CN104096855B - Use method of turning processing component - Google Patents

Abstract

The invention provides a use method of a turning processing component. The turning processing component is used for turning shaft type parts, and comprises a profile modeling mechanism, a turning tool, a turning tool longitudinal-walking device (71), and a longitudinal guide rod (72), wherein the turning tool longitudinal-walking device (71) is used for driving the turning tool to longitudinally move along the longitudinal guide rod (72); moreover, the turning tool longitudinal-walking device (71) also allows the turning tool to do transverse relative movement relative to the turning tool longitudinal-walking device (71) and the longitudinal guide rod (72); the turning tool longitudinal-walking device (71) clamps and locks the turning tool, and allows the turning tool to be replaced.

Description

A kind of using method of turnery processing assembly

Technical field

The present invention relates to the machining field of workpiece, especially a kind of using method of turnery processing assembly.

Background technology

Copying is as foundation with ready-made pattern, during processing under certain pressure effect, contact and pattern work Make intimate surface contact, and move along its surface, by feeler mechanism, make cutter make synchronized profile modeling action, thus in part hair Part with pattern phase homotype face is processed on base.Copying is to various parts, the particularly die cavity of mould parts or type Face carries out one of important method of machining.Conventional copying has contour turning, profile milling, copying planing and profiling Grinding etc..

But copying has the disadvantage in that.It is often depending on the shape of its profiling mould for the machining shape of workpiece. And for the larger workpiece of flexibility, because its amount of having changes greatly, the curvature of shape is larger, rely solely on the profiling of pattern Shape is the crudy that difficult to reach needs.

Content of the invention

It is an object of the invention to provide a kind of turning technical scheme of copying, it disclosure satisfy that deep camber, bending become The shape processing changing larger workpiece needs.

A kind of using method of turnery processing assembly, described turnery processing assembly is used for turning shaft parts, and includes leaning on Mold mechanism, lathe tool, lathe tool longitudinal direction running gear and Der Laengslenker, lathe tool longitudinal direction running gear is used for driving lathe tool along described Der Laengslenker lengthwise movement, and described lathe tool longitudinal direction running gear also allows for lathe tool with respect to lathe tool longitudinal direction running gear and vertical Make laterally opposed motion to guide rod, lathe tool longitudinal direction running gear carries out clamping locking to lathe tool, and allows to change lathe tool；Described Master form mechanism is provided with processing profile contour, reworking profile contour and pattern contoured fit walking mechanism first, pattern Contoured fit walking mechanism is used for being connected between lathe tool and master form mechanism, and include road wheel with described in master form mechanism Contoured fit, first processing profile contour be used for first passage processing when control lathe tool the first lateral feed, described again Secondary processing profile contour be used for second passage processing when control lathe tool remaining lateral feed, the first lateral feed with remain Remaining lateral feed sum is total lateral feed, and described total lateral feed can characterize initial configuration and the end form of workpiece The difference of state；

Described processing profile contour and reworking profile contour first are for the horizontal stroke in described axial workpiece turning process Control to the amount of feeding and meet following formula:

smax=sq·(1+e%)

smin=sq·(1-e%)

Wherein,

Zmax represents maximum total lateral feed during axial workpiece turning；

Zmin represents minimum total lateral feed during axial workpiece turning；

Smax represents the remaining lateral feed at total lateral feed maximum position during axial workpiece turning；

Smin represents the remaining lateral feed at total lateral feed minimum position during axial workpiece turning；

The expectation lateral feed of lathe tool when sq represents the second passage processing；

E% represents that lathe tool is acceptable under the benchmark of described expectation lateral feed sq in the second passage processing Floating deviation percent；

S represents the remaining lateral feed at general position during axial workpiece turning；

Methods described comprises the steps:

A carries out turnery processing first using processing profile contour first to workpiece；

B changes lathe tool；

C carries out turnery processing again using reworking profile contour to workpiece.

By such scheme, process first with the first passage, the contour curve of turner is substantially processed；Right In the processing of the very big deep camber workpiece of degree of crook, with the curve surface of workpiece profile " oriented parallel " being formed during two passage processing (being described in detail below) is compared, and the solution of the present invention takes full advantage of expects the amount of feeding for when the second passage processing Allowable deviation +/- e%, in the location of workpiece of the indent needing big cutting output, utilizes+e%, that is, after first processing, the second passage Processing undertakes more cutting output；And protruding parts due to total cutting output less it is contemplated that cutting equilibrium and necessary cut The amount of cutting, to form surface accuracy, utilizes-e%.In other positions, draw remaining lateral feed using linear relationship；So, Using the contour shape of two patterns, reasonable distribution is carried out to the lateral feed of two passages；Avoid the second passage processing Form excessive cutting output, meanwhile, it also avoid in the larger position of total cutting output, the first passage undertakes a large amount of cuttings.So, Improve the force-bearing situation of cutter, improve cutter life, simultaneously as the situation inconsistent to processing capacity in curved profile is entered Go maximum balance, also improve the surface quality of workpiece simultaneously.By changing lathe tool, reworking pair can be met Two aspects in contour shape and surface accuracy require.

