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A platform for research: civil engineering, architecture and urbanism
EARTHQUAKE STRENGTHENING METHOD OF REFRIGERATED WAREHOUSE
PROBLEM TO BE SOLVED: To provide an earthquake strengthening method for a refrigerated warehouse capable of efficiently earthquake strengthening a refrigerated warehouse without stopping refrigerating operation.SOLUTION: By temporarily setting a partition wall body 1 inside an operating refrigerator warehouse S, a refrigeration region RA in which an article is stored in the refrigerated warehouse S and a construction region CA in which an inflow of cold air is suppressed by the partition wall 1 are made to coexist. Then, a steel frame braces 10 that have been constructed in advance are carried into the construction region CA, and installed in a mounting part 25 at a predetermined position, and a solidification material having fluidity is filled between the mounting part 25 and the steel frame brace 10. And, the solidification material is solidified by heating it to a temperature equal to or higher than a predetermined temperature by heating means, thereby fixing the steel brace 10 to the attachment part 25.SELECTED DRAWING: Figure 1
【課題】冷蔵運転を止めることなく効率的に冷蔵倉庫の耐震補強を行うことができる冷蔵倉庫の耐震補強方法を提供する。【解決手段】稼働している冷蔵倉庫Sの内部に仕切り壁体1を仮設することにより、冷蔵倉庫Sの内部に品物を冷蔵保管する冷蔵領域RAと、仕切り壁体1により区画されて冷気の流入が抑制される施工領域CAとを併存させた状態にする。そして、予め構築されている鉄骨ブレース10を施工領域CAに搬入して所定位置の取り付け部25に設置し、取り付け部25と鉄骨ブレース10との間に流動性の固化材を充填する。そして、固化材を加温手段によって所定温度以上に加温した状態にして固化させることにより、鉄骨ブレース10を取り付け部25に固定する。【選択図】図1
EARTHQUAKE STRENGTHENING METHOD OF REFRIGERATED WAREHOUSE
PROBLEM TO BE SOLVED: To provide an earthquake strengthening method for a refrigerated warehouse capable of efficiently earthquake strengthening a refrigerated warehouse without stopping refrigerating operation.SOLUTION: By temporarily setting a partition wall body 1 inside an operating refrigerator warehouse S, a refrigeration region RA in which an article is stored in the refrigerated warehouse S and a construction region CA in which an inflow of cold air is suppressed by the partition wall 1 are made to coexist. Then, a steel frame braces 10 that have been constructed in advance are carried into the construction region CA, and installed in a mounting part 25 at a predetermined position, and a solidification material having fluidity is filled between the mounting part 25 and the steel frame brace 10. And, the solidification material is solidified by heating it to a temperature equal to or higher than a predetermined temperature by heating means, thereby fixing the steel brace 10 to the attachment part 25.SELECTED DRAWING: Figure 1
【課題】冷蔵運転を止めることなく効率的に冷蔵倉庫の耐震補強を行うことができる冷蔵倉庫の耐震補強方法を提供する。【解決手段】稼働している冷蔵倉庫Sの内部に仕切り壁体1を仮設することにより、冷蔵倉庫Sの内部に品物を冷蔵保管する冷蔵領域RAと、仕切り壁体1により区画されて冷気の流入が抑制される施工領域CAとを併存させた状態にする。そして、予め構築されている鉄骨ブレース10を施工領域CAに搬入して所定位置の取り付け部25に設置し、取り付け部25と鉄骨ブレース10との間に流動性の固化材を充填する。そして、固化材を加温手段によって所定温度以上に加温した状態にして固化させることにより、鉄骨ブレース10を取り付け部25に固定する。【選択図】図1
EARTHQUAKE STRENGTHENING METHOD OF REFRIGERATED WAREHOUSE
冷蔵倉庫の耐震補強方法
KAWAMURA KOJI (author)
2018-06-14
Patent
Electronic Resource
Japanese
IPC:
E04G
SCAFFOLDING
,
Baugerüste
Demand response in refrigerated warehouse
| IEEE | 2018
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