SU1174735A1 - Device for measuring width of moving cloth - Google Patents

Abstract

A DEVICE FOR MEASURING THE WIDTH OF A MOVING DOOR, containing two illuminators, two photosensors optically connected to the illuminators, two And elements, the first input of each of which is connected to the corresponding photosensor, two memory elements, the input of each of which is connected to the output of the corresponding element And , output - to the second input of the corresponding element I, clock generator, the key element, the first input connected to the clock generator, the registration unit, which is only No measurement accuracy, it is equipped with two sensors. Rotation angle, OR element, record register, decoder, tachogenerator, frequency divider with constant division factor, frequency divider with variable division factor, the memory element outputs are connected to the corresponding OR element inputs, a frequency divider with a constant division factor is connected by an input to the output of the clock frequency generator, an output is connected to the first input of the recording register, the second input of the recording register is connected to the @ output of the element. LI, the third - with a ta (L generator, element OR output is connected to the second input of the key element, the output of which is connected to the counting input of a divider with a variable division factor, the control inputs of which are connected via a decoder to the record register, each of the angle sensors connected to the second input of the corresponding memory element, and the 4ib registration unit is connected to the output of a divider with a variable division factor. SO eaten

Description

The invention relates to the control of measuring technique and is intended to measure the width of the web, in particular, on circular rotating machines with rotary receptacles. The aim of the invention is to improve the measurement accuracy. The drawing shows the block diagram of the proposed device. The device contains illuminators 1 and 2, optically connected with photosensors 3 and 4, which are connected to the first inputs of elements And 5 and 6 The outputs of elements And 5 and 6 are connected to elements 7 and 8 of memory, the second inputs of elements And 5 and 6 are connected with the outputs of the elements 7 and 8 of memory 7 and with the inputs of the elements OR 9. The elements 7 and 8 of the memory are connected to the outputs of the sensors 10 and 11 of the angle of rotation of the web. The element SH-9 is connected to the key, the outgoing element 12, and also the second register entry 13 record. The other input of the key element 12 is connected to the output of the clock generator 14, the output of the key element 12 through the divider 15 with a variable division factor is connected to the input of the registration unit 16. The device is equipped with a tachogenerator 17, the output of which is connected to the third input of the register 13. record. The clock pulse generator 14 is connected via a divider 18 with a constant division factor to the first input of register 13 of the record. The outputs of register 13 are written via decoder 19 to the inputs of divider 15. The device works as follows: In the initial state, elements 7 and 8 of memory to OR 9 are supplied with a logic zero level blocking the operation of the key element 12, Via divider 18 with a constant division factor, the pulses from the clock generator 14 are fed to the enable input of the register 13 of the record. The number of pulses received from the tachogenerator 17 is fixed. This number, converted by the decoder 19, goes to 52 inputs of the divider 15 with a variable division factor, which prepares it for operation. The higher the speed of rotation of the web, the more pulses per unit of time are fed to the record register 13 and the smaller the division ratio will be set on the divider 15. The device starts up when the web angle sensor 10 is triggered. In this case, from the memory element 7, through the OR 9 element, the key element 12 receives a logic level 1 that permits the passage of pulses. After overlapping the edges of the photo beam, the illuminator 1 to the photosensor 3, since the second input of the And 5 element contains a resolving 1st logic level, the And 5 element generates a signal that establishes the element. 7 of the memory to its original state, which causes locking of the key element 12,. Thus, the number of pulses received at divider 15 depends on the length of the time interval between the response of the sensor 10 of the angle of rotation of the web and the photo beam overlap with the web, and ultimately the width of the web. The number of pulses received at registration unit 16 also depends on the division ratio of divider 15, which in turn depends on the speed of rotation of the machine and on the duration of the response interval of memory element 7.. The device operates in a similar way when it is actuated — the angle of rotation sensor I f is activated; in this case, the illuminator 2, the photosensor 4, the element 6 and the memory element 8 are activated. Sensors for turning the canvas are separated in such a way that their inclusion occurs in antiphase. This eliminates errors associated with the deviation of the web from the vertical axis, i The frequency of the generator 14 clock pulses is chosen so that the number of shChpulses equal to the web width with gradation up to arrives at the registration unit 16. 0.1 cm

Claims (1)

DEVICE FOR MEASURING THE WIDTH OF MOVING DRAWINGS, containing two illuminators, two photosensors, optically coupled to illuminators, two AND elements, the first input of each of which is connected to the corresponding photosensor, two memory elements, the input of each of which is connected to the output of the corresponding element AND, the output is to the second input of the corresponding element And, the clock generator, a key element connected to the clock generator by the first input, the registration unit, characterized in that, in order to improve accuracy and measurements, it is equipped with two sensors of the web rotation angle, an OR element, a recording register, a decoder, a tachogenerator, a frequency divider with a constant division coefficient, a frequency divider with a variable division coefficient, the outputs of the memory elements are connected to the corresponding inputs of the OR element, a frequency divider with a constant coefficient the division is connected by an input to the output of the clock generator, by an output - to the first input of the recording register, the second input of the recording register is connected with the output of the OR element, the third - with the tachogenerator by an actuator, the OR element is connected to the second input of the key element, the output of which is connected to the counting input of the divider with a 'variable division ratio, the control inputs of which are connected to the write register through the decoder, each of the rotation angle sensors is connected to the second input of the corresponding memory element, and the unit registration connected to the output of the divider with a variable division ratio. . · C * ω a> 1174735 2