The invention discloses an electric forklift driving wheel buffer mechanism and relates to the technical field of electric forklifts. The electric forklift driving wheel buffer mechanism comprises a forklift bottom plate, a fork and a spindle, wherein the bottom end of the spindle is connected with a fixing sleeve in a sleeved mode, the outer portion of the spindle is provided with a buffer coverin a sleeved mode, the fixing sleeve is arranged inside the forklift bottom plate in an embedded mode, an inner cavity is formed inside the buffer cover, a buffer spring is arranged inside the inner cavity, a limiting plate is integrally formed on the outer wall of the spindle, and the buffer spring is arranged on the outer wall of the spindle in a sleeving mode. According to the buffer mechanism,through the arrangement of connecting blocks, connecting grooves and fastening screws, rapid disassembling and assembling of the buffer cover and a connecting seat can be realized, convenience is brought to disassembling and assembling of the buffer mechanism, the disassembling and assembling efficiency of the buffer mechanism is greatly improved, so that maintenance or replacement of the buffermechanism is facilitated, the maintenance or replacement efficiency of the buffer mechanism is effectively improved, and normal use of the buffer mechanism is facilitated.
本发明公开了一种电动叉车驱动轮缓冲机构,涉及电动叉车技术领域,该电动叉车驱动轮缓冲机构,包括叉车底板、货叉和主轴,所述主轴的底端套接有固定套,且主轴的外部套设有缓冲罩,所述固定套嵌设于叉车底板的内部,所述缓冲罩的内部开设有内腔,且内腔的内部设置有缓冲弹簧,所述主轴的外壁一体成型有限位板,所述缓冲弹簧套设于主轴的外壁,本发明通过连接块、连接槽和紧固螺杆的设置,能够实现缓冲罩和连接座的快速拆装,便于缓冲机构的拆装,大大的提高了缓冲机构的拆装效率,从而便于缓冲机构的维修或更换,有效的提高了缓冲机构的维修或更换效率,以便于缓冲机构的正常使用。
Electric forklift driving wheel buffer mechanism
一种电动叉车驱动轮缓冲机构
2020-09-01
Patent
Electronic Resource
Chinese
IPC: | F16F SPRINGS , Federn / B66F HOISTING, LIFTING, HAULING, OR PUSHING, NOT OTHERWISE PROVIDED FOR, e.g. DEVICES WHICH APPLY A LIFTING OR PUSHING FORCE DIRECTLY TO THE SURFACE OF A LOAD , Hub-, Verhol- oder Schubvorrichtungen, soweit nicht anderweitig vorgesehen, z.B. Vorrichtungen mit unmittelbarer Krafteinwirkung auf die Last |