SU1732144A1 - Device for tolerance monitoring of bodies of revolution - Google Patents

Abstract

The invention relates to instrumentation, in particular, to devices for monitoring surface defects of rotating bodies of magnetic recording equipment. The purpose of the invention is to increase the reliability of the rotation controllers and reduce the measurement process. The device for tolerance control of rotation bodies contains a measuring unit with indicators, a measuring prism with an inductive sensor placed on it and a pickup unit connected to a drive, a signal-code converter, the input of which is connected to the output of an inductive sensor, and the output to the first input of a task setting and code comparison unit , the second input of which is connected to the output of the trigger node and the timer input. The measuring unit is designed as an OR element, a clock generator connected to the input of a time relay with restart, and successively connected amplitude detector, integrator, comparator and counter, the output of which is connected to the first input of the OR element, the other input is connected to the first output of the timer, the second output is connected to the pickup unit, and the inverse outputs of the OR element are connected to the corresponding indicator, one of which is connected to the pickup unit. At the same time, the input of the amplitude detector is connected to the output of the task setting and code comparison unit, and the clock and installation inputs of the counter are connected respectively to the output of the clock generator and the output of the time relay with restart. In this case, the second input of the comparator is additionally connected to the task unit. 1 il. from C h | SLE YO Ј Ј

Description

The invention relates to instrumentation, in particular, to devices for monitoring surface defects of rotating magnetic equipment of magnetic recording equipment, and can be used in the technological process of manufacturing tape recorders, as well as in precision engineering.

A device for measuring the beat of a rotating shaft is known, which contains a sensing element (sensor),

mounted at some distance from the surface of the body of rotation, the drive and the measuring part.

The disadvantages include the complexity and duration of the changeover when changing the controlled dimensions of complex rotating bodies with different diameters for which a certain tolerance field is established. In addition, due to the absence of protective devices in the device circuit against uninformative emissions due to small scratches, dust or other interference peculiar to the process of mass production of parts and components, for example, tape-making mechanisms of magnetic recording equipment, suitable parts will be rejected.

The closest in technical essence to the present invention is a device for measuring dimensions, comprising a measuring part with a set of contact sensors, a gripping device coupled to a drive, a signal-code converter indicator, the output of which is connected to the output of an inductive sensor, and the output to the first input of the unit setting and comparing codes, the second input of which is connected to the output of the trigger node and the timer input.

The disadvantages include the duration of control and readjustment when changing the size of the tolerance field of complex bodies of rotation. In addition, the known device responds to informational emissions and does not take into account the size of scratches, dust, etc. that exist in mass production conditions and complicate decision making.

The aim of the invention is to reduce the time of control and changeover when changing the size and tolerance field of complex rotating bodies.

The goal is achieved due to the fact that the indicator contains a measuring prism with an inductive sensor placed on it, and a pickup unit connected to the drive, a signal-code converter, the input of which is connected to the output of an inductive sensor, and the output with the first input of the task setting and code comparison, the second input of which is connected to the output of the triggering node and the timer input, the measuring unit is designed as an OR element, a clock generator, It is connected to the input of a time relay with a restart, and serially connected amplitude detector, integrator and counter integrator, the output of which is connected to the first input of the OR element, another input of which is connected to the first output of the timer, and the second output is connected to the capture node. OR are connected to the corresponding indicator, one of which is connected to the pickup unit, the input of the amplitude detector is connected to the output of the task setting and code comparison unit, and the clock and installation inputs of the counter are connected respectively, with the output of the clock generator and the output of the time relay with restart, with the second

the input of the comparator is additionally connected to the launcher.

The drawing shows a diagram of the device tolerance control rotation bodies.

The device contains a measuring

block 1 with indicators 2 (unfit) and 3 (fit), measuring prism 4 with inductive sensor 5 placed on it and connected to drive 6 by gripping unit 7,

Converter 8 is a signal code, the input of which is connected to the output of inductive sensor 5, and the output is connected to the first input of block 9 for setting and comparing codes, the second input of which is connected to the output of start node 10

and the input of the timer 11, the output of which is connected to the element OR 12. The measuring unit is made in the form of a clock pulse generator 13 connected to the input of a time relay with a restart 14 connected in series by an amplitude detector

15, the integrator 16, the first input of the comparator 17 and the counter 18, the output of which is connected to the first input of the element OR 12, the other input is connected to the first output of the timer 11, the second output of the timer 11 of the connections to the capture node 7, the inverse outputs of the element OR 12 are connected to the corresponding indicator 2 and 3, indicator 2 is associated with a pickup unit 7, the input of the amplitude detector 15 is connected to the output of block 9

assigning and comparing codes, clock and service inputs of counter 18 are connected respectively to the generator output 13 actual pulses and time relay output 14 with restart, the second input of the comparator 17 is additionally connected to the task block 19.

