CN102225533A

CN102225533A - Surface grinder numerical control system with bumpy grinding function

Info

Publication number: CN102225533A
Application number: CN201110112774XA
Authority: CN
Inventors: 张伟宁; 乐兴旺
Original assignee: GUILIN CITY TONGLI AUTOMATIZATION SYSTEM CO Ltd
Current assignee: GUILIN CITY TONGLI AUTOMATIZATION SYSTEM CO Ltd
Priority date: 2011-05-03
Filing date: 2011-05-03
Publication date: 2011-10-26

Abstract

The invention discloses a surface grinder numerical control system with a bumpy grinding function, and the system provided by the invention a PLC (programmable logic controller) numerical control device, an abrasion wheel vertical feeding driving device controlled by the PLC numerical control device, a longitudinal movement workbench driven by an oil cylinder, and an induction device for detecting the longitudinal movement distance and direction of the workbench. The induction device is connected with the PLC numerical control device through a circuit. The induction device comprises a sensor and a gear rack which are inducted with each other, a gear rack and a rotary coder which are meshed with each other or a pull encoder. As the induction device is arranged, the system sends an induction signal to the PLC numerical control device and controls the vertical feeding of the abrasive wheel through the bumpy surface grinding parameters set by the PLC numerical control device so as to realize the complex bumpy surface grinding on a common numerical control surface grinder the workbench of which is driven by the oil cylinder. The system is simple in structure, low in cost, steady and reliable in property and easy in maintenance.

Description

Surface grinding machine digital control system with concavo-convex grinding function

(1) technical field:

The present invention relates to the Machine Tools Electric automation control system, is a kind of surface grinding machine digital control system with concavo-convex grinding function specifically.

(2) background technology:

When workpiece such as machine tool guideway, grinding tool being carried out grinding with surface grinding machine, usually need on the basis of flat surface grinding, carry out vertical concave-convex curved surface grinding of trace, way is traditionally, the lengthwise movement of numerical control plane Grinder bench and the vertical feed of emery wheel are moved by the numerical control axle and are driven control, to realize described concave-convex curved surface grinding.

But present surface grinding machine, though especially the feeding of Large Plane Grinder emery wheel is the numerical control axle, promote by oil cylinder by hydraulic system but the length travel of workbench is many, but not pass through motor-driven, therefore the grinding machine digital control system can't realize the concave-convex curved surface grinding owing to can't judge vertical Working position that workpiece is current on the longitudinal grinding direction of workpiece.

(3) summary of the invention:

The invention provides a kind of surface grinding machine digital control system that realizes the vertical concavo-convex grinding of workpiece with concavo-convex grinding function.

Realize the key of vertical concave-convex curved surface grinding on the plane numerical controlled grinding machine of oil cylinder push work platform, be to make the PLC digital control system can detect workpiece (workbench) present located longitudinal grinding Working position and moving direction by induction installation, by the perpendicular grinding amount of feeding of PLC digital control system instruction emery wheel vertical feed driving device controls emery wheel, reach the purpose of the vertical concavo-convex grinding of workpiece again.

Can realize the surface grinding machine digital control system with concavo-convex grinding function of above-mentioned purpose, comprise the PLC numerical control device, by the emery wheel vertical feed drive unit of PLC numerical control device control with by the workbench that vertically moves of hydraulic oil cylinder driving, different is to comprise that also the testing platform vertically moves the induction installation of distance and direction, and described induction installation connects the PLC numerical control device by circuit.

Described induction installation has three kinds of versions:

1, described induction installation is the combination of proximity transducer and tooth bar.

Described tooth bar longitudinally is installed on the workbench, a proximity transducer is installed at least on lathe bed, and the inductive head of each proximity transducer is near tooth bar.

When workbench carries workpiece when doing lengthwise movement, tooth bar lengthwise movement simultaneously, along with tooth root on the tooth bar, tooth top is alternately through proximity transducer, proximity transducer can send pulse signal, this pulse signal has reflected that tooth root or tooth top move through the T/A of proximity transducer, the PLC numerical control device receives this pulse signal, tooth pitch according to tooth bar calculates workbench (workpiece) present located longitudinal grinding Working position and moving direction, send the feeding control signal according to default concave-convex curved surface grinding parameter, control emery wheel vertical feed drive unit is adjusted the perpendicular grinding amount of feeding of emery wheel at any time, thereby realizes the grinding of concave-convex curved surface.

Described tooth bar and proximity transducer can be installed by transposition, can detect the present bit shifting state of workpiece equally, realize the grinding of concave-convex curved surface.

2, described induction installation is the combination of rotary encoder and tooth bar.

Described tooth bar longitudinally is installed on the workbench, and described rotary encoder is installed on the lathe bed, and the wheel and rack in the rotary encoder rotating shaft is meshed.

When workbench carries workpiece when doing lengthwise movement, tooth bar lengthwise movement simultaneously, the driven rotary encoder rotates, make rotary encoder send pulse signal, after the PLC numerical control device receives this pulse signal, calculate workbench (workpiece) present located longitudinal grinding Working position and moving direction according to the tooth pitch of tooth bar and the resolution ratio of rotary encoder, send the feeding control signal according to default concave-convex curved surface grinding parameter, control emery wheel vertical feed drive unit is adjusted the perpendicular grinding amount of feeding of emery wheel at any time, thereby realizes the grinding of concave-convex curved surface.

Described tooth bar and rotary encoder also can be installed by transposition, can detect the present bit shifting state of workpiece equally, realize the grinding of concave-convex curved surface.

