A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
DRIVING FORCE TRANSMISSION MECHANISM
PROBLEM TO BE SOLVED: To provide a driving force transmission mechanism capable of transmitting pressing force in any direction to a reciprocation direction of a drive device, with a simple structure.SOLUTION: Driving force transmission elements 60 as a plurality of rigid bodies are connected in a row, and inserted into a guide passage 70. To one end part of the row of the driving force transmission elements 60, a drive device 66 is connected, and to the other end of the row of the driving force transmission elements 60, a pressing action member 14 to which movement of the drive device 60 is transmitted is connected. The insertion direction of the guide passage 70 is folded in any direction, and an end part on the drive device 60 side is parallel to a moving direction of the drive device 60, and an end part on the pressing action member 14 side is parallel to a pressing direction of the pressing action member 14.SELECTED DRAWING: Figure 1
【課題】簡単な構造で、駆動装置の往復動方向に対して任意の方向に押圧力を伝えることができる駆動力伝達機構を提供する。【解決手段】複数個の剛体である駆動力伝達子60が、一列に連結されて、ガイド通路70の内側に挿通されている。駆動力伝達子60の列の一方の端部には、駆動装置66が連結され、駆動力伝達子60の列の他方の端部には、駆動装置60の動きが伝えられる押圧作用部材14が連結されている。ガイド通路70の挿通方向は、任意の方向に折り曲げられ、駆動装置60側の端部は、駆動装置60の動く方向に対して平行であり、押圧作用部材14側の端部は、押圧作用部材14を押す方向に対して平行である。【選択図】図1
DRIVING FORCE TRANSMISSION MECHANISM
PROBLEM TO BE SOLVED: To provide a driving force transmission mechanism capable of transmitting pressing force in any direction to a reciprocation direction of a drive device, with a simple structure.SOLUTION: Driving force transmission elements 60 as a plurality of rigid bodies are connected in a row, and inserted into a guide passage 70. To one end part of the row of the driving force transmission elements 60, a drive device 66 is connected, and to the other end of the row of the driving force transmission elements 60, a pressing action member 14 to which movement of the drive device 60 is transmitted is connected. The insertion direction of the guide passage 70 is folded in any direction, and an end part on the drive device 60 side is parallel to a moving direction of the drive device 60, and an end part on the pressing action member 14 side is parallel to a pressing direction of the pressing action member 14.SELECTED DRAWING: Figure 1
【課題】簡単な構造で、駆動装置の往復動方向に対して任意の方向に押圧力を伝えることができる駆動力伝達機構を提供する。【解決手段】複数個の剛体である駆動力伝達子60が、一列に連結されて、ガイド通路70の内側に挿通されている。駆動力伝達子60の列の一方の端部には、駆動装置66が連結され、駆動力伝達子60の列の他方の端部には、駆動装置60の動きが伝えられる押圧作用部材14が連結されている。ガイド通路70の挿通方向は、任意の方向に折り曲げられ、駆動装置60側の端部は、駆動装置60の動く方向に対して平行であり、押圧作用部材14側の端部は、押圧作用部材14を押す方向に対して平行である。【選択図】図1
DRIVING FORCE TRANSMISSION MECHANISM
駆動力伝達機構
NAKAJIMA TOYOSHI (author)
2017-03-09
Patent
Electronic Resource
Japanese
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