JP6949314B2 - Steel structure maintenance method and steel structure maintenance treatment system - Google Patents

Description

The present invention relates to a method for maintaining steel structures in steel structures such as steel bridges, tunnels, and factory plants.

Conventionally, steel structures such as steel bridges, regardless of whether they are newly installed or existing, are used to prevent the occurrence of rust, or especially for existing steel structures, to renew the coating that has been corroded due to aging. Has been preserved. In this way, maintenance requires removing rust and the like, and removing old paint film. Therefore, in recent years, rust and paint film have been removed by blasting (Type 1 Keren), and then a new paint film is applied. Is being done.

For example, in Patent Document 1, after the projection material and dust after polishing are collected in a recovery tank, the projection material and dust and the like are separated and classified in the recovery tank to collect the dust and the like, while the dust and the like are collected. A structure surface cleaning system that reuses the separated projection material is disclosed.

Japanese Unexamined Patent Publication No. 11-207624

However, in the conventional configuration as described above, when a coating film containing PCB, which is a specific hazardous industrial waste, is generated as garbage, the coating film containing PCB must be stored in accordance with the specially controlled industrial waste storage standard. Not only that, it cost a lot of money just to transport it to the processing facility.

Therefore, the present invention is a maintenance method for a steel structure capable of removing PCB contained in the peeled old coating film in the site area where maintenance work is performed (in the business site where industrial waste is generated due to business activities). And to provide a maintenance processing system.

The present invention is a maintenance method for a steel structure located in a predetermined field area, in which an old coating film peeled off from the surface of the steel structure is put into a PCB removing device arranged in the field area. This is a maintenance method for a steel structure, which comprises a step of removing PCB contained in the old coating film from the old coating film by the PCB removing device.

Further, the present invention is a maintenance method for a steel structure located in a predetermined field area, and blasting is performed using a blasting device arranged in the field area in order to adjust the substrate of the steel structure. The step to be performed and the step of putting the old coating film generated by the blast treatment into the PCB removing device arranged in the site area and removing the PCB contained in the old coating film from the old coating film by the PCB removing device. It is a maintenance method for steel structures, which is characterized by including.

In such a configuration, the PCB contained in the old coating film generated as a result of adjusting the substrate of the steel structure (which may be a new steel structure or an existing steel structure) is applied to the predetermined site. Can be removed within the area. Therefore, when the waste object is transported from the inside of the site area to the outside, it can be transported and processed as ordinary industrial waste. The field area means an area that is not applied as industrial waste.

Further, the blast treatment device has a suction means for sucking the old coating film generated by the blast treatment, and the PCB removing device is connected to the suction means and sucked by the suction means. A configuration is proposed in which the old coating film is introduced into the PCB removing device.

With such a configuration, for example, it is not necessary for the operator to manually put the coating film containing PCB into the PCB removing device. Therefore, the burden on the operator is reduced.

In the above configuration, the suction means has a function of sucking and collecting the used projection material generated by the blasting treatment, and the recovered used projection material is re-projected in the blasting treatment apparatus. A configuration including a step used for the blasting process is further proposed.

With such a configuration, it is not necessary to dispose of the used projectile material generated by the blast treatment, and the volume of waste can be significantly reduced. Further, by also using the suction means in such a circulation type blasting method, the work cost can be significantly suppressed.

Further, the present invention is a maintenance processing system for a steel structure used in the maintenance method for the steel structure, wherein the blast processing device, the PCB removing device, the suction means of the blast processing device, and the PCB removing. Maintenance of a steel structure comprising a connecting means for connecting the device, wherein the old coating film sucked by the suction means is introduced into the PCB removing device via the connecting means. It is a processing system.

In such a configuration, it is possible to provide a system for efficiently and safely executing the maintenance method for the steel structure.

Further, the suction means has a dust separating means for removing only dust from the suction target including the sucked old coating film, and includes the old coating film from which dust has been removed by the dust separating means. A configuration is proposed in which the suction target is introduced into the PCB removing device via the connecting means.

With such a configuration, it is possible to provide a maintenance treatment system for a steel structure in which an old coating film in a dust-removed state can be introduced into the PCB removing device using a suction device.

Further, the suction means has a function of sucking and collecting the used projection material generated by the blasting treatment, and the blasting treatment apparatus uses the recovered projection material as a projection material and performs the blasting treatment again. A configuration that has the function to be used is proposed.

With such a configuration, the used projectile material generated by the blasting process can be reused.

In the maintenance method for steel structures of the present invention, waste can be transported from the site area to the outside with the PCB removed, so that a significant cost reduction can be achieved.

Further, the maintenance treatment system for steel structures of the present invention can construct the above-mentioned maintenance method for steel structures with a simple and safe structure.

It is a schematic explanatory drawing explaining the maintenance processing system concerning 1st Example. It is schematic explanatory drawing explaining the maintenance processing system concerning 2nd Example.

Hereinafter, an embodiment in which the maintenance method for the steel structure and the maintenance treatment system for the steel structure embodied according to the present invention will be described in detail. The present invention is not limited to the examples shown below, and the design can be changed as appropriate.

