Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
To provide an anti-freezable faucet pillar that can be configured so as to cope with many variations in height dimensions, and has a structure that allows quick and accurate replacement and repair.SOLUTION: An anti-freezable faucet pillar 1 comprises: a rising pipe 3 that is connected to a connection part 2; a water discharge part 4A that is connected to the rising pipe 3; an operation part 5A that is connected to the water discharge part 4A; a nozzle part 6 that is built in the connection part 2 and operates so that a water supply channel can be shut off; and a shaft part 8 that interlocks the nozzle part 6 in a vertical direction and inserts the nozzle part into the rising pipe 3, wherein the nozzle part 6 is rotatably and detachably connected to the shaft part 8, and the nozzle part is configured to switch between a drainage state where the water supply channel is shut off and drained downward by operation of the operation part 5A and a water flow state that enables water discharge from the water discharge part 4A.SELECTED DRAWING: Figure 1
【課題】高さ寸法のバリエーションが多くなっても対応できる構成にし、迅速かつ正確に交換修理が行える構造の不凍水栓柱を提供する。【解決手段】不凍水栓柱1は、接続部2に連結された立上り管3と、立上り管3に連結された吐水部4Aと、吐水部4Aに連結された操作部5Aとを備え、接続部2に内蔵されて給水路を遮断可能に作動するノズル部6と、ノズル部6を上下方向に連動させるとともに立上り管3に挿通している軸部8とを有し、ノズル部6は回動可能かつ着脱可能に軸部8に連結されており、操作部5Aの操作によって給水路を遮断して下方に排水する水抜き状態と吐水部4Aからの吐水を可能にする通水状態とを切り換える構成である。【選択図】図1
To provide an anti-freezable faucet pillar that can be configured so as to cope with many variations in height dimensions, and has a structure that allows quick and accurate replacement and repair.SOLUTION: An anti-freezable faucet pillar 1 comprises: a rising pipe 3 that is connected to a connection part 2; a water discharge part 4A that is connected to the rising pipe 3; an operation part 5A that is connected to the water discharge part 4A; a nozzle part 6 that is built in the connection part 2 and operates so that a water supply channel can be shut off; and a shaft part 8 that interlocks the nozzle part 6 in a vertical direction and inserts the nozzle part into the rising pipe 3, wherein the nozzle part 6 is rotatably and detachably connected to the shaft part 8, and the nozzle part is configured to switch between a drainage state where the water supply channel is shut off and drained downward by operation of the operation part 5A and a water flow state that enables water discharge from the water discharge part 4A.SELECTED DRAWING: Figure 1
【課題】高さ寸法のバリエーションが多くなっても対応できる構成にし、迅速かつ正確に交換修理が行える構造の不凍水栓柱を提供する。【解決手段】不凍水栓柱1は、接続部2に連結された立上り管3と、立上り管3に連結された吐水部4Aと、吐水部4Aに連結された操作部5Aとを備え、接続部2に内蔵されて給水路を遮断可能に作動するノズル部6と、ノズル部6を上下方向に連動させるとともに立上り管3に挿通している軸部8とを有し、ノズル部6は回動可能かつ着脱可能に軸部8に連結されており、操作部5Aの操作によって給水路を遮断して下方に排水する水抜き状態と吐水部4Aからの吐水を可能にする通水状態とを切り換える構成である。【選択図】図1
ANTI-FREEZABLE FAUCET PILLAR
不凍水栓柱
YAMADA TAKATO (Autor:in)
08.06.2022
Patent
Elektronische Ressource
Japanisch
IPC:
E03B
Anlagen oder Verfahren zum Gewinnen, Sammeln oder Verteilen von Wasser
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INSTALLATIONS OR METHODS FOR OBTAINING, COLLECTING, OR DISTRIBUTING WATER