SU1187009A1 - Arrangement for testing wear of cutting tools - Google Patents

Abstract

1. DEVICE FOR MEASURING THE WEAR OF A CUTTING TOOL when processing workpieces with a process window, containing a light source, vertical and horizontal scanning units and a synchronous generator, serially connected television camera, video amplifier, analog-to-digital converter, computer and recording unit, the outputs of a sync generator are connected to the inputs of blocks frame and line scan, the latter are associated with a television camera, characterized in that, in order to increase the measurement accuracy, it is equipped with a synchronizer connected to the additional inputs of the frame and line scan units and the input of the sync generator, and the television camera is set so that the used section of the cutting tool is located in its focus. i 2. The device according to claim 1, which is based on the fact that, in order to increase reliability, the synchronizer is designed as a coaxially mounted light source and photodetector placed on opposite sides of the workpiece. 3. The device according to claim 1, which is based on the fact that the source 19 e & light is pulsed.

Description

1 The invention relates to the processing of materials by cutting and, in particular, can be used to monitor the wear of the cutting tool on the back surface in the process of working (TKI. The purpose of the invention is measuring accuracy, measuring tia. Fig. 1 shows the principle, devices for measuring H-JHOC;) cutting tools; in fig. 2 is a sectional view on FIG. 1, / 1l processing of the workpiece 1 with a through window 2 along its axis, zakregishchion n cartridge 3 metal: a treading city and preloaded back; and rum i ,, У | :: THE TROIDITY contains pe vuuu; inc-ii y fpHT 5, TV: iuyu) 6 with an optical nozzle 7j ir-riy-ib; mi is. the source of 8 light with a rlzhate.chym, the source is directed 9 s; loop and fotopremvik 10, which are arranged on a common basis 11. The output of the photodetector 10 is connected to the inputs of the lower-level scanner unit 12, the 13 kg unit of the horizontal sweep draw 1D and 15, as well as the input of the sync generator 16 through element 17 coincidentally 1, and the lowercase 12 and frame 13 sweep units are connected to disengaging elements; F of the new camera 6. The output of the camera 6 through the serially connected video amplifiers Tejijj 18, the analog-digital converter 19, the electro-computer 20 (computer) is connected to the block 21 by registration, and the second computer code 20 is connected to the second input; matches, the third input of which is connected to d) of the distributor of 22 pulses, which is connected to the second output of the generator: 16, and the reset input of the analog-to-digital converter 19 connects to the third output of the generator siichr 16. Additionally, the video amplifier 18 can be connected It is not connected with the analog-digital converter 19 through the threshold element 23, and also with the video control unit 24. The device works as it should. The television camera 6 is guided to the top of the cutting tool 5, the focus is monitored on the screen of the video monitor block 24. 24. Pulse 1, 8 light source with 092 reflector is positioned so as to provide a clear, contrasting border by the interlaced worn area, reflecting pshm light, and darkening plot - the back surface. With the start of work The gel of 22 pulses is reset by the reset pip (irtiKazana), the state of the HCXOJIIIOC is set to B and the corresponding input of the matching element 17 is opened. The computer 20 generates a readiness signal and the form of a potential; input of element 17 is coincident, preparing the last to receive a signal from at-y receiver 10, Synchronizer 16 G: P-creates a sync signal i; r: blocks 12 lines: and 13 frame n spread, 1; € 13 out of 10Н1 аи к ..; ii-i 6 works in iiCMiiiop-.niiiiN; K:; 1ms scan. Workpiece 1, frc: t (:, - 1i; atrove 3, show aji.nHt-lu; ittr (. ::; 4, turn1tat1 s and rzzhu1d g; tool b, delivering / prod: 11) (; go , removes a layer of material from the workpiece 1, When the working part of the cutting tool comes out, 5 nmg and ;; part 1 of the workpiece with a screen octum 2, the beam from the light through the oxy 2 through the light passes through the photodynamic 10, from the pulsed 1 ) From CS.PSZ open edept 17 is the same; eb: and; 1 and keys 14 and 15 psspupaet on the State Department of Justice; -; reset of the block 12 lowercase and i; h-g; 1 frame sweeps n synx1: o; pentizer 6 On entering the signal and the signal from; A fragment of 17 coincidences on the GGS source of light 8 from the pos:; unnp 1 is set on fire during 1; in 1cc; their IJIlicek rd illuminates the rear surface of Rezup1; his tool 5, 71capacity Bcn :, is sufficient ;; 1g;}; and the ereda of the edey of the telesigoptey camera tube remained for a long time potential ;;: pfy image relief; of one frame, there is a residual potential relief of the image of pg, for the complete erasure of g {Which you need another 2-3 frames 3 scatpascans with idle beam upt-i is disconnected; - an ig-pulsed light source, therefore

the pulse distributor 22 closes the coincidence element 17 for a time of three frames, thereby eliminating the possibility of the triggering of the pulsed light source 8 before the erasure ends.

With a low speed of a computer, when the processing time of one television frame of information can exceed the working cycle (data acquisition frame 2-3 erase frames), a blocking connection of information processing from the second output and the computer 20 to the input of the matching element 17 is provided.

1870094

After the processing of information in the computer 20 and the workpiece is completed, when the photodetector 10 is next illuminated, the coincidence element 17 gives 5 a signal to trigger the pulsed light source 8, the cycle of information retrieval and information processing is repeated.

The synchronizer can be made not only as a pair: the fO light source is a photodetector (as it is done), but, for example, in the cam lead on cartridge 3 or workpiece 1, which closes the contacts, the voltage source is connected to the input element I and 7 coincidences. One of the first version has a higher reliability.

Yu

FIG. 2

Claims (3)

1. A DEVICE FOR MEASURING THE WEAR OF A CUTTING TOOL when processing workpieces with a technological window, containing a light source, vertical and horizontal scan blocks and a sync generator, a television camera, a video amplifier, an analog-to-digital converter, a computer and a recording unit, and outputs of the sync generator are connected to the inputs of the blocks vertical and horizontal scanning, the latter are associated with a television camera, characterized in that, in order to increase the reliability of the measurement, it is equipped with a synchronizer, ennym blocks with additional inputs frame and line scanning and an input clock, a television camera is installed so that its focus is located in the portion of the cutting tool used. 2. The device according to claim 1, characterized in that, in order to increase reliability, the synchronizer is made in the form of a coaxially mounted light source and a photodetector placed on opposite sides of the workpiece. 3. The device according to claim 1, characterized in that the light source is pulsed. 09) ’ask