[First Example]
For example, as a procedure for repainting (maintaining) an existing steel bridge (steel structure), as shown in FIG. 1, first, a scaffold is temporarily installed on the steel bridge K to be maintained. At the same time, a dustproof sheet will be stretched to prevent dust from leaking to the outside, the unpainted part will be cured, and preparations will be made in advance to install a device for blasting and, if necessary, shot peening.

After that, the type and thickness of the old paint applied to the steel bridge K, the condition of the steel bridge K, and the like are investigated. Then, based on the survey results, the type of grit or the like to be used, the injection speed, or the like is determined.

Then, blasting is first performed using the determined grit. Specifically, the old coating film or the like to be peeled off at the steel bridge K is peeled off, and the base material of the portion to be adjusted is adjusted. In addition, old paint film, rust, etc. peeled off by blasting and used grit are generated as dust, but since the dustproof sheet is attached in advance, dust does not leak to the outside and dust works. Accumulate at the site α.

Then, the blasted portion (that is, the substrate adjusting portion) formed by the blasting treatment is subjected to shot peening treatment as necessary to improve the fatigue strength and stress corrosion cracking resistance of the bare ground. Let me. The shot peening treatment may be performed on all the bare ground to which the blasting treatment has been performed, or may be performed partially on the periphery of the welded portion or a portion where the strength is uncertain.

After that, the bare ground that has been blasted or the like is confirmed. Such confirmation includes not only visual confirmation but also comparison with, for example, ISO8501 blast photo book, roughness confirmation with a surface roughness measuring instrument, and the like. As a result, it is confirmed whether or not the unpeeled coating film remains or whether the roughness of the bare ground is within the standard, and accurate treatment is performed for the insufficient portion. For example, the base material is adjusted by using a hand tool or the like in a part where the blasting process cannot be performed.

In this way, the final finish coating for forming the final coating film is performed on the portion where the bare ground has been confirmed. It should be noted that such coating is generally applied in layers multiple times, such as an undercoat coating as an anticorrosive coating, an intermediate coating for protecting the anticorrosive coating, and a topcoat coating as a final finish coating.

When the painting is completed, the confirmation is performed. Such confirmation includes not only confirmation of the film thickness after the coating has dried, but also confirmation of the wet film thickness using, for example, a wetness gauge during the coating operation. Further, such confirmation is performed not only after the top coat coating, which is the final finish coating, but also during the undercoat coating and the intermediate coating.

When the painting work is completed by the above confirmation, the site is cleaned up. Specifically, maintenance is completed by collecting scaffolding, dustproof sheets, etc., and withdrawing various devices.

In addition, the dust recovery step is executed together with the above procedure. Specifically, the used grit and the like generated in the blasting process and the dust including exfoliated matter such as the old coating film and rust generated in each process are separated and collected.

It is desirable that the collected used grit and the like are both iron (metal) abrasives specified in JIS Z 0310: 2004. As a result, even if it collides with the steel bridge K during use, it can be reused without being crushed like Armandite garnet and steelmaking slag. Among them, high carbon cast steel can be reused about 600 times, which is very economical and can significantly reduce the amount of waste by separating it from the peeled old coating film and other foreign substances. can.

Hereinafter, the maintenance processing system 1 having the PCB removing device will be described.

As shown in FIG. 1, the maintenance processing system 1 includes a blast processing device 2 installed in a site area Z having a work site α of the steel bridge K.

The blast processing device 2 includes a device main body 21, and the device main body 21 includes a pumping hose 4. An injector 3 is connected to the tip of the pumping hose 4. The grit g is injected from the injector 3.

Further, the apparatus main body 21 is provided with a suction hose 5, and the tip of the suction hose 5 is arranged at the work site α. As a result, the dust X composed of the used grit g'generated at the work site α and the foreign matter D including the peeled old coating film and rust can be sucked through the suction hose 5. A dustproof sheet (not shown) is stretched at the work site α so that the dust X does not leak to the outside, and a blower, a dust collector, and the like are appropriately installed.

Further, as shown in FIG. 1, a grit hopper tank 10 is arranged in the apparatus main body 21. More specifically, the grit hopper tank 10 has a function of storing grit g and used grit g'(hereinafter, a mixture thereof is referred to as grit G). Further, a grit pressurizing tank 11 for pumping the grit G stored in the grit hopper tank 10 to the work site α is connected to the grit hopper tank 10.

Further, the dry compressed air supply means 30 is connected to the grit pressurizing tank 11 via the dry compressed air pipe 31. The dry compressed air supply means 30 includes an air compressor and an air dryer for supplying dry compressed air.

Further, a pressure feeding hose 4 is connected to the grit pressurizing tank 11. With this configuration, the grit G is injected from the injector 3 via the pumping hose 4 by the air pressure of the dry compressed air supplied from the dry compressed air supply means 30, and the steel bridge K can be blasted. There is.

The dust X containing the used grit g'deposited on the work site α and the foreign matter D such as the peeled old coating film is sucked together from one end of the suction hose 5. Then, the dust X sucked by the suction hose 5 reaches the inside of the sorting chamber 40 arranged above the grit hopper tank 10.

