A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
GEOTHERMAL HEAT EXCHANGER BODY, GEOTHERMAL HEAT EXCHANGER, GEOTHERMAL HEAT EXCHANGING SYSTEM AND CONSTRUCTION METHOD
PROBLEM TO BE SOLVED: To provide a geothermal heat exchanger et al. that can be efficiently laid in a small space.SOLUTION: A body 1 is used for a heat exchanger to perform heat exchange between a liquid medium circulated in the inside of a pipe body embedded in the ground and the ground. The body includes a stainless pipe 11 with an outer diameter of 15 mm or more and 25 mm or less, and a tip bit 12 connected to the side of one end 111 of the pipe 11 and including a tip part 121 forming a polyhedral cone shape disposed to one end while turning a bottom face 122. One end 111 of the pipe 11 is closed liquid-tightly by a tip bit 12 or by a connecting component 13 interposed between the pipe 11 and the tip bit 12. The bottom face 122 of the tip bit 12 is made the same as an outer circumference of the one end 111 of the pipe 11 or is made larger than that, and the polyhedral cone shape has side faces 123 of three faces or more and eight faces or less. The method includes a first step of applying a load to the body 1 by punching pressure or pressing force, and a second step of rotating the body 1.
【課題】効率よく小さなスペースで敷設できる地中熱交換器他を提供する。【解決手段】本体1は、地中に埋設された管体内部に流通される液媒と、地中と、の間で熱交換を行う熱交換器に用いられ、外径が15mm以上25mm以下のステンレス管11と、管11の一端111側に接続され、一端に底面122を向けて配設された多面錐形状をなす先端部121を備えた先端ビット12と、を備え、管11の一端111は、先端ビット12によって又は管11と先端ビット12との間に介在された接続部品13によって、液密に閉塞され、先端ビット12の底面122は、管11の一端111の外周と同じか又は大きくされ、多面錐形状が3面以上8面以下の側面123を有する。本方法は、打圧又は押圧によって本体1に対して荷重を掛ける第1の工程と、本体1を回転する第2の工程と、を備える。【選択図】図1
GEOTHERMAL HEAT EXCHANGER BODY, GEOTHERMAL HEAT EXCHANGER, GEOTHERMAL HEAT EXCHANGING SYSTEM AND CONSTRUCTION METHOD
PROBLEM TO BE SOLVED: To provide a geothermal heat exchanger et al. that can be efficiently laid in a small space.SOLUTION: A body 1 is used for a heat exchanger to perform heat exchange between a liquid medium circulated in the inside of a pipe body embedded in the ground and the ground. The body includes a stainless pipe 11 with an outer diameter of 15 mm or more and 25 mm or less, and a tip bit 12 connected to the side of one end 111 of the pipe 11 and including a tip part 121 forming a polyhedral cone shape disposed to one end while turning a bottom face 122. One end 111 of the pipe 11 is closed liquid-tightly by a tip bit 12 or by a connecting component 13 interposed between the pipe 11 and the tip bit 12. The bottom face 122 of the tip bit 12 is made the same as an outer circumference of the one end 111 of the pipe 11 or is made larger than that, and the polyhedral cone shape has side faces 123 of three faces or more and eight faces or less. The method includes a first step of applying a load to the body 1 by punching pressure or pressing force, and a second step of rotating the body 1.
【課題】効率よく小さなスペースで敷設できる地中熱交換器他を提供する。【解決手段】本体1は、地中に埋設された管体内部に流通される液媒と、地中と、の間で熱交換を行う熱交換器に用いられ、外径が15mm以上25mm以下のステンレス管11と、管11の一端111側に接続され、一端に底面122を向けて配設された多面錐形状をなす先端部121を備えた先端ビット12と、を備え、管11の一端111は、先端ビット12によって又は管11と先端ビット12との間に介在された接続部品13によって、液密に閉塞され、先端ビット12の底面122は、管11の一端111の外周と同じか又は大きくされ、多面錐形状が3面以上8面以下の側面123を有する。本方法は、打圧又は押圧によって本体1に対して荷重を掛ける第1の工程と、本体1を回転する第2の工程と、を備える。【選択図】図1
GEOTHERMAL HEAT EXCHANGER BODY, GEOTHERMAL HEAT EXCHANGER, GEOTHERMAL HEAT EXCHANGING SYSTEM AND CONSTRUCTION METHOD
地中熱交換器用本体、地中熱交換器、地中熱交換システム及び施工方法
KUBOTA KAZUMASA (author) / MATSUURA KOTARO (author)
2015-11-02
Patent
Electronic Resource
Japanese
IPC:
F24J
/
E02D
FOUNDATIONS
,
Gründungen
/
F28D
Wärmetauscher, soweit in keiner anderen Unterklasse vorgesehen, in denen die Wärmetauschmittel nicht in direkte Berührung miteinander kommen
,
HEAT-EXCHANGE APPARATUS, NOT PROVIDED FOR IN ANOTHER SUBCLASS, IN WHICH THE HEAT-EXCHANGE MEDIA DO NOT COME INTO DIRECT CONTACT
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