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A platform for research: civil engineering, architecture and urbanism
FROZEN SOIL THICKNESS CONTROL METHOD, FROZEN SOIL THICKNESS CONTROL SYSTEM, AND TEMPERATURE MEASURING TUBE
To provide a frozen soil thickness control method, a frozen soil thickness control system, and a temperature measuring tube capable of suppressing excessive freezing in a predetermined range of frozen soil.SOLUTION: A frozen soil thickness control system 2 comprising a freezing tube 3 installed on the ground 1, a freezing device 4 that circulates a freezing refrigerant in the freezing tube 3, an electromagnetic wave generator 5, and a plurality of antennas 6 for irradiating the ground 1 spaced apart from the freezing tube 3 by a predetermined distance with electromagnetic waves generated by the electromagnetic wave generator 5, is formed in the ground 1. Also, a temperature measuring tube 7 capable of measuring the thickness of a frozen soil 8 and emitting electromagnetic waves is installed on the ground 1. The temperature measuring tube 7 has a temperature sensor 11 for temperature measurement and the antenna 6 for irradiating electromagnetic waves arranged inside a tubular body 10. Electromagnetic waves generated by the electromagnetic wave generator 5 are applied to the ground 1 to heat the vicinity of a target formation surface 15 of the frozen soil 8, thereby suppressing the growth of the frozen soil 8 beyond the target formation surface 15.SELECTED DRAWING: Figure 3
【課題】凍土の所定の範囲において過剰凍結を抑制できる凍土厚の制御方法、凍土厚の制御システムおよび測温管を提供する。【解決手段】地盤1に設置される凍結管3と、凍結管3に凍結冷媒を循環させる凍結装置4と、電磁波発生装置5と、電磁波発生装置5から発生した電磁波を凍結管3から所定距離離間した地盤1に照射する複数のアンテナ6と、を具備する凍土厚制御システム2を地盤1に形成する。また、凍土8の厚さを測定するとともに電磁波を照射可能な測温管7を地盤1に設置する。測温管7は、管体10の内部に、測温用の温度センサ11と、電磁波を照射するためのアンテナ6が配置される。そして、電磁波発生装置5で発生させた電磁波を地盤1に照射して凍土8の目標形成面15の近傍を加熱し、凍土8が目標形成面15を超えて成長することを抑制する。【選択図】図3
FROZEN SOIL THICKNESS CONTROL METHOD, FROZEN SOIL THICKNESS CONTROL SYSTEM, AND TEMPERATURE MEASURING TUBE
To provide a frozen soil thickness control method, a frozen soil thickness control system, and a temperature measuring tube capable of suppressing excessive freezing in a predetermined range of frozen soil.SOLUTION: A frozen soil thickness control system 2 comprising a freezing tube 3 installed on the ground 1, a freezing device 4 that circulates a freezing refrigerant in the freezing tube 3, an electromagnetic wave generator 5, and a plurality of antennas 6 for irradiating the ground 1 spaced apart from the freezing tube 3 by a predetermined distance with electromagnetic waves generated by the electromagnetic wave generator 5, is formed in the ground 1. Also, a temperature measuring tube 7 capable of measuring the thickness of a frozen soil 8 and emitting electromagnetic waves is installed on the ground 1. The temperature measuring tube 7 has a temperature sensor 11 for temperature measurement and the antenna 6 for irradiating electromagnetic waves arranged inside a tubular body 10. Electromagnetic waves generated by the electromagnetic wave generator 5 are applied to the ground 1 to heat the vicinity of a target formation surface 15 of the frozen soil 8, thereby suppressing the growth of the frozen soil 8 beyond the target formation surface 15.SELECTED DRAWING: Figure 3
【課題】凍土の所定の範囲において過剰凍結を抑制できる凍土厚の制御方法、凍土厚の制御システムおよび測温管を提供する。【解決手段】地盤1に設置される凍結管3と、凍結管3に凍結冷媒を循環させる凍結装置4と、電磁波発生装置5と、電磁波発生装置5から発生した電磁波を凍結管3から所定距離離間した地盤1に照射する複数のアンテナ6と、を具備する凍土厚制御システム2を地盤1に形成する。また、凍土8の厚さを測定するとともに電磁波を照射可能な測温管7を地盤1に設置する。測温管7は、管体10の内部に、測温用の温度センサ11と、電磁波を照射するためのアンテナ6が配置される。そして、電磁波発生装置5で発生させた電磁波を地盤1に照射して凍土8の目標形成面15の近傍を加熱し、凍土8が目標形成面15を超えて成長することを抑制する。【選択図】図3
FROZEN SOIL THICKNESS CONTROL METHOD, FROZEN SOIL THICKNESS CONTROL SYSTEM, AND TEMPERATURE MEASURING TUBE
凍土厚の制御方法、凍土厚の制御システムおよび測温管
KAWANO KENICHI (author) / NAGATANI HIDEMOTO (author) / SATO KAZUNARI (author) / YOSHIDA TERU (author) / ISHIZUKA AKINORI (author) / KIDANI KEIJI (author) / KANESHIRO RYUHEI (author)
2023-05-24
Patent
Electronic Resource
Japanese
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