CN105222672A - Multistation hi-precision cutting emery wheel thicknessmeter - Google Patents

Abstract

Multistation hi-precision cutting emery wheel thicknessmeter, belong to pick-up unit technical field, comprise frame, rotary disk and some station platforms, frame is provided with circular index mechanism, station platform drive motor and ┐ shape support successively from centre to the right, in frame, is provided with the circular index mechanism motor driving circular index mechanism; Described rotary disk is located at the top of circular index mechanism, some station platforms are distributed in the surrounding of rotary disk, and the bottom of station platform is provided with steel wheel, and the top of described station platform drive motor is provided with rubber wheel, steel wheel and rubber wheel are connected with a joggle, and the left end of ┐ shape support is provided with spiral micrometer head device.The present invention can detect the thickness of every sheet emery wheel diverse location automatically, and records data, increases work efficiency, alleviates the labour intensity of checker.

Description

Multistation hi-precision cutting emery wheel thicknessmeter

Technical field

The invention belongs to pick-up unit field, be specifically related to a kind of multistation hi-precision cutting emery wheel thicknessmeter.

Background technology

High precision man-made diamond or cubic boron nitride abrasive cut-off wheel are widely used in integrated antenna package, and silicon crystal is processed, and photoelectron element is processed, the accurate trickle cutting such as precious materials and fluting, the advantages such as it has, and workpiece joint-cutting is narrow, and spillage of material is few, and cutting surfaces quality is good.Grinding wheel diameter is generally at 50mm-200mm, and thickness is at 0.1mm-1.0mm, and thickness deviation ± 0.002 is to ± 0.005.Because emery wheel accuracy requirement is high, in order to ensure to reach regulation requirement, every sheet emery wheel all will detect, and for grinding wheel thickness, every sheet at least will detect 5 points, is now measured by artificial screw micrometer.The day output of abrasive cut-off wheel generally will reach hundreds of, and for reviewer, while inspection emery wheel, also will record data, workload is very large.

The article of thinner thickness, as paper, bill, plastic sheeting, textile fabric, silicon chip etc.Conventional checkout equipment can be divided into bench device by structure, online equipment.Divide can be divided into contact by metering system, contactless.Bench device is generally contact type measurement mode, carrys out detect thickness with clock gauge or grating displacement sensor, and the measuring position of workpiece is by manually determining, measuring accuracy reaches as high as 0.001mm.The general volume of online measuring equipment is large, is generally non-contact measurement mode.Detect acousto-optic-electric article by time its parameter change be converted to the thickness of tested article.Technology of acoustic wave used has reflection-type ultrasound wave, transmission-type type ultrasound wave; The technology used up has Double laser beam phase variant technology; Institute's multiplexe electric technology has the hall sensing technology of electric capacity, inductance, electric current, voltage parameter, specifically has that form is induction, an eddy current type etc.But online equipment precision is poor, the highest reaches 0.01mm.

CN103954244A discloses a kind of by signal transmitter structure, signal receiving structure, the thickness detection apparatus of phase difference detection mechanism composition.Signal transmitter structure launches the signal with first phase to testee, signal receiving structure receives the signal of the second phase after reflections off objects or transmission, and the phase differential of two signals detects in phase difference detection mechanism, determines the thickness range of object.

Standard GB/T/T6672-2001 (IDTISO4593:1993) " plastic sheeting and diaphragm thickness measure mechanical mensuration ", its measured value exports available mechanical method (use milscale), optical method (use mirror instrument), electric method (inductance method) etc.

Because high precision man-made diamond or cubic boron nitride abrasive cut-off wheel are heterogeneous materials, thickness is thin, and continuously rough.Its acoustics, optics, electrical characteristic are unstable, so the measurement of thickness also only has mechanical contact accurately reliable, precision can reach requirement.

There is following problem in current abrasive cut-off wheel Inspection of Thickness: 1. testing instruments precision is easy to lose, and abrasive cut-off wheel has very strong abrasive property, when different-thickness position measured by a slice emery wheel, manual rotation's emery wheel.Emery wheel easily contacts with the side head of milscale when rotating, and gauge head is worn and torn.Uneven owing to wearing and tearing, milscale precision is lost, within 2-3 month, will change.2. checker's labour intensity is large, and because grinding wheel thickness is very thin, manual blessing is very careful, and makes checker nervous, depressed tired.Check hundreds of emery wheels every day, five points checked by every sheet emery wheel, and operation milscale wants thousands of times, and finger ceaselessly moves always, and labour intensity is large.3. assay is affected by human factors greatly.

