The invention relates to an automobile stress application wheel. A transmission shaft is connected with a differential mechanism, bearings are installed at the two ends of the transmission shaft, bearing sealing covers are installed at the two ends of the transmission shaft and installed at the two ends of the inner holes of wheels, and a first bearing sealing ring is installed in the clamping groove of the inner hole of the bearing sealing cover; a second bearing sealing ring is installed in the clamping groove of the inner hole of the other bearing sealing cover. The wheels are installed at the two ends of the transmission shaft, the bearing sealing covers are fixed to the wheels through the first screw rods, the connecting disc is installed on the wheels, the connecting disc shaft is fixed to the connecting disc, the supporting rod is installed on the wheels, the connecting rod is installed on the supporting rod, and a pull rod is installed in the inner hole of the connecting rod. A spring is installed on the outer diameter of the pull rod, a connecting rod cover is installed on the top end face of the connecting rod, a connecting rod check ring is installed on the hole position of the pull rod, a connecting disc check ring is installed on the two end faces of the transmission shaft and fixes the connecting disc through the second screw rod, the transmission shaft rotates to drive the connecting disc to rotate, the connecting disc rotates to drive the connecting rod, and the connecting rod pulls the wheels to rotate. The connecting rod is driven by the connecting disc to rotate to form a labor-saving lever, and thus the transmission efficiency of the wheels is improved.
本发明涉及一种纯电动汽车加力轮,传动轴连接差速器,轴承安装在传动轴两端,轴承密封盖安装在传动轴两端上,轴承密封盖安装在车轮内孔两端,轴承密封圈一安装在轴承密封盖内孔卡槽中,轴承密封圈二安装在另外一个轴承密封盖内孔卡槽中,车轮安装在传动轴两端,轴承密封盖用螺杆一与车轮固定,连盘安装在车轮上,连盘轴固定在连盘上,支撑杆安装在车轮上,连杆安装在支撑杆上,拉杆安装在连杆内孔中,弹簧安装在拉杆外径上,连杆盖安装在连杆顶端面,连杆挡圈安装在拉杆孔位处,连盘挡圈安装在传动轴两端面用螺杆二固定连盘,传动轴旋转带动连盘旋转,连盘旋转带动连杆,连杆拉动车轮旋转,因为连盘旋转带动连杆是省力杠杆,所以增加了车轮的传动效率。
Automobile stress application wheel
汽车加力轮
2021-09-07
Patent
Electronic Resource
Chinese
European Patent Office | 2015
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