Brief description

Fig. 1 is the relation schematic diagram of the corresponding workpiece profile of the two passage processing when processing workpiece for the present invention；

Fig. 2 is the mutual relation schematic diagram on lateral feed for two patterns of the present invention；

Fig. 3 is the fiting relation figure with the walking mechanism of cutter for the master form mechanism of turnery processing assembly of the present invention.

Specific embodiment

With reference to Fig. 1-3, the present invention is described in detail.

A kind of using method of turnery processing assembly, described turnery processing assembly is used for turning shaft parts, and includes leaning on Mold mechanism, lathe tool, lathe tool longitudinal direction running gear 71 and Der Laengslenker 72, lathe tool longitudinal direction running gear 71 is used for driving lathe tool edge The lengthwise movement of described Der Laengslenker 72, and described lathe tool longitudinal direction running gear 71 also allows for lathe tool with respect to lathe tool lengthwise rows Walking apparatus 71 and Der Laengslenker 72 make laterally opposed motion, and lathe tool longitudinal direction running gear 71 carries out clamping locking to lathe tool, and Allow to change lathe tool；Described master form mechanism is provided with processing profile contour 11, reworking profile contour 12 and pattern first Contoured fit walking mechanism, pattern contoured fit walking mechanism is used for being connected between lathe tool and master form mechanism, and includes going Walk wheel with the described contoured fit with master form mechanism, processing profile contour 11 is for controlling lathe tool in the first passage processing first The first lateral feed, described reworking profile contour 12 be used for controlling in the second passage processing lathe tool remaining laterally The amount of feeding, the first lateral feed is total lateral feed with remaining lateral feed sum, and described total lateral feed can Characterize the initial configuration of workpiece and the difference of final form；

Described processing profile contour 11 and reworking profile contour 12 first are in described axial workpiece turning process Lateral feed control and meet following formula:

smax=sq·(1+e%)

smin=sq·(1-e%)

Wherein,

Zmax represents maximum total lateral feed during axial workpiece turning；

Zmin represents minimum total lateral feed during axial workpiece turning；

Smax represents the remaining lateral feed at total lateral feed maximum position during axial workpiece turning；

Smin represents the remaining lateral feed at total lateral feed minimum position during axial workpiece turning；

The expectation lateral feed of lathe tool when sq represents the second passage processing；

E% represents that lathe tool is acceptable under the benchmark of described expectation lateral feed sq in the second passage processing Floating deviation percent；

S represents the remaining lateral feed at general position during axial workpiece turning；

Methods described comprises the steps:

A carries out turnery processing first using processing profile contour 11 first to workpiece；

B changes lathe tool；

C carries out turnery processing again using reworking profile contour 12 to workpiece.

Claims (1)

1. a kind of using method of turnery processing assembly, described turnery processing assembly is used for turning shaft parts, and includes pattern Mechanism, lathe tool, lathe tool longitudinal direction running gear (71) and Der Laengslenker (72), lathe tool longitudinal direction running gear (71) is used for carrying motor-car Knife is along described Der Laengslenker (72) lengthwise movement, and described lathe tool longitudinal direction running gear (71) also allows for lathe tool with respect to car Knife longitudinal direction running gear (71) and Der Laengslenker (72) make laterally opposed motion, and lathe tool longitudinal direction running gear (71) is carried out to lathe tool Clamping locking, and allow to change lathe tool；Described master form mechanism is provided with processing profile contour (11), reworking profiling first Profile (12) and pattern contoured fit walking mechanism, pattern contoured fit walking mechanism is used for being connected to lathe tool and master form mechanism Between, and include road wheel with process profile contour (11), reworking profile contour described in master form mechanism first (12) coordinate successively, processing profile contour (11) first is used for controlling the first traverse feed of lathe tool in the first passage processing Amount, described reworking profile contour (12) is used for controlling the remaining lateral feed of lathe tool in the second passage processing, and first Lateral feed is total lateral feed with remaining lateral feed sum, and described total lateral feed can characterize the first of workpiece Beginning form and the difference of final form；

Described processing profile contour (11) and reworking profile contour (12) first are in described axial workpiece turning process Lateral feed control and meet following formula:

smax=sq·(1+e%)

smin=sq·(1-e%)

Wherein,

Z represents actual total lateral feed during axial workpiece turning；

Zmax represents maximum total lateral feed during axial workpiece turning；

Zmin represents minimum total lateral feed during axial workpiece turning；

Smax represents the remaining lateral feed at total lateral feed maximum position during axial workpiece turning；

Smin represents the remaining lateral feed at total lateral feed minimum position during axial workpiece turning；

The expectation lateral feed of lathe tool when sq represents the second passage processing；

E% represents lathe tool acceptable floating under the benchmark of described expectation lateral feed sq in the second passage processing Deviation percent；

S represents the remaining lateral feed at general position during axial workpiece turning；

Methods described comprises the steps:

A carries out turnery processing first using processing profile contour (11) first to workpiece；

B changes lathe tool；

C carries out turnery processing again using reworking profile contour (12) to workpiece.