Transmission mechanism achieving single-rotating-direction input and alternate output in forward rotating direction and reverse rotating direction

Abstract

The invention relates to a transmission mechanism achieving single-rotating-direction input and alternate output in a forward rotating direction and a reverse rotating direction, and belongs to the field of machines. A transmission input shaft is connected with a half gear I through a shaft rolling bearing, and the transmission input shaft is connected with a half gear II through a fixed key. A coaxial flange on the half gear II is fixedly connected with a bevel gear II, the bevel gear II is vertically engaged with a bevel gear III, and the bevel gear III is vertically engaged with a bevel gear I. The bevel gear III transfers transmission to the bevel gear I to drive half gear I fixedly connected with a coaxial flange on the bevel gear I to reversely rotate at constant speed. The toothed portion and the toothless portion of the half gear I and the toothed portion and the toothless portion of the half gear II are alternately engaged with and fixedly connected to two driven gears of a transmission output gear shaft, and the transmission output gear shaft is driven to rotate in the forward direction and the reverse direction alternately. A single-rotating-direction power source can be used for outputting alternate reverse rotation. The transmission mechanism can share the power source with other mechanisms. The transmission mechanism has the advantages of being simple in mechanical mechanism, large in output torque, high in reliability, low in production and maintenance cost and the like.

Description

technical field [0001] The invention relates to a transmission mechanism with single-rotation input and double-rotation forward and reverse alternate output, which belongs to the field of machinery. Background technique [0002] At present, the device that can intermittently output forward and reverse rotation is mainly realized by controlling the power source (motor). The present invention uses a mechanical mechanism to realize the transmission link, and only needs the continuous single-rotation transmission of the power source input. [0003] The current method of controlling the power source (motor) to achieve alternate positive and negative rotation requires a single power source, and it is difficult to share the power source with other transmission mechanisms. It is not possible to use a power source (internal combustion engine) that can only output in one direction. The invention can meet the requirements of using a single-rotation power source, and can share the powe...

AI Technical Summary

Problems solved by technology

[0004] The invention provides a transmission mechanism with single-rotation input and double-rotation forward and reverse alternate output, which is used to solve the problem that the single-rotation power source can output alternate reverse rotation

Images