Summary of the invention

In order to overcome the defect of prior art, the invention provides a kind of multistation hi-precision cutting emery wheel thicknessmeter.

Based on above-mentioned purpose, the present invention can take following technical scheme:

Multistation hi-precision cutting emery wheel thicknessmeter, comprise frame, rotary disk and some station platforms, frame is provided with circular index mechanism, station platform drive motor and ┐ shape support successively from centre to the right, in frame, is provided with the circular index mechanism motor driving circular index mechanism; Described rotary disk is located at the top of circular index mechanism, some station platforms are distributed in the surrounding of rotary disk, and the bottom of station platform is provided with steel wheel, and the top of described station platform drive motor is provided with rubber wheel, steel wheel and rubber wheel are connected with a joggle, and the left end of ┐ shape support is provided with spiral micrometer head device.

Further, described station platform comprises sleeve and is positioned at the axle of sleeve, the bottom of axle is fixed in sleeve by bearing, and sleeve top is fixed on rotary disk by the large bearing cap and screw and nut being positioned at rotary disk upper surface, and the lower end of sleeve is sealed by little bearing cap; The lower end of axle is passed and is stretched out the end that the outer and steel wheel of little bearing cap is located at the axle stretching out little bearing cap, the top of axle is stretched out outside large bearing cap through rotary disk and large bearing cap successively, stretch out the mandrel that top is provided with and this axle is concentric of the axle of large bearing cap, the diameter of mandrel and the through-hole diameter of emery wheel central authorities suitable.

Described spiral micrometer head device comprises] shape support and be positioned at] the spiral micrometer head of shape support, the bottom of spiral micrometer head is provided with slowspeed machine, and the vernier adjustment knob of spiral micrometer head is driven by slowspeed machine.

Its course of work is as follows:

Sample is placed on station platform, start circular index mechanism motor, circular index mechanism motor drives circular index mechanism, sample to be tested is rotated to the position of spiral micrometer head device, start the slowspeed machine driving spiral micrometer head vernier adjustment knob, spiral micrometer head moves up.After spiral micrometer head contacts with sample to be tested, slowspeed machine stops operating.Spiral micrometer head reading, is the one-tenth-value thickness 1/10 of sample.After one-tenth-value thickness 1/10 has read, slowspeed machine rotates backward, and spiral micrometer head is resetted.After completing sample pinpoint test, station platform drive motor starts, and station platform rotates the angle (as 60 °, 75 ° etc.) of regulation, and slowspeed machine starts again, completes the mensuration of another dot thickness value, until sample completes the testing time of regulation.

After sample completes test, circular index mechanism motor starts, and rotates another sample to be tested to measuring position, starts to measure another sample.Take off the sample completing test, put testing sample simultaneously.

Control system is by display screen, and data storage device, PLC, position transducer, travel switch, button and signal lamp composition, the signal input PLC of position transducer, travel switch, button, controls corresponding electric motor starting, stopping by PLC.Display screen display device state and thickness measurements, memory storage stores thickness data.The duty of signal lamp indicating equipment.

When test sample diameter, aperture are different, adjusting by following method: specimen finish is different from movement] shape support adjusts, replaceable station platform and mandrel when aperture is different.

Circular index mechanism and station platform drive motor determine its position by travel switch signal.

The present invention can detect the thickness of every sheet emery wheel diverse location automatically, and records data, increases work efficiency, alleviates the labour intensity of checker.

Accompanying drawing explanation

Fig. 1 is structural representation of the present invention;

Fig. 2 is the structural representation of station platform in Fig. 1.

Embodiment

As shown in Figure 1, multistation hi-precision cutting emery wheel thicknessmeter, comprise frame 1, rotary disk 3 and some station platforms 4, frame 1 is provided with circular index mechanism 2, station platform drive motor 13 and ┐ shape support 11 successively from centre to the right, in frame 1, is provided with the circular index mechanism motor 14 driving circular index mechanism 2; Described rotary disk 3 is located at the top of circular index mechanism 2, some station platforms 4 are distributed in the surrounding of rotary disk 3, the bottom of station platform 4 is provided with steel wheel 5, the top of described station platform drive motor 13 is provided with rubber wheel 12, steel wheel 5 and rubber wheel 12 are connected with a joggle, and the left end of ┐ shape support 11 is provided with spiral micrometer head device.

