A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
LEVER ASSEMBLY STRUCTURE AND LEVER ASSEMBLY METHOD
PROBLEM TO BE SOLVED: To improve assembly workability of a rotary lever arranged in an energized state by a spring.SOLUTION: A lever arrangement part 126 is provided with a holding part 129a for holding a second end part 673 of a spring 670, and a detection lever 660 is provided with a guide part 664b for guiding and locking the second end part 673 to and on a second locking part 664a, by moving the second end part 673 held by the holding part 129a in the inverse direction to the energization direction of the second end part 673, and a first end part 672 of the spring 670 is locked on a first locking part 128 of the lever arrangement part 126, and the second end part 673 of the spring 670 is held by the holding part 129a, and in a state of arranging the spring 670 in the lever arrangement part 126, the detection lever 660 is arranged in the lever arrangement part 126, so that the second end part 673 of the spring 670 can be locked on the second locking part 664a.SELECTED DRAWING: Figure 13A
【課題】スプリングによって付勢した状態で配置される回転レバーの組付作業性を向上する。【解決手段】レバー配置部126に、スプリング670の第2端部673を保持する保持部129aを設けるとともに、検出レバー660に、保持部129aに保持した第2端部673を第2端部673の付勢方向に対して逆向きに移動させ、第2端部673を第2係止部664aへ案内して係止させるガイド部664bを設け、スプリング670の第1端部672をレバー配置部126の第1係止部128に係止するとともにスプリング670の第2端部673を保持部129aに保持させて、スプリング670をレバー配置部126に配置した状態で、検出レバー660をレバー配置部126に配置することで、スプリング670の第2端部673を第2係止部664aに係止可能としている。【選択図】図13A
LEVER ASSEMBLY STRUCTURE AND LEVER ASSEMBLY METHOD
PROBLEM TO BE SOLVED: To improve assembly workability of a rotary lever arranged in an energized state by a spring.SOLUTION: A lever arrangement part 126 is provided with a holding part 129a for holding a second end part 673 of a spring 670, and a detection lever 660 is provided with a guide part 664b for guiding and locking the second end part 673 to and on a second locking part 664a, by moving the second end part 673 held by the holding part 129a in the inverse direction to the energization direction of the second end part 673, and a first end part 672 of the spring 670 is locked on a first locking part 128 of the lever arrangement part 126, and the second end part 673 of the spring 670 is held by the holding part 129a, and in a state of arranging the spring 670 in the lever arrangement part 126, the detection lever 660 is arranged in the lever arrangement part 126, so that the second end part 673 of the spring 670 can be locked on the second locking part 664a.SELECTED DRAWING: Figure 13A
【課題】スプリングによって付勢した状態で配置される回転レバーの組付作業性を向上する。【解決手段】レバー配置部126に、スプリング670の第2端部673を保持する保持部129aを設けるとともに、検出レバー660に、保持部129aに保持した第2端部673を第2端部673の付勢方向に対して逆向きに移動させ、第2端部673を第2係止部664aへ案内して係止させるガイド部664bを設け、スプリング670の第1端部672をレバー配置部126の第1係止部128に係止するとともにスプリング670の第2端部673を保持部129aに保持させて、スプリング670をレバー配置部126に配置した状態で、検出レバー660をレバー配置部126に配置することで、スプリング670の第2端部673を第2係止部664aに係止可能としている。【選択図】図13A
LEVER ASSEMBLY STRUCTURE AND LEVER ASSEMBLY METHOD
レバー組付構造及びレバー組付方法
AKAGI SHINYA (author)
2016-12-08
Patent
Electronic Resource
Japanese