CN201381351Y - Controlling system for wind power gear induction quenching machine tool - Google Patents

Abstract

The utility model relates to a controlling system for a wind power gear induction quenching machine tool, which comprises a first servo motor (7a), a second servo motor (7b), a third servo motor (7c), a first servo driver (6a), a second servo driver (6b), a third servo driver (6c), an industrial controlling computer (1), a servo motion controlling card (4), an input-output module (3), a control display panel (2) and a manual pulse generator (5). The industrial controlling computer (1), the servo motion controlling card (4) and the input-output module (3) form a digital control core, the control display panel (2) exchanges data with the digital control core, and the manual pulse generator (5) can perform micro-adjustment on the corresponding servo motors by using select switches to select different positions. A gear quenching machine tool utilizing the controlling system can achieve stable operation, high positioning accuracy, strong suitability, stable quenching quality, simple operation and convenient adjustment.

Description

Wind-powered electricity generation gear induction quenching lathe Controlling System

Technical field

The utility model relates to a kind of quenching machine, further relates to wind-powered electricity generation gear induction quenching lathe Controlling System.

Background technology

Gear induction quenching lathe is the lathe that gear is carried out the surface heat processing, it comprises that miniature gear quenches and large gear quenches, miniature gear quenches and generally adopts the one piece induction quenching, large gear quenches and generally adopts the continuous heating quenching of monodentate, and the used gear of wind-power electricity generation all belongs to large gear and generally adopts the continuous induction quenching technology of monodentate.Existing gear induction quenching lathe is even to have several big functional modules such as worktable rotating mechanism, transformer tractor, base lathe bed mechanism, electrical apparatus control system, cooling water system, quench water system, power-supply system to constitute.The wherein useful relay assembly control of electrical apparatus control system, PLC logic control and the control of universal numerical control system.Relay assembly control exists automatic capability poor, and it is little to adapt to processing range, the complicated inconvenient maintenance of wiring.By the Controlling System that the PLC programmable controller is formed, though improved automatic capability, to carry out the adjustment of artificial position to different workpiece, therefore influence control accuracy.The control of general-purpose machine digital control system can improve control accuracy, but also be not specifically designed to the digital control system of gear quenching lathe at present, can only substitute some performance with the general-purpose machine digital control system and can not mate fully again, perhaps use high-level digital control system cost very expensive again.The gear quenching lathe of use general-purpose machine digital control system control in use, want earlier by technician with certain state of the art, to the different different working routines of workpiece establishment, process by the operator again, not only reduce working efficiency thus and also strengthened workman's operation easier.

Summary of the invention

The purpose of this utility model is to provide a kind of wind-powered electricity generation gear induction quenching lathe Controlling System, this Controlling System adopts digital control system and servomotor, the gear quenching lathe is reached operate steadily, bearing accuracy height, strong, the stable in quenching quality, simple to operate of adaptability, overcome the defective of prior art.

The utility model is achieved in that gear induction quenching lathe Controlling System, comprise the first servomotor 7a, the second servomotor 7b, the 3rd servomotor 7c, servo- driver 6a, 6b, 6c, industrial control computer 1, servo motion control card 4, input/output module 3, control display panel 2, hand surge generator 5, gear is installed on the worktable, the first servomotor 7a drives worktable and does branch tooth and interlock motion, the second servomotor 7b drives the induction hardening transformer supporting plate and moves up and down, and the 3rd servomotor 7c drives the induction hardening transformer supporting plate and does the motion of level advance and retreat.Industrial control computer 1, servo motion control card 4, input/output module 3 are formed the numerical control core, this numerical control core group is contained in the same cabinet, and carry out internal communication and management, control display panel 2 carries out the data circulation with the numerical control core, hand surge generator 5 can select different positions that corresponding servomotor is carried out the fine motion adjustment by system selector switch, servo motion control card 4 connects each servo-driver, and each driving mechanism connects corresponding servomotor and encoder.