The controlled rotation body is fed to the measuring prism 4, after which a signal is sent to the input of the triggering unit 10, then

the timer 11 receives a trigger signal, which, depending on the size of the body of rotation, determines the full cycle of the measurement process, after which a command is sent to the capture unit 7, simultaneously with the command

the start from the start node 10 is given a code command to the block 9 of task and comparison of codes, where information about the size of the initial size of the body of rotation is formed. An inductive sensor 5, introduced in contact with the body of rotation, outputs a signal to the input of the signal-code converter 8, where in the presence of information about the true size, the signal is received in code form.

In block 9 of setting and comparing codes, if a signal is available from the measurement results and the initial value, a difference signal is obtained, which with a certain delay on transients in the measurement arrives at the input of the amplitude detector 15, where the amplitude is extracted, then the signal is subjected to processing in the integrator 16 by duration , taking into account the speed of rotation of the controlled body of rotation. In this case, non-informative outliers or those that are not taken into account are not taken into account, since they do not affect the quality.

From the output of the integrator 16, it enters the input of the two-level comparator 17c with an adjustable threshold from the task unit 10, thereby setting the limits of the tolerance field of the monitored rotating body. When the signal level is above the trigger threshold, the comparator 17 outputs a high level pulse, fed to the input of counter 18, to the other two inputs of which pulses are received one from the generator 13 clock pulses, the other through a time controlled relay 14 with restarting resets counter 18 to its original state.

A high level pulse from the output of the counter 11 is fed to the signal input of the element OR 12 and when it coincides with the pulse from the second output of timer 11, the signal passes to the indicator 2 not suitable and simultaneously to the triggering input of the pickup unit 7, after which the monitored body is sent to the reject accumulator .

If there is no tolerance from the floor, the comparator 17 emits a low-level pulse and at the output of the OR 12 element there remains only the enabling pulse from timer 11, which is connected to the 3 Goden indicator.

Such a construction of the functional scheme of the tolerance control device of the rotation bodies allows reducing the time allotted for control to two revolutions of the rotation body, thus excluding calculation operations, besides, when switching from one size to another, for example, when controlling multi-stage rotation bodies,

the readjustment is accomplished by merely changing the command of the launch node 10. When the accuracy class that determines the tolerance field changes, a graduated

switching comparator threshold 17.

The proposed tolerance control device allows automating the process in the manufacture of parts of tape recorder mechanisms and will be useful for the manufacture of precision mechanics devices.

Claims (1)

Invention Formula The device tolerance control rotation bodies containing the measuring unit with indicators, the measuring prism with placed on it and connected to the drive inductive sensor and node capture, converter signal-code, the input of which is connected to the output of the inductive sensor, and the output - with the first input of the task setting and code comparison unit, the second input of which is connected to the output of the triggering unit and a timer input, characterized in that, in order to reduce the monitoring time and readjustment when changing the size and tolerance field of the rotation bodies, the measuring unit is designed as an OR element, a clock generator connected to a restarting time relay and connected in series with an amplitude detector, integrator, comparator and counter whose output connected to the first input of the OR element, the other input of which is connected to the timer output, and the inverse outputs of the OR element are connected to the indicators, while the input of the amplitude detector is connected to the output of the task setting and code comparison, and the clock and installation inputs of the counter are connected respectively to the output of the clock generator and to the time relay output with restart, and a separate the comparator input is connected to a task setting and code comparison unit, Compiled by S.Solidov Editor M.YankovyTekhred M.MorgentalKorrektor T.Vash Order 1573 Circulation: Subscription VNIIPI State Committee for Inventions and Discoveries at the State Committee on Science and Technology of the USSR 113035, Moscow, Zh-35, 4/5 Raushsk nab. Production and Publishing Combine Patent, Uzhgorod, Gagarin st., 101