SU1650274A1 - Method for checking up automatic machine for sorting parts according to linear dimensions - Google Patents

Abstract

The invention relates to measurement and control technology, can be used in various areas of national economy in the calibration of automatic machines for controlling and sorting parts by linear dimensions and allows to simplify the setting and improve the performance of the verification process. Details sorted into groups. Then take the details of the same sorting group and pass them through the machine. If at least one part of the transmission falls into the next sorting group, then the boundary of the sorting floor of the tolerance is shifted towards the group of accidental hitting the part by a step equal to the division value of the automatic reading device. Gather all the details of the sorted group together and re-pass with the new sorting tolerance field. In the absence of random hits of parts in neighboring groups for a given number of transmissions, the sorting error is determined as the maximum displacement of the limits of the tolerance field from the initial values. 1 il. (Ls

Description

The invention relates to a measuring and measuring technique and can be used in bearing production in the calibration of automatic machines for monitoring and sorting rings and rolling elements of bearings according to linear dimensions, having a measuring-command device.

The purpose of the invention is to simplify the settings and improve the performance of the verification process.

The drawing schematically shows a differential pneumoelectric reporting-command device of the automaton with which the proposed method can be carried out.

The readout command device 1 is connected to the stabilized power supply 2. A measuring nozzle 3 and an adjustable choke 4 connected to the atmosphere are connected to the outputs of the reading command device 1. The readout command device 1 has adjustment contacts 5 and 6, the movable contact 7 approaching the adjustment contact 5 when the arrow 8 of the reading command device deviates in the negative direction of its scale 9, and the movable contact 10. approaches the adjustment contact 6 when the arrow 8 deviates in the positive direction of the scale 9. A constant voltage source 11 is connected in parallel

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two chains. The first circuit includes an adjusting contact 5, a signal lamp 12 and a movable contact 7, and the second circuit is formed by a movable contact 10, an adjusting contact 6 and a signal lamp 13. Measuring nozzle 3 has the possibility of contactless interaction with the components 14 that arrive at the measuring position.

Point A on the scale of the command-reading device determines the lower boundary of the sorting field of the tolerance of suitable parts 14. It corresponds to the beginning of the opening of contacts 7 and 5 set to it, including the light bulb 12. Point B on the scale of the command-control device determines the upper limit of the sorting field of tolerance suitable parts 14. It corresponds to the beginning of the opening of contacts 10 and 6 set to it, which turn off the light bulb 13. In the process of sorting the parts batch, the sodium group is sorted: suitable (when there were no contact closures of 5.7 and 6, 1 0), fault-plus (when the closure of contacts 5 and 7) and reject-minus (when the closure of contacts 10 and 6 occurred),

The method of calibration of automatic machines for sorting parts by linear dimensions is carried out as follows.

For example, after sorting a batch of parts from a thousand pieces on an automatic machine with a reading and control device 1, the division price of which is 0.1 µm, into the sorting group of suitable parts, the sorting tolerance field of which is equal to ± 1 µm from the nominal value corresponding to zero on scale 9, got nine hundred details. One hundred parts that fall into other groups are removed from the automaton, and a group of nine hundred usable parts are subjected to passing through the automaton. In the course of this transmission, the parts from this group are observed in neighboring groups: marriage plus and marriage minus.

For example, if, as a result of this transmission, one part fell into the reject-minus group, and six parts fell into the reject-plus group, regardless of the number of hits in these groups, the boundary of the sorting tolerance floor of suitable parts is shifted by a step corresponding to the division price of the readout-command device 1, as in the direction of the marriage-minus group, i.e. to point B and towards the marriage-plus group, i.e. to point G. Then they adjust the operation of contacts 5 and 7 to point B, and the operation of contacts 6 and 10 to point G. With the new sorting tolerance field, all parts of this group are re-passed, Dev tysot pieces, through the machine. If, for example, in the process of re-passing a single part 14 doesn’t fall into the reject-minus group, and the reject-plus one detail, then in this case the upper limit of the sorting floor of the suitable parts will be shifted one more step equal to the division price scale 9, towards the reject-plus group, i.e. to point D, to which the operation of contacts b and 10 are rearranged. The lower limit of the new tolerance field remains at point B. Then all nine hundred parts are passed through the machine again. If, as a result of this transmission, all parts fell only into a group of suitable parts, then the boundaries of the sorting field of the tolerance of suitable parts do not change and continue to pass all parts (nine hundred pieces) through the machine a specified number of times, for example, ten. In the absence of random hits of parts in neighboring groups for a given number of transmissions, the sorting error is determined as

the maximum displacement of the boundaries of the tolerance field from the initial values. In the considered example, it is equal to the segment of the OBD and is 0.2 µm,

Thus, the proposed method

The calibration of automatic machines for sorting parts according to linear dimensions as compared with the known one is easy to implement, does not require any special measuring tools and complex mathematical processing of measurement results, and therefore can be quickly implemented at workplaces in workshop conditions. The method facilitates the work of verifiers.

Claims (1)

Invention Formula The method of calibration of automatic machines for sorting parts according to linear dimensions, which consists in multiple sorting of parts of one sorting unit, which is such that, in order to simplify and improve the performance of the verification process, in the event parts fall into the next sorting group, the setting of the machine is shifted by shifting boundaries of the sorting group to the side the groups into which the parts fell, by an amount equal to the division price of the reading device, re-sort the parts of the same sorting group, and if there are no parts in the neighboring sorting groups, the sorting error is defined as the maximum value of the offset of the boundary of the sorting group from its initial value . / J