connected between the outlet of the first diaphragm pump 40 and the inlet of the separation tank 50. The first compressed air supply line 81 to be supplied is connected, and a steel ball 12 at a predetermined position of the supply hose 60 connected between the outlet of the second diaphragm pump 70 and the shot blast injector 10 The second compressed air supply line 82 for supplying compressed air for flow transfer of the air is connected;
A plurality of vibrators 90 that provide flow force for transport to the waste coating material 14 and the steel ball 12 are mounted on the outer surface of the recovery hose 30, and other than the supply hose 60 A plurality of vibrators 90 are mounted on the surface as well to provide a flow force for transport to the steel ball 12;
A screw conveyor 56 for carrying out the waste coating material 14 to the outside of the separation tank 50 is connected to the old coating film removal system of the steel box girder installed on the bridge.
delete The method according to claim 1,
In a bridge, characterized in that a third compressed air supply line 83 for supplying compressed air to the shot blast injector 10 is connected to a predetermined position connected to the shot blast injector 10 of the supply hose 60. The old paint film removal system of the installed steel box girder. delete delete

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