Device and method for automatically detecting multiple parameters of bearing outer ferrule

Abstract

The invention provides the bearing outer ferrule multi-parameter automatic detection device and method with multiple functions, high precision and high automation degree. The bearing outer ferrule multi-parameter automatic detection device comprises a workbench, wherein a horizontal moving module, a detection module and a base installation module are installed on the workbench, the horizontal moving module comprises a bracket and a bottom plate; the bracket is fixed on the workbench, the bottom plate is fixed on the bracket, and a sliding device A and a displacement sensor A are arranged on the bottom plate; the detection module is fixed on the sliding device A and can horizontally move on the bottom plate; the detection module comprises a T-shaped bracket, a sliding device B, a sliding device C, a left mounting plate, a right mounting plate, a measuring device A, a measuring device B, a height measuring device, a displacement sensor B and a displacement sensor C; a height measuring device is fixed below a short plate of the T-shaped bracket; and the base mounting module is arranged below the detection module.

Description

technical field [0001] The invention relates to a detection technology for a bearing outer ring, in particular to a multi-parameter automatic detection device and method for a bearing outer ring. Background technique [0002] The bearing outer ring has to undergo a series of cutting processes after the blank is produced. In view of the size of the bearing outer ring being unqualified during the processing process due to various reasons such as turning tool wear and machine failure, the size of the bearing outer ring after turning Accuracy will directly affect the quality and production efficiency of subsequent processing, so the bearing outer ring after turning needs to be inspected. At present, for bearing outer rings with different technical standards, size specifications and accuracy levels, the post-processing inspection methods and methods are basically the same, and manual sampling inspections are performed using measuring instruments. The inspection content is divided...

AI Technical Summary

Problems solved by technology

At present, for bearing outer rings with different technical standards, size specifications and accuracy levels, the post-processing inspection methods and methods are basically the same, and manual sampling inspections are performed using measuring instruments. The inspection content is divided into dimensional accuracy, shape accuracy and position. Accuracy, etc. Manual measurement is easily affected by the measurement personnel's operating experience, and measurement errors can only be carried out due to the cost and efficiency of labor. Sampling inspection is likely to cause some defective products to be mixed into the finished product.

In order to discover the quality problems of bearing outer ring processing in time, make processing adjustments in time with feedback on processing quality, and minimize production loss, a real-time online bearing outer ring automatic detection device is needed, but there is no corresponding device in the prior art. Therefore, in view of existing problems, it is necessary to develop a multi-parameter automatic detection device and method for bearing outer rings

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