A dust hose 51 is attached to the sorting chamber 40, and a dust collecting unit 50 as a dust separating means is connected to the dust hose 51. Further, an air suction device 60 is connected to the dust recovery unit 50. Therefore, the dust X can be sucked by the air suction force of the air suction device 60. The suction means according to the present invention is configured by the air suction device 60 and the flow path of the air sucked by the air suction device 60.

Here, the used grit g'passes through the sorting chamber 40, and the used grit g'is returned to the grit hopper tank 10. The sorting chamber 40 is configured to have a function of collecting used projectiles.

The dust X from which the used grit g'has been separated is introduced into the dust recovery unit 50. In the dust recovery unit 50, the old coating film and powder particles such as rust are separated, and the powder particles are captured by the filter in the dust collection unit 50. On the other hand, the old coating film is introduced into the heat treatment unit 70, which is a PCB removing device, via the old coating film recovery path 52, which is a connecting means. The old coating film recovery path 52 does not have to be composed of a pipeline in which the dust recovery section 50 and the heat treatment section 70 are connected, and of course, another configuration may be used.

The old coating film introduced into the heat treatment unit 70 is heat-treated to remove PCBs, and the remaining waste is discharged to the waste bag 71 and treated as ordinary industrial waste. In addition, this waste may contain metals such as lead, and in such cases, the metals can be separated and reused by appropriately treating them. Further, as the heat treatment unit 70, for example, those disclosed in Japanese Patent No. 4580388 can be preferably applied.

By adopting the above configuration, for example, when an old coating film containing 20 mg of PCB per kg is heat-treated, the PCB content per kg becomes less than 0.0005 mg. Therefore, the waste remaining after passing through the heat treatment unit 70 can be treated as ordinary industrial waste.

By removing and processing the PCB contained in the old coating film in this way, the cost can be reduced to about 1/15 of the case of processing without removing the PCB, and maintenance including disposal cost can be achieved. Costs can be dramatically reduced.

Specifically, the amount of waste carried out from the site area Z is 250 kg per 100 m2 of maintenance area, and the volume of waste can be significantly reduced from 4100 kg by the conventional method. In addition, since the waste treated by the heat treatment unit 70 does not contain PCB, it can be treated as industrial waste, but the maintenance cost, which normally costs about 7 million yen per 100 m2 of maintenance area, is up to about 450,000 yen. It can be suppressed.

The structure of the heat treatment unit 70 may be shared with the structure of the blast treatment device 2. Further, the air supply structure and the exhaust structure used for the heat treatment unit 70 may be the same as those used for the blast treatment device 2.

[Second Example]
As shown in FIG. 2, after separating the heat treatment unit 70 from the blast treatment device 2 in the predetermined site area Z and receiving the old coating film discharged from the old coating film recovery path 52 in the temporary receiving bag 53, The old coating film in the temporary receiving bag 53 may be put into the heat treatment unit 70 to remove the PCB.

In addition to that, a step of peeling off the old coating film may be separately provided, and the peeled old coating film may be put into the heat treatment unit 70 to remove the PCB. For example, after using a known release agent, the old coating film may be charged into the heat treatment unit 70.

1 Maintenance treatment system 2 Blast treatment device 50 Dust collection unit (dust separation means)
52 Old coating film recovery path (connection means)
60 Air suction device (suction means)
70 Heat treatment unit (PCB removal device)
K steel bridge (steel structure)
Z site area

Claims (5)

It is a maintenance method for steel structures located in a predetermined site area.
A step of performing a blast treatment using a blast treatment device arranged in the site area in order to adjust the substrate of the steel structure, and a step of performing the blast treatment.
A step of charging the old coating film generated by the blast treatment into a PCB removing device arranged in the field area, and removing the PCB contained in the old coating film from the old coating film by the PCB removing device.
Including
The blasting apparatus has a suction means for sucking the old coating film generated by the blasting.
The PCB removing device is connected to the suction means, and the PCB removing device is connected to the suction means.
A maintenance method for a steel structure, characterized in that the old coating film sucked by the suction means is introduced into the PCB removing device. The suction means also has a function of sucking and collecting the used projectile material generated by the blast treatment.
Including a step of using the recovered used projectile material as a projectile material again in the blast processing apparatus for the blast treatment.
The maintenance method for steel structures according to claim 1. A steel structure maintenance treatment system used in the steel structure maintenance method according to claim 1 or 2.
With the blast processing device
With the PCB removal device
A connecting means for connecting the suction means of the blast processing device and the PCB removing device, and
Equipped with
The old coating film sucked by the suction means is introduced into the PCB removing device via the connecting means.
A maintenance treatment system for steel structures. The suction means has a dust separation means for removing only dust from a suction target including the old coating film that has been sucked.
The suction target containing the old coating film from which dust has been removed by the dust separating means is introduced into the PCB removing device via the connecting means.
The maintenance treatment system for steel structures according to claim 3. The suction means has a function of sucking and collecting the used projectile material generated by the blast treatment.
The blasting apparatus has a function of using the recovered projecting material as a projecting material again for the blasting process.
The maintenance treatment system for a steel structure according to claim 3 or 4.

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