CN107756188A

CN107756188A - Numerically control grinder

Info

Publication number: CN107756188A
Application number: CN201610687905.XA
Authority: CN
Inventors: 钟泽
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-08-19
Filing date: 2016-08-19
Publication date: 2018-03-06

Abstract

A kind of numerically control grinder, for cage shaft coupling jackshaft raceway groove form grinding.Digital control system is connected with servomotor and stepper motor respectively, servomotor one, two, three is respectively arranged on bistrique frame, column and lathe bed base, Z, Y, X of digital control system are realized respectively to linear motion, and servomotor four is connected with indexing mechanism realizes workpiece numerical-controlled indexing or axial-rotation；Stepper motor is connected with trimmer realizes diamond pen gyration；Grinding wheel spindle is driven by grinding head motor provides grinding main motion；Lathe carries semi-enclosed shield, ventilation and dust removal and cooling recirculation system；Servomotor is driven by four-axle linked digital control system, and stepper motor is controlled with four-axle linked digital control system with program controller；The present invention is widely used in a variety of curve surface grinding processing of metal parts.Each part motion, positioning digit control operation, automaticity is high, and crushing precision is high, and working surface is smooth, and workpiece indexing accuracy is accurate, can be effectively improved work situation, mitigates the labor intensity of worker.

Description

Numerically control grinder

Technical field

The present invention relates to machining equipment technical field, is specifically a kind of be used in reinforced straight flute road cage shaft coupling The numerical-controlled grinder special of countershaft raceway groove shaping.

Background technology

It is straight that the both ends of the jackshaft of reinforced straight flute road cage shaft coupling are designed with some parallel with countershaft axis Inner sleeve of the raceway groove as two shaft couplings.The section of every raceway groove is ellipse, with shaft coupling corresponding to steel ball there are two to contact Point, the angle between two contact points have special technical requirements.This kind of workpiece has several different structure types, its typical structure ginseng See Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8.

The raceway groove at jackshaft both ends is final after quenching heat treatment to complete finishing by grinding.Domestic processing is same at present Processing technology and technological equipment are substantially in automaticity low general tool mill or spline shaft grinding machine used by class workpiece On be ground, the cutlery of form grinding is emery wheel, is indexed manually using universal dividing head and simple trimmer manual trim sand Wheel.The manual indexing accuracy of universal dividing head is low, and manual trim emery wheel is of poor quality, prevents the raceway groove of grinding-shaping from meeting well Its technical requirements；It is more that key element is adjusted when repairing emery wheel and grinding simultaneously, it is necessary to is manually completed, labor intensity is larger；Furthermore this The simple process equipment of class is without dustproof facilities, and dust is more when particularly repairing emery wheel, and the work situation of worker is poor.

The content of the invention

To overcome the shortcomings of existing equipment for grinding, goal of the invention of the invention is to provide a kind of numerically control grinder, passes through number Straight line or the gyration of system drive bistrique, bistrique frame, workbench, indexing mechanism and diamond pen are controlled, grinding is improved to realize The automaticity of equipment, improve work situation, lift the purpose of raceway groove grinding quality.

To achieve the above object, the technical scheme is that：Digital control system respectively with servomotor one, servomotor 2nd, servomotor three, servomotor four, stepper motor connection, servomotor one are installed on bistrique frame, pass through ball screw one Driving bistrique moves forward and backward, and realizes the front and rear of digital control system（Z axles）Linear motion；Servomotor two is installed on column, is passed through Ball screw two drives bistrique frame to move up and down, and realizes the upper and lower of digital control system（Y axles）Linear motion；Servomotor three is installed In on lathe bed base, table longitudinal movement is driven by ball screw three, realizes the left and right of digital control system（X axles）Straight line is transported It is dynamic；Servomotor four is connected with indexing mechanism, by the claw chuck and tailstock clamping workpiece being mounted thereon, to realize workpiece Numerical control scale-division or axial rotation motion；Stepper motor turns round axis connection by reducing gear and dresser, realizes emery wheel In trimmer diamond pen around gyroaxis gyration, during form truing, before and after bistrique（Z axles）It is offset to certain distance, Then rotate trimmer diamond pen and carry out form truing, stone surfacing is reached into requirement, it is higher to process The raceway groove of precision, so as to meet the special shape requirement of workpiece raceway groove；Grinding wheel spindle is directly driven by grinding head motor, drives emery wheel rotation Turn, there is provided cutting main motion during grinding.

The digital control system drives servomotor to operate by respective driver, servomotor one, servomotor two, watches Take motor three, servomotor four is four-axle linked system, stepper motor is autonomous system, passes through program controller and remaining four axle and coordinates Complete programme-control action.

Rolling linear guide is used between the bistrique frame and column, bistrique frame and bistrique, workbench and lathe bed, can be protected The flexibility and required precision moved between card part.

