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Clamping mechanism applied to electric clamping lock button
The invention discloses a clamping mechanism applied to an electric clamping lock button. The clamping mechanism comprises a bottom plate, a transition plate, a rivet, the lock button and a shaft sleeve; the bottom plate is provided with a U-type groove and a first guide groove; the central line of the U-type groove and the central line of the first guide groove are located in the same horizontal line; the rivet passes through the transition plate and is riveted on the bottom plate; the transition plate is rotated by using the rivet as the rotation center; the rivet is located between the U-type groove and the first guide groove; the lock button is n-shaped, and comprises a first support leg and a second support leg; the first support leg passes through the transition plate, and is installed in the U-type groove by installing the shaft sleeve; the second support leg passes through the transition plate, and is installed in the first guide groove; the transition plate is provided with a station removing groove matched with the first support leg; and the transition plate is further provided with a second guide groove matched with the second support leg. The distance between the right end of the second guide groove and the rivet is greater than the distance between the left end of the second guide groove and the rivet, and the motion travel of the lock button can be controlled by changing the distance difference value.
Clamping mechanism applied to electric clamping lock button
The invention discloses a clamping mechanism applied to an electric clamping lock button. The clamping mechanism comprises a bottom plate, a transition plate, a rivet, the lock button and a shaft sleeve; the bottom plate is provided with a U-type groove and a first guide groove; the central line of the U-type groove and the central line of the first guide groove are located in the same horizontal line; the rivet passes through the transition plate and is riveted on the bottom plate; the transition plate is rotated by using the rivet as the rotation center; the rivet is located between the U-type groove and the first guide groove; the lock button is n-shaped, and comprises a first support leg and a second support leg; the first support leg passes through the transition plate, and is installed in the U-type groove by installing the shaft sleeve; the second support leg passes through the transition plate, and is installed in the first guide groove; the transition plate is provided with a station removing groove matched with the first support leg; and the transition plate is further provided with a second guide groove matched with the second support leg. The distance between the right end of the second guide groove and the rivet is greater than the distance between the left end of the second guide groove and the rivet, and the motion travel of the lock button can be controlled by changing the distance difference value.
Clamping mechanism applied to electric clamping lock button
TANG JIEHU (author) / OU YUHE (author) / XU DANDAN (author) / YUAN YANFEI (author)
2015-07-08
Patent
Electronic Resource
English
IPC:
E05B
LOCKS
,
Schlösser
Clamping plate type anti-shearing lock of electric vehicle
| European Patent Office | 2015