3, described induction installation is the backguy encoder, and the pull wire head of backguy encoder is fixed on the workbench, and the backguy encoder is installed on the lathe bed; Or pull wire head is fixed on the lathe bed, and the backguy encoder is installed on the workbench.

Pulse signal is sent in the rotation of pulling rotary encoder during working table movement, after the PLC numerical control device receives this pulse signal, resolution ratio according to rotary encoder calculates workpiece present located longitudinal grinding Working position and moving direction, send the feeding control signal according to default concave-convex curved surface grinding parameter, control emery wheel vertical feed drive unit is adjusted the perpendicular grinding amount of feeding of emery wheel at any time, thereby realizes the grinding of concave-convex curved surface.

Advantage of the present invention:

The present invention has the surface grinding machine digital control system of concavo-convex grinding function by the induction installation of testing platform displacement and direction is set, send pulse signal by induction installation and give the PLC numerical control device, control the emery wheel vertical feed by the concave-convex curved surface grinding parameter that the PLC numerical control device is provided with, thereby on the general NC surface grinding machine of oil cylinder push work platform, realize complicated concave-convex curved surface grinding, can reach the technology acuracy requirement of numerical-controlled grinder special fully, and the present invention is simple in structure, with low cost, stable and reliable for performance, be easy to safeguard.

(4) description of drawings:

Fig. 1 is the perspective view of one embodiment of the present invention;

Fig. 2 is the perspective view of another embodiment of the present invention;

Fig. 3 is the perspective view of another embodiment of the present invention.

Figure number sign: 1, oil cylinder; 2, workbench; 3, proximity transducer; 4, tooth bar; 5, lathe bed; 6, rotary encoder; 7, gear; 8, backguy encoder; 9, emery wheel.

(5) specific embodiment:

The surface grinding machine digital control system that the present invention has a concavo-convex grinding function comprises PLC numerical control device, emery wheel vertical feed drive unit, vertically moves the induction installation that workbench 2 and testing platform 2 vertically move distance and direction by what oil cylinder 1 drove, described induction installation connects the PLC numerical control device by circuit, workbench 2 is slidingly fitted on the lathe bed 5, emery wheel vertical feed drive unit is located at workbench 2 tops by cross lead screw, emery wheel 9 drives vertical feed by servomotor by down-feed screw, the instruction control that described servomotor is sent by the PLC numerical control device.

Use different induction installations, the present invention has three kinds of versions:

1, described induction installation adopts the combination of proximity transducer 3 and tooth bar 4.

Tooth bar 4 longitudinally is installed on workbench 2 bottoms, and two proximity transducers 3 are fixedly mounted on the sustained height of lathe bed 5 sides, the tooth top or the tooth root of the upwards close tooth bar 4 of the inductive head of two proximity transducers 3; Two proximity transducers 3 connect the PLC numerical control device respectively by circuit, as shown in Figure 1.

2, described induction installation adopts the combination of rotary encoder 6 and tooth bar 4.

Tooth bar 4 longitudinally is installed on workbench 2 bottoms, and rotary encoder 6 is fixedly mounted on lathe bed 5 sides by support, and gear 7 is installed in the rotating shaft of rotary encoder 6, and gear 7 is meshed with tooth bar 4; Rotary encoder 6 connects the PLC numerical control device by circuit, as shown in Figure 2.

3, described induction installation adopts backguy encoder 8.

The pull wire head of backguy encoder 8 is fixed on the workbench 2, and backguy encoder 8 is fixedly mounted on lathe bed 5 sides, and backguy encoder 8 connects the PLC numerical control device by circuit, as shown in Figure 3.

Claims

1. the surface grinding machine digital control system that has concavo-convex grinding function, comprise the PLC numerical control device, vertically move workbench (2) by the emery wheel vertical feed drive unit of PLC numerical control device control with by what oil cylinder (1) drove, it is characterized in that: comprise that also testing platform (2) vertically moves the induction installation of distance and direction, described induction installation connects the PLC numerical control device by circuit.

2. the surface grinding machine digital control system with concavo-convex grinding function according to claim 1, it is characterized in that: described induction installation comprises proximity transducer (3) and tooth bar (4), described tooth bar (4) longitudinally is installed on the workbench (2), a proximity transducer (3) is installed at least on lathe bed (5), the inductive head of each proximity transducer (3) is near tooth bar (4).

3. the surface grinding machine digital control system with concavo-convex grinding function according to claim 2 is characterized in that: described tooth bar (4) and proximity transducer (3) transposition setting.

4. the surface grinding machine digital control system with concavo-convex grinding function according to claim 1, it is characterized in that: described induction installation comprises tooth bar (4) and rotary encoder (6), described tooth bar (4) longitudinally is installed on the workbench (2), described rotary encoder (6) is fixedly mounted on the lathe bed (5), gear (7) in rotary encoder (6) rotating shaft and tooth bar (4) engagement.

5. the surface grinding machine digital control system with concavo-convex grinding function according to claim 4 is characterized in that: described tooth bar (4) and rotary encoder (6) transposition setting.

6. the surface grinding machine digital control system with concavo-convex grinding function according to claim 1, it is characterized in that: described induction installation is backguy encoder (8), the pull wire head of backguy encoder (8) is fixed on the workbench (2), and backguy encoder (8) is installed on the lathe bed (5); Or pull wire head is fixed on the lathe bed (5), and backguy encoder (8) is installed on the workbench (2).