Rotation support channel induction quenching follow-up compensation device

A rotary support channel and induction hardening technology, which is applied in the direction of quenching device, furnace type, furnace, etc., can solve the problems affecting the quenching quality of workpieces, non-contact displacement sensors, difficult quenching sensors and accurate detection of rotary support channels, etc.

Inactive Publication Date: 2016-11-23
YANCHENG NETUREN
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] However, due to the large fog during quenching and the strong magnetic field interference, it is difficult for the non-contact displacement sensor to accurately detect the gap between the quenching sensor and the slewing support channel, which ultimately affects the quenching quality of the workpiece

Method used

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  • Rotation support channel induction quenching follow-up compensation device
  • Rotation support channel induction quenching follow-up compensation device
  • Rotation support channel induction quenching follow-up compensation device

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Embodiment

[0016] Such as figure 1 and figure 2 As shown, in a specific embodiment, a rotary support channel induction hardening follow-up compensation device of the present invention includes a fixed support part 1 , a horizontal moving part 2 and a vertical moving part 3 .

[0017] The upper end of the horizontal moving part 2 is movably connected to the fixed supporting part 1 , and the fixed supporting part 1 is provided with a first air cylinder 4 connected to the horizontal moving part 2 . The first air cylinder 4 can drive the horizontal moving part 2 to move horizontally along the fixed support part 1 . In this embodiment, the first cylinder 4 controls the on-off of the air circuit through a solenoid valve.

[0018] The fixed support part 1 is provided with a first displacement sensor 7, and the corresponding position of the horizontal moving part 2 is provided with a first positioning rod 9 used in cooperation with the first displacement sensor 7, and the first displacement s...

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Abstract

The invention provides a rotation support channel induction quenching follow-up compensation device. The rotation support channel induction quenching follow-up compensation device comprises a fixed supporting part, a horizontal moving part and a vertical moving part. The horizontal moving part is movably connected to the fixed supporting part. The fixed supporting part is provided with a first air cylinder and a first displacement sensor. The horizontal moving part is provided with a first positioning rod. The vertical moving part is movably connected to the horizontal moving part. The horizontal moving part is provided with a second air cylinder and a second displacement sensor. The vertical moving part is provided with a second positioning rod. A follow-up ball used for being connected with a rotation support channel is arranged at the lower end of the vertical moving part. By means of the rotation support channel induction quenching follow-up compensation device, contact measurement on the gap between a quenching inductor and the rotation support channel is achieved, a detection result is sent to a servo control system, the servo control system is used for adjusting the gap between the quenching inductor and the rotation support channel, and therefore it is guaranteed that the gap between the quenching inductor and the rotation support channel meets the quenching requirement.

Description

technical field [0001] The invention relates to induction heating surface quenching equipment, in particular to a rotary support channel induction quenching follow-up compensation device. Background technique [0002] The detection and adjustment of the gap between the quenching sensor and the slewing support channel of the slewing support has always been a major problem in the industry. At present, non-contact displacement sensors such as photoelectricity, magnetic conductivity, and CCD vision are generally used to detect the gap between the quenching sensor and the slewing support channel. The non-contact displacement sensor feeds back the detected displacement data to the servo of the quenching device. Control system, the servo control system of the quenching device adjusts the gap between the quenching sensor and the rotary support channel according to the predetermined requirements. [0003] However, due to the large fog during quenching and the strong magnetic field i...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C21D1/10C21D1/62C21D9/40
CPCC21D1/10C21D1/62C21D9/0062C21D9/40Y02P10/25
Inventor 丰正亚王轩沈韦华葛俊
Owner YANCHENG NETUREN
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