Above-mentioned quenching machine Controlling System, described servo motion control card 4 is connected by data line with each servo- driver 6a, 6b, 6c, servo- driver 6a, 6b, 6c are connected by cable with the first servomotor 7a, the second servomotor 7b, the 3rd servomotor 7c respectively, and servo- driver 6a, 6b, 6c are connected by shielding cable with the servomotor encoder.

Above-mentioned quenching machine Controlling System, described input/output module 3 is connected by cable with button panel, and input/output module 3 and performer 8 are connected by cable.

Controlling System of the present utility model adopts digital control system and servomotor, the gear quenching lathe is reached operate steadily, bearing accuracy height, strong, the stable in quenching quality, simple to operate of adaptability, and is easy to adjust, overcome the defective of existing quenching machine control texture.

Description of drawings

Fig. 1 is the utility model Controlling System synoptic diagram.Among the figure, 1 represents industrial control computer, 2 representative control display panels, 3 represent input/output module, and 4 represent the servo motion control card, the hand surge generator of 5 representatives, 6a, 6b, 6c represent servo-driver, 7a represents first servomotor, and 7b represents second servomotor, and 7c represents the 3rd servomotor.

Embodiment

Gear induction quenching lathe Controlling System, comprise the first servomotor 7a, the second servomotor 7b, the 3rd servomotor 7c, servo- driver 6a, 6b, 6c, industrial control computer 1, servo motion control card 4, input/output module 3, control display panel 2, hand surge generator 5, gear is installed on the worktable, the first servomotor 7a drives worktable and does branch tooth and interlock motion, the second servomotor 7b drives the induction hardening transformer supporting plate and moves up and down, and the 3rd servomotor 7c drives the induction hardening transformer supporting plate and does the motion of level advance and retreat.Industrial control computer 1, servo motion control card 4, input/output module 3 are formed the numerical control core, this numerical control core group is contained in the same cabinet, and carry out internal communication and management, control display panel 2 carries out the data circulation with the numerical control core, hand surge generator 5 can select different positions that corresponding servomotor is carried out the fine motion adjustment by system selector switch, servo motion control card 4 connects each servo-driver, and each driving mechanism connects corresponding servomotor and encoder.

Above-mentioned quenching machine Controlling System, described servo motion control card 4 is connected by data line with each servo- driver 6a, 6b, 6c, servo- driver 6a, 6b, 6c are connected by cable with the first servomotor 7a, the second servomotor 7b, the 3rd servomotor 7c respectively, and servo- driver 6a, 6b, 6c are connected by shielding cable with the servomotor encoder.

Above-mentioned quenching machine Controlling System, described input/output module 3 is connected by cable with button panel, and input/output module 3 and performer 8 are connected by cable.

Claims (1)

1, wind-powered electricity generation gear induction quenching lathe Controlling System comprises that driving worktable makees first servomotor (7a) of branch tooth and interlock motion, drives second servomotor (7b) that the induction hardening transformer supporting plate moves up and down, drives the induction hardening transformer supporting plate and do the 3rd servomotor (7c) of level advance and retreat motion, servo-driver (6a, 6b, 6c), industrial control computer (1), servo motion control card (4), input/output module (3), control display panel (2), hand surge generator (5);

Industrial control computer (1), servo motion control card (4), input/output module (3) is formed the numerical control core, this numerical control core group is contained in the same cabinet, and carry out internal communication and management, control display panel (2) carries out the data circulation with the numerical control core, hand surge generator (5) can select different positions that corresponding servomotor is carried out the fine motion adjustment by system selector switch, servo motion control card (4) and each servo-driver (6a, 6b, 6c) connect by data line, servo-driver (6a, 6b, 6c) respectively with first servomotor (7a), second servomotor (7b), the 3rd servomotor (7c) connects by cable, and servo-driver (6) is connected by shielding cable with the servomotor encoder.

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