Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
To provide an underground heat exchange device capable of being constructed inexpensively and exhibiting a high heat exchange capacity.SOLUTION: An underground heat exchange device has an underground heat exchanger 110 that exchanges heat between a refrigerant and water stored underground, and uses the refrigerant whose heat has been exchanged in the underground heat exchanger 110 to further exchange heat with a predetermined heat pump device. The underground heat exchange device has a permeation chamber 140 that is excavated from the ground surface with a predetermined volume to store water such as rainwater. A heat exchange pipe through which the refrigerant flows as the underground heat exchanger 110 is disposed along the bottom surface of the permeation chamber 140, as a horizontally buried underground heat exchanger having a plurality of annular parts wound in an annular manner while being shifted so that some parts are preferably overlapped.SELECTED DRAWING: Figure 1
【課題】安価に構築できるとともに、高い熱交換能力が発揮される地中熱熱交換装置を提供する。【解決手段】冷媒を地中に溜められた水との間で熱交換させる地中熱交換器110を有し、上記地中熱交換器110にて熱交換された上記冷媒を用いて、所定のヒートポンプ装置との間でさらに熱交換する地中熱交換装置において、地表面から所定の容積をもって掘削され雨水等の水を貯留する浸透升140を有し、上記地中熱交換器110として上記冷媒が流される熱交換パイプを、好ましくは一部分が重なるようにずらしながら環状に巻いた複数の環状部を有する水平埋設型の地中熱交換器として上記浸透升140の底面に沿って配設する。【選択図】図1
To provide an underground heat exchange device capable of being constructed inexpensively and exhibiting a high heat exchange capacity.SOLUTION: An underground heat exchange device has an underground heat exchanger 110 that exchanges heat between a refrigerant and water stored underground, and uses the refrigerant whose heat has been exchanged in the underground heat exchanger 110 to further exchange heat with a predetermined heat pump device. The underground heat exchange device has a permeation chamber 140 that is excavated from the ground surface with a predetermined volume to store water such as rainwater. A heat exchange pipe through which the refrigerant flows as the underground heat exchanger 110 is disposed along the bottom surface of the permeation chamber 140, as a horizontally buried underground heat exchanger having a plurality of annular parts wound in an annular manner while being shifted so that some parts are preferably overlapped.SELECTED DRAWING: Figure 1
【課題】安価に構築できるとともに、高い熱交換能力が発揮される地中熱熱交換装置を提供する。【解決手段】冷媒を地中に溜められた水との間で熱交換させる地中熱交換器110を有し、上記地中熱交換器110にて熱交換された上記冷媒を用いて、所定のヒートポンプ装置との間でさらに熱交換する地中熱交換装置において、地表面から所定の容積をもって掘削され雨水等の水を貯留する浸透升140を有し、上記地中熱交換器110として上記冷媒が流される熱交換パイプを、好ましくは一部分が重なるようにずらしながら環状に巻いた複数の環状部を有する水平埋設型の地中熱交換器として上記浸透升140の底面に沿って配設する。【選択図】図1
UNDERGROUND HEAT EXCHANGE DEVICE
地中熱交換装置
TAKASUGI SHINJI (Autor:in)
27.09.2023
Patent
Elektronische Ressource
Japanisch
IPC:
F24T
GEOTHERMAL COLLECTORS
,
Erdwärmekollektoren
/
E03B
Anlagen oder Verfahren zum Gewinnen, Sammeln oder Verteilen von Wasser
,
INSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER
/
E03F
SEWERS
,
Abwasserkanäle
/
F24F
Klimatisierung
,
AIR-CONDITIONING
/
F25B
Kältemaschinen, Kälteanlagen oder Kälteverfahren
,
REFRIGERATION MACHINES, PLANTS, OR SYSTEMS
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