As shown in Figure 2, described station platform 4 comprises sleeve 42 and is positioned at the axle 43 of sleeve 42, the bottom of axle 43 is fixed in sleeve 42 by bearing 44, sleeve 42 top is fixed on rotary disk 3 by the large bearing cap 41 and screw and nut being positioned at rotary disk 3 upper surface, and the lower end of sleeve 42 is sealed by little bearing cap 45; The lower end of axle 43 is passed and is stretched out the end that the outer and steel wheel 5 of little bearing cap 45 is located at the axle 43 stretching out little bearing cap 45, the top of axle 43 is through rotary disk 3 and large bearing cap 41 and stretch out outside large bearing cap 41, stretch out the mandrel that top is provided with and this axle 43 is concentric 6 of the axle 43 of large bearing cap 41, the diameter of mandrel 6 and the through-hole diameter of emery wheel 7 central authorities suitable.

Described spiral micrometer head device comprises] shape support 8 and be positioned at] the spiral micrometer head 9 of shape support 8, the bottom of spiral micrometer head 9 is provided with slowspeed machine 10, and the vernier adjustment knob of spiral micrometer head 9 is driven by slowspeed machine 10.

Its course of work is as follows:

By sample to be tested 7(and emery wheel) be stuck on the external diameter of mandrel 6 by the through hole of its central authorities, start circular index mechanism motor 14, circular index mechanism motor 14 drives circular index mechanism 2, and then drive rotary disk 3, sample to be tested 7 is rotated to the position of spiral micrometer head device, start the slowspeed machine 10 driving spiral micrometer head 9, spiral micrometer head 9 moves up.After spiral micrometer head 9 contacts with sample to be tested 7, slowspeed machine 10 stops operating.Spiral micrometer head 9 reading, is the one-tenth-value thickness 1/10 of testing sample 7.After one-tenth-value thickness 1/10 has read, slowspeed machine 10 rotates backward, and spiral micrometer head 9 is resetted.After completing sample to be tested 7 pinpoint test, station platform drive motor 13 starts, and station platform 4 rotates the angle (as 60 degree, 75 degree etc.) of regulation, and startup slowspeed machine 10, completes the mensuration of another dot thickness value again, until sample completes the testing time of regulation.

After sample completes test, circular index mechanism motor 14 starts, and drives circular index mechanism 2 and then drives rotary disk 3, rotating another sample to be tested to measuring position, start to measure another sample.Take off the sample completing test, put testing sample simultaneously.

During the work of above-mentioned package unit, controlled by control system, control system by display screen, data storage device, PLC, position transducer, travel switch, button and signal lamp composition, the signal input PLC of position transducer, travel switch, button, controls corresponding electric motor starting, stopping by PLC.Display screen display device state and thickness measurements, memory storage stores thickness data.The duty of signal lamp indicating equipment.This is general knowledge known in this field, so repeat no more.

Claims (3)

1. multistation hi-precision cutting emery wheel thicknessmeter, it is characterized in that, comprise frame, rotary disk and some station platforms, frame is provided with circular index mechanism, station platform drive motor and ┐ shape support successively from centre to the right, in frame, is provided with the circular index mechanism motor driving circular index mechanism; Described rotary disk is located at the top of circular index mechanism, some station platforms are distributed in the surrounding of rotary disk, and the bottom of station platform is provided with steel wheel, and the top of described station platform drive motor is provided with rubber wheel, steel wheel and rubber wheel are connected with a joggle, and the left end of ┐ shape support is provided with spiral micrometer head device.

2. multistation hi-precision cutting emery wheel thicknessmeter according to claim 1, it is characterized in that, described station platform comprises sleeve and is positioned at the axle of sleeve, the bottom of axle is fixed in sleeve by bearing, sleeve top is fixed on rotary disk by the large bearing cap and screw and nut being positioned at rotary disk upper surface, and the lower end of sleeve is sealed by little bearing cap; The lower end of axle is passed and is stretched out the end that the outer and steel wheel of little bearing cap is located at the axle stretching out little bearing cap, the top of axle is stretched out outside large bearing cap through rotary disk and large bearing cap successively, stretch out the mandrel that top is provided with and this axle is concentric of the axle of large bearing cap, the diameter of mandrel and the through-hole diameter of emery wheel central authorities suitable.

3. multistation hi-precision cutting emery wheel thicknessmeter according to claim 1, it is characterized in that, described spiral micrometer head device comprises] shape support and be positioned at] the spiral micrometer head of shape support, the bottom of spiral micrometer head is provided with slowspeed machine, and the vernier adjustment knob of spiral micrometer head is driven by slowspeed machine.