Brief description of the drawings

Fig. 1 is the system schematic of the present invention；

Fig. 2 is Fig. 1 side view；

Fig. 3 is Fig. 1 top view；

Fig. 4 is the jackshaft of reinforced straight flute road cage shaft coupling（Double head type）Structure diagram；

Fig. 5 is Fig. 4 side views；

Fig. 6 is the jackshaft of reinforced straight flute road cage shaft coupling（The type of single head I）Structure diagram；

Fig. 7 is Fig. 6 side view；

Fig. 8 is the jackshaft of reinforced straight flute road cage shaft coupling（The type of single head II）Structure diagram.

Embodiment

As shown in Figure 1, Figure 2, shown in Fig. 3, mechanical part of the invention is by lathe bed 1, column 25, bistrique frame 13, tailstock 8, bistrique 9th, workbench 4, dresser 6, indexing mechanism 17 and claw chuck 15, grinding wheel spindle 24, ventilation and dust removal system 27, semiclosed Formula shield 28, cooling recirculation system 26 etc. form.Column 25 is fixedly mounted on lathe bed 1, column 25 passes through rolling linear guide Link with ball screw 2 20 and bistrique frame 13；Bistrique frame 13 by rolling linear guide 10 and ball screw 1 with Bistrique 9 links；Grinding wheel spindle 24 is installed in bistrique 9, and emery wheel 23 is linked by grinding wheel spindle 24, grinding wheel spindle 24 is by bistrique electricity The driving operating of machine 18, drives emery wheel 23 to do principal cutting movement；Lathe bed 1 also passes through rolling linear guide and ball-screw 33 Link with workbench 4；Semi-enclosed shield 28 is installed around lathe bed；Cooling recirculation system 26 is placed on the ground of lathe bed left back ；The main frame of ventilation and dust removal system 27 is installed on behind column 25, is protected by flexible pipe 22 and the emery wheel positioned at the top of emery wheel 23 Suction opeing on cover 11 is connected；On the table top of workbench 4, in left side along the longitudinally mounted swinging dresser of diamond pen 5 6 ；Right side numerical control scale-division mechanism 17 of the installation with claw chuck 15 on the table top of workbench 4, coordinates clamping work with tailstock 8 Part 14.The centre of gyration of the centre of gyration of dresser 6,8 top center of tailstock and indexing mechanism 17 is in same straight line On.

The present invention digital control system respectively with servomotor 1, servomotor 2 12, servomotor 32, servomotor 4 16, stepper motor 7 connects.Servomotor 1 is installed on bistrique frame 13, before driving bistrique 9 by ball screw 21 After move, realize digital control system Z axles linear motion；Servomotor 2 12 is installed on column 25, passes through ball screw 20 Driving bistrique frame 13 moves up and down, and realizes the Y axles linear motion of digital control system；Servomotor 32 is installed on lathe bed 1, Drive workbench 4 to do the side-to-side movement of horizontal direction by ball screw 3, realize the X axles motion of digital control system；Servo electricity Machine 4 16 is connected with indexing mechanism 17, by the claw chuck 15 and the clamping workpiece 14 of tailstock 8 being mounted thereon, to realize The numerical control scale-division of workpiece 14 or rotary motion；Stepper motor 7 passes through reducing gear and the emery wheel being installed on the left of workbench 4 The revolution axis connection of trimmer 6, realize gyration of the diamond pen 5 around axle center of dresser 6；Digital control system passes through Respective driver motor operating, wherein servomotor 1, servomotor 2 12, servomotor 32, servomotor four 16 totally four sets of servo-drive systems be four-axle linked system, stepper motor 7 is independent digital control system, passes through program controller and remaining four axle Coordinate and complete programmable action.

Claims

A kind of 1. numerically control grinder, it is characterised in that：Digital control system respectively with servomotor one（19）, servomotor two（12）, watch Take motor three（2）, servomotor four（16）, stepper motor（7）Connection, servomotor one（19）It is installed on bistrique frame（13）On, Pass through ball screw one（21）Drive bistrique（9）Move forward and backward, realize the front and rear of digital control system（Z axles）Linear motion；Servo electricity Machine two（12）It is installed on column（25）On, pass through ball screw two（20）Drive bistrique frame（13）Move up and down, realize numerical control system Above and below system（Y axles）Linear motion；Servomotor three（2）It is installed on lathe bed（1）On base, pass through ball screw three（3）Driving Workbench（4）Lengthwise movement, realize the left and right of digital control system（X axles）Linear motion；Servomotor four（16）With indexing mechanism （17）Connection, passes through the claw chuck being mounted thereon（15）And tailstock（8）Clamping workpiece（14）, to realize workpiece（14）Number Control indexing or axial rotation motion；Stepper motor（7）Pass through reducing gear and dresser（6）Revolution axis connection, realize Dresser（6）Middle diamond pen（5）Around the gyration of gyroaxis；Grinding wheel spindle（24）By grinding head motor（18）Direct drive, Drive emery wheel（23）Rotation, there is provided cutting main motion during grinding.