A platform for research: civil engineering, architecture and urbanism
STEPLESS ELEVATION MECHANISM AND STEPLESS ELEVATION FAUCET
To provide a stepless elevation mechanism with a small difference in operating force during elevating for a stepless elevation faucet whose height of a spout can be adjusted.SOLUTION: The stepless elevation mechanism includes a mounting member 1, a movable tube 2 that is vertically connected to the mounting member 1, and a mounting base that is fixed to the mounting member 1. A slider 34 and an elastic body 35 are provided in the mounting chamber 33 of the mounting base. The sliding direction of the slider 34 is inclined so that it is separated from the movable tube 2 as the position is higher. The elastic body 35 is connected to the slider 34 so as to generate a downward elastic force along the sliding direction of the slider 34. A frictional force can be generated by the cooperation between the friction layer of the slider 34 and the outer wall of the movable tube 2. The movable tube 2 and the mounting member 1 are relatively stationary to realize stepless elevation by the friction layer of the slider 34 coming into contact with the outer peripheral wall of the movable tube 2, generating a frictional force, and tightening the movable tube 2.SELECTED DRAWING: Figure 2
【課題】吐水口の高さを調節可能な無段階昇降水栓において、昇降時の操作力の差が小さい無段階昇降機構を提供する。【解決手段】無段階昇降機構は、装着部材1と、昇降可能に装着部材1に接続される可動管2と、装着部材1に固設される装着ベースを含む。装着ベースの装着室33内にはスライダ34と弾性体35が設けられている。スライダ34の摺動方向は傾斜して配置され、且つ、位置が高くなるほど可動管2から離間する。弾性体35は、スライダ34の摺動方向に沿って下向きの弾性力を発生させるようスライダ34に接続されている。スライダ34の摩擦層と可動管2の外壁とが連携することで摩擦力を発生可能である。スライダ34の摩擦層が可動管2の外周壁に当接し、摩擦力を発生するとともに可動管2を緊締することで、可動管2と装着部材1が相対的に静止して、無段階昇降を実現する。【選択図】図2
STEPLESS ELEVATION MECHANISM AND STEPLESS ELEVATION FAUCET
To provide a stepless elevation mechanism with a small difference in operating force during elevating for a stepless elevation faucet whose height of a spout can be adjusted.SOLUTION: The stepless elevation mechanism includes a mounting member 1, a movable tube 2 that is vertically connected to the mounting member 1, and a mounting base that is fixed to the mounting member 1. A slider 34 and an elastic body 35 are provided in the mounting chamber 33 of the mounting base. The sliding direction of the slider 34 is inclined so that it is separated from the movable tube 2 as the position is higher. The elastic body 35 is connected to the slider 34 so as to generate a downward elastic force along the sliding direction of the slider 34. A frictional force can be generated by the cooperation between the friction layer of the slider 34 and the outer wall of the movable tube 2. The movable tube 2 and the mounting member 1 are relatively stationary to realize stepless elevation by the friction layer of the slider 34 coming into contact with the outer peripheral wall of the movable tube 2, generating a frictional force, and tightening the movable tube 2.SELECTED DRAWING: Figure 2
【課題】吐水口の高さを調節可能な無段階昇降水栓において、昇降時の操作力の差が小さい無段階昇降機構を提供する。【解決手段】無段階昇降機構は、装着部材1と、昇降可能に装着部材1に接続される可動管2と、装着部材1に固設される装着ベースを含む。装着ベースの装着室33内にはスライダ34と弾性体35が設けられている。スライダ34の摺動方向は傾斜して配置され、且つ、位置が高くなるほど可動管2から離間する。弾性体35は、スライダ34の摺動方向に沿って下向きの弾性力を発生させるようスライダ34に接続されている。スライダ34の摩擦層と可動管2の外壁とが連携することで摩擦力を発生可能である。スライダ34の摩擦層が可動管2の外周壁に当接し、摩擦力を発生するとともに可動管2を緊締することで、可動管2と装着部材1が相対的に静止して、無段階昇降を実現する。【選択図】図2
STEPLESS ELEVATION MECHANISM AND STEPLESS ELEVATION FAUCET
無段階昇降機構及び無段階昇降水栓
WEI ZHIJIAN (author) / ZHAO ZHENWEN (author) / YAN XIAOHU (author) / HU LIHONG (author)
2021-04-01
Patent
Electronic Resource
Japanese
IPC:
E03C
DOMESTIC PLUMBING INSTALLATIONS FOR FRESH WATER OR WASTE WATER
,
Hausinstallationen für Frisch- oder Abwasser