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The invention discloses a high-temperature melting extrusion excavation construction method for an underground pipe gallery. The underground pipe gallery is formed by connecting pipelines which are automatically generated after underground soil and rock are subjected to high-temperature melting. The construction method specifically comprises the following steps: 1) detecting components in underground soil and rock; 2) heating at high temperature; 3) adding auxiliary elements; and 4) cooling and forming. According to the invention, molten soil and rock during underground squeezing and digging are molten into magma at high temperature, the magma is compounded into a ceramic composite material through mixing, and the ceramic composite material is manufactured into a structural member required by the section of an underground facility, so that the technical effect of naturally forming the structural members of pipelines, pipe galleries and underground facilities underground is achieved. The construction method is simple in process, low in cost and high in efficiency, the carbon ceramic pipe gallery with the water storage function can be rapidly formed underground, practicability is high, a large number of fresh water resources are obtained while the ground water storage function is perfected, and good application prospects and high application value are achieved.
本发明公开了一种地下管廊高温熔融挤掘施工方法,该地下管廊由地下土壤和岩石经过高温熔融后自动生成的管道连接而成;所述施工方法具体包括以下步骤:1)检测地下土壤与岩石中成分;2)高温加热;3)添加辅助元素;4)冷却成形。本发明通过高温将地下挤掘时熔融的土壤与岩石熔化成岩浆,通过混炼复配成陶瓷复合材料,制作成地下设施截面所需的结构件,达到自然在地下形成管道、管廊、地下设施结构件的技术效果。本施工方法过程简单,成本低,效率高,可以快速的在地下形成具有蓄水储水功能的碳陶管廊,实用性强,完善了大地蓄水功能的同时得到大量的淡水资源,具有较好的应用前景和较高的应用价值。
The invention discloses a high-temperature melting extrusion excavation construction method for an underground pipe gallery. The underground pipe gallery is formed by connecting pipelines which are automatically generated after underground soil and rock are subjected to high-temperature melting. The construction method specifically comprises the following steps: 1) detecting components in underground soil and rock; 2) heating at high temperature; 3) adding auxiliary elements; and 4) cooling and forming. According to the invention, molten soil and rock during underground squeezing and digging are molten into magma at high temperature, the magma is compounded into a ceramic composite material through mixing, and the ceramic composite material is manufactured into a structural member required by the section of an underground facility, so that the technical effect of naturally forming the structural members of pipelines, pipe galleries and underground facilities underground is achieved. The construction method is simple in process, low in cost and high in efficiency, the carbon ceramic pipe gallery with the water storage function can be rapidly formed underground, practicability is high, a large number of fresh water resources are obtained while the ground water storage function is perfected, and good application prospects and high application value are achieved.
本发明公开了一种地下管廊高温熔融挤掘施工方法,该地下管廊由地下土壤和岩石经过高温熔融后自动生成的管道连接而成;所述施工方法具体包括以下步骤:1)检测地下土壤与岩石中成分;2)高温加热;3)添加辅助元素;4)冷却成形。本发明通过高温将地下挤掘时熔融的土壤与岩石熔化成岩浆,通过混炼复配成陶瓷复合材料,制作成地下设施截面所需的结构件,达到自然在地下形成管道、管廊、地下设施结构件的技术效果。本施工方法过程简单,成本低,效率高,可以快速的在地下形成具有蓄水储水功能的碳陶管廊,实用性强,完善了大地蓄水功能的同时得到大量的淡水资源,具有较好的应用前景和较高的应用价值。
High-temperature melting extrusion excavation construction method for underground pipe gallery
一种地下管廊高温熔融挤掘施工方法
JIN YUGU (author)
2024-01-26
Patent
Electronic Resource
Chinese
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