CN103949928A

CN103949928A - Intermediate drive spindle mechanism for machining of axle

Info

Publication number: CN103949928A
Application number: CN201410179521.8A
Authority: CN
Inventors: 王家兴; 盖立亚; 刘妍; 陶崇立; 薛佟; 高扬; 赵亮; 李寿春; 侯淼; 周永胜; 孙艳红; 刘大敏; 杨司晨; 梁骞; 方中秋; 刘守胜; 邹滢
Original assignee: SHENYANG MACHINE TOOLS PLANT NO 1
Current assignee: SHENYANG MACHINE TOOLS PLANT NO 1
Priority date: 2014-04-30
Filing date: 2014-04-30
Publication date: 2014-07-30

Abstract

The invention provides an intermediate drive spindle mechanism for the machining of an axle, and aims to solve the problems of time consumption and labor consumption of feeding, blanking and assembly clamping of the axle with a relatively large size. A key point is that a spindle is arranged in a headstock through spindle bearings, wherein a spindle gear sleeves the spindle, and is fixed together with the spindle; the spindle gear, an intermediate gear and a transition gear are sequentially meshed; the intermediate gear is arranged on a support shaft through intermediate bearings, and rotates relative to the support shaft; the transition gear is connected to a spline sleeve through a key; a spline shaft is matched with the spline sleeve. The intermediate drive spindle mechanism has the beneficial effects that the intermediate drive spindle mechanism can move leftwards and rightwards, rotating power can be transmitted, and the machining efficiency is improved.

Description

The mainshaft mechanism that drives for vehicle bridge processing

Technical field

The present invention relates to field of machine tool equipment, especially relate to vehicle bridge processing in drive mainshaft mechanism.

Background technology

Vehicle bridge processing is the important component part of automobile industry, and the direct impact of working (machining) efficiency of vehicle bridge heavily blocks the development of industry, and one is driven mainshaft mechanism in good, can not only improve working (machining) efficiency, can also reduce labour intensity.

Vehicle bridge volume is relatively large, and conventional ADS driving mechanism drives contact area little, and driving force is not enough, and loading and unloading, being installed wastes time and energy, complex structure, and fault rate is high, and cost is high, affects working (machining) efficiency.

Summary of the invention

In order to solve the problem of above-mentioned existence, the invention provides a kind of mainshaft mechanism that drives for vehicle bridge processing, this mechanism is driven by centre, has improved working (machining) efficiency.

The technical solution adopted in the present invention is: main shaft is arranged in headstock by main shaft bearing, and mainshaft gear is enclosed within on main shaft, fixes with main shaft; Mainshaft gear, idler gear, transition gear mesh successively, and idler gear is installed on back shaft by intermediate bearing, and idler gear and back shaft are produced relative rotation, and transition gear key is connected on spline housing, and splined shaft coordinates with spline housing; In above-mentioned each gear, mainshaft gear is maximum.

The course of work of the present invention is as follows: first workpiece is fixed in main shaft, the then splined shaft of driven by servomotor rotation, drives spline housing, transition gear, idler gear, mainshaft gear, main shaft, workpiece to rotate successively, drives main shaft function in completing.Simultaneously, driving mainshaft mechanism can also moving axially along splined shaft.

Beneficial effect of the present invention: middle driving, both sides do not drive, and can realize the processing of workpiece, solve and drive hypodynamic problem, reduce the power of main electrical consumption.Improved working (machining) efficiency.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, further illustrate the present invention.

Fig. 1 is structural representation of the present invention.

The specific embodiment

Main shaft 4 is arranged on 1 li of headstock by main shaft bearing 2, by sealing ring 3, seals.Mainshaft gear 5 is enclosed within on main shaft, fixes with main shaft; Mainshaft gear, idler gear 6, transition gear 8 mesh successively, and idler gear is installed on back shaft 7 by intermediate bearing 11, and idler gear and back shaft are produced relative rotation, and transition gear key is connected on spline housing 9, and splined shaft 10 coordinates with spline housing; In above-mentioned each gear, mainshaft gear is maximum.

The course of work of the present invention is as follows: first workpiece is fixed in main shaft, then starts the rotation of driven by servomotor splined shaft, drive spline housing, transition gear, idler gear, mainshaft gear, main shaft, workpiece to rotate successively, drive main shaft function in completing.Simultaneously, driving mainshaft mechanism can also moving axially along splined shaft.The speed of mainshaft can be controlled with servomotor.

Claims

1. for the mainshaft mechanism that drives of vehicle bridge processing, it is characterized in that: main shaft is arranged in headstock by main shaft bearing, mainshaft gear is enclosed within on main shaft, fixes with main shaft; Mainshaft gear, idler gear, transition gear mesh successively, and idler gear is installed on back shaft by intermediate bearing, and idler gear and back shaft are produced relative rotation, and transition gear key is connected on spline housing, and splined shaft coordinates with spline housing; In above-mentioned each gear, mainshaft gear is maximum.