Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Fabricated energy pipe gallery and construction method thereof
The invention discloses a fabricated energy pipe gallery and a construction method thereof. The fabricated energy pipe gallery comprises a prefabricated bottom plate, a prefabricated left wall, a prefabricated right wall and a prefabricated top plate, wherein the prefabricated left wall and the prefabricated right wall are assembled on the two sides of the prefabricated bottom plate correspondingly; the prefabricated top plate is assembled between the top end of the prefabricated left wall and the top end of the prefabricated right wall; heat exchange pipes which are communicated in sequence are respectively embedded in the prefabricated bottom plate, the prefabricated left wall, the prefabricated right wall and the prefabricated top plate, and water inlets and water outlets of the heat exchange pipes are respectively connected to the heat pump unit to form a closed loop; the heat pump unit is in communication connection with a temperature control device, and the temperature control device monitors inlet and return water temperature and controls operation of the heat pump unit. The comprehensive pipe gallery is combined with the buried pipe technology, the heat exchange pipes are arranged on the periphery of the pipe gallery, the contact area between the heat exchange pipes and surrounding soil can be increased, and the utilization rate of geothermal energy is effectively increased; and the prefabricated fittings are independent after being spliced, so that later maintenance of the heat exchange pipe and the pipe gallery fittings is facilitated, and the overall failure rate of the energy pipe gallery is reduced.
本发明公开了一种装配式能源管廊及其施工方法,包括预制底板、分别装配在预制底板两侧的预制左墙和预制右墙以及装配在预制左墙顶端和预制右墙顶端之间的预制顶板;预制底板、预制左墙、预制右墙及所述预制顶板内分别埋设有依次连通的热交换管,热交换管的进水口和出水口分别连接在热泵机组上,形成闭合回路;热泵机组通信连接有温控装置,通过温控装置监测进回水温度并控制热泵机组的运行。该综合管廊与地埋管技术相结合,将热交换管布置在管廊四周,可以增大热交换管与周围土体的接触面积,有效提高地热能的利用率;且各预制配件拼接后各自独立,有利于后期对热交换管及管廊配件的维修养护,降低能源管廊的整体故障率。
Fabricated energy pipe gallery and construction method thereof
The invention discloses a fabricated energy pipe gallery and a construction method thereof. The fabricated energy pipe gallery comprises a prefabricated bottom plate, a prefabricated left wall, a prefabricated right wall and a prefabricated top plate, wherein the prefabricated left wall and the prefabricated right wall are assembled on the two sides of the prefabricated bottom plate correspondingly; the prefabricated top plate is assembled between the top end of the prefabricated left wall and the top end of the prefabricated right wall; heat exchange pipes which are communicated in sequence are respectively embedded in the prefabricated bottom plate, the prefabricated left wall, the prefabricated right wall and the prefabricated top plate, and water inlets and water outlets of the heat exchange pipes are respectively connected to the heat pump unit to form a closed loop; the heat pump unit is in communication connection with a temperature control device, and the temperature control device monitors inlet and return water temperature and controls operation of the heat pump unit. The comprehensive pipe gallery is combined with the buried pipe technology, the heat exchange pipes are arranged on the periphery of the pipe gallery, the contact area between the heat exchange pipes and surrounding soil can be increased, and the utilization rate of geothermal energy is effectively increased; and the prefabricated fittings are independent after being spliced, so that later maintenance of the heat exchange pipe and the pipe gallery fittings is facilitated, and the overall failure rate of the energy pipe gallery is reduced.
本发明公开了一种装配式能源管廊及其施工方法,包括预制底板、分别装配在预制底板两侧的预制左墙和预制右墙以及装配在预制左墙顶端和预制右墙顶端之间的预制顶板;预制底板、预制左墙、预制右墙及所述预制顶板内分别埋设有依次连通的热交换管,热交换管的进水口和出水口分别连接在热泵机组上,形成闭合回路;热泵机组通信连接有温控装置,通过温控装置监测进回水温度并控制热泵机组的运行。该综合管廊与地埋管技术相结合,将热交换管布置在管廊四周,可以增大热交换管与周围土体的接触面积,有效提高地热能的利用率;且各预制配件拼接后各自独立,有利于后期对热交换管及管廊配件的维修养护,降低能源管廊的整体故障率。
Fabricated energy pipe gallery and construction method thereof
一种装配式能源管廊及其施工方法
WANG CHENGLONG (Autor:in) / LIU HANLONG (Autor:in) / DING XUANMING (Autor:in) / ZHANG DINGXIN (Autor:in) / JIANG JIZE (Autor:in)
18.04.2023
Patent
Elektronische Ressource
Chinesisch
IPC:
E02D
FOUNDATIONS
,
Gründungen
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