SU1185065A1 - Arrangement for measuring the length of articles on lateral and lateral-longitudinal flows - Google Patents

Abstract

THE DEVICE OF THE DPJ MEASUREMENT, THE CUTTINGS OF THE PRODUCTS IN THE LONGITUDINAL AND TRANSVERSAL LONGITUDINAL FLOWS, containing logical blocks, basic sensors, the number of which is one more than the number of logical blocks an input and a 1K trigger connected to the output of a conjunctor by an R-BXOd, whose I-input is an information input, and the direct output is an information output of a logic unit, the rest The blocks are combined by zeroing inputs and contain a series-connected IC trigger and a conjunctor whose output is an information output of a logic block, characterized in that, in order to improve reliability and simplification of the device, it is equipped with an encoder whose inverse dynamic input is connected to the output of the first the basic sensor, and the direct dynamic input of the conjunctor of the first logic unit, which is its zeroing input, and the information inputs are connected to the information outputs of the corresponding logical blocks, the first of which has an additional output (L from the output of the conjunctor, which is connected to zeroing inputs formed by the R inputs of the 1K-flip-flops of the remaining logical blocks, each of which has an additional output from the direct output of the 1K-trigger.ra, connected to the control input formed by the 00 SP K-input of the 1K-flip-flop of the previous logic block, and the inverse outputs of the 1K-flip-flops of the logic blocks, which are their control outputs, are connected to the additional inputs of all subsequent logic blocks a ow-expandable inputs conjunctors these blocks.

Description

The invention relates to a measuring technique, can be used in measurement and control systems, and is intended to measure the length of products moving in a longitudinal and transverse-longitudinal flow. The purpose of the invention is to increase reliability and simplify the device. The drawing shows a block diagram of the proposed device for measuring the length of products in the longitudinal and transverse-longitudinal flow. The device contains basic sensors 1.1, 1., 1.3, 1.4, encoder 2, the inverse dynamic input of which is connected to the output of the first sensor; 1.1, logical, blocks 3.1, 3.2, 3.3, consisting of each of the 1K-flip-flop 4.1, 4.2,4.3 and conjuncer 5.1, 5.2, 5.3 1-input of the 1K-flip-flops 4.1, 4.2, 4.3 is the information input of the logical blocks 3.1, 3.2 , 3.3, direct output of 1K-flip-flops 4.1, 4.2, -4.3 is an information output of logic blocks 3.1, 3.2, 3.3, K-input of 1K-flip-flop 4.1, 4.2, 4.3 in years with a control input of logical blocks 3.1, , З.Я, 3.3, inverse output IK7 of the triggers 4.1, 4.2, 4.3 - the control output of the logical blocks 3.1, 3..2, 3.3, the inputs of conjunctors 5.2, 5. are additional inputs of the logical blocks 3.2, 3.3, and R- BXOs of 1K-flip-flops 4.2, 4 .3 are the zeroing inputs of logic blocks 3.2, 3.3. The device works as follows. The working signal, in which a digital code of the length of the measured product appears briefly at the output of the encoder 2, is a change at the dynamic input of the encoder 2 of logical 1 to O, which corresponds to the departure of the rear end of the products from the sensor area 1.1. The working signal for the direct dynamic input of the conjunctor 5.1 and for the I, K-inputs of the triggers 4 is a change of the logical O by 1 Sensors 1.1-1.4 are arranged according to the scheme. coarse measurement of the length of the product, while the distance between the sensors 1.1 and 1.2 is the shortest length L .. 1 of the product, expressed in units of measurement, and between subsequent sensors (1.2 and 1.3, 1.3 and 1.4, etc.) the distance is the measurement unit LO i P of the length measurement of the product moving in the longitudinal flow of its front end acts on the sensor 1.1, at the output of which the logical O changes by 1 (but, since such a change of signals is not working for the inverse dynamic input of the encoder 2, the output of the last information continues out be). Upon further longitudinal movement of the product, its front end acts on the sensor 1.2, at the output of which a change of logic O to 1 causes the trigger 4.1 to be set to position 1. When the front end of the product impacts the sensor 1.3, the trigger 4.2 of the logic unit 3.2 is set to position 1, and the trigger 4.1 when changing, at its K input, the logical O about 1 is transferred to the O position. If, for example, after this, the rear end of the measured item leaves the sensor 1.1, i.e. if there is a working change of signal 1 at 0 on the inverse dynamic input, encoder 2, then at output, encoder 2 appears in the pulse a code corresponding to the presence of logical 1 at output of conjunctor 5.2, and this in turn corresponds to the coarse length of the product being measured, whose front end is between sensors 1.3 and 1.4. In this case, the presence on the measurement line of previous products does not affect the code present at the output of the encoder 2, since the presence of logical 1 at the output of any subsequent conjuncer (5.3, ...) is excluded due to the arrival of one logical input from this conjunctor About with inverse trigger output 4.2. The coarse length code from the output of the encoder 2 arising in a pulse can be fed both to the digital indication unit and to the arithmetic logic unit to perform other tasks. The length of the product moving in the transverse longitudinal flow is measured as follows. The measured product is fed to the measuring line so that its rear end is located at a distance not less than Lg from the sensor 1.1. In this case, the product acts simultaneously on several sensors, for example, sensors 1.1, 1.2, 1.3. On

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The output of conjuncture 5.1 produces a pulse applied to the R inputs of all 1K triggers,; 1, as a result of which they are set to O, then the longitudinal movement of the measured product begins, resulting in its front end acting on the sensor 1.4, which is at 850654.

leads to setting trigger 4.3 to position. 1. If, after this rear end of the product leaves the zone of sensor 1.1, the output of the encoder 2 in 5 pulses, a code appears, cooTBeTctBy the coarse length of the product, the front end of which is between sensors 1, -4, and 1.5 1,5 not shown.

Claims (1)

DEVICE FOR MEASURING. LENGTH OF PRODUCTS IN LONGITUDINAL AND TRANSVERSE-LONGITUDINAL FLOWS, containing logical blocks, basic sensors, the number of which is one more than the number of logical blocks, connected, starting from the second, with the information input of logical blocks, the first of which contains a conjunctor with a direct dynamic input , and an IK-trigger connected to the output of the conjunctor by an R-host, the 1-input of which is an information input, and the direct output is the information output of a logical block, the rest are logical blocks and are combined by zeroing inputs and contain a series-connected IK trigger and a conjunctor, the output of which is the information output of the logic unit, characterized in that, in order to increase reliability and simplify the device, it is equipped with an encoder whose inverse dynamic input is connected to the output of the first basic sensor , and the direct dynamic input of the conjunctor of the first logical block, which is its input of zeroing, and the information inputs are connected to the information outputs of the corresponding logical blocks shackles, the first of which has an additional output from the output of the conjunctor, which is connected to the zeroing inputs formed by the R-inputs of the IK-triggers of the remaining logic blocks, each of which has an auxiliary output from the direct output of the IK-trigger, connected to the control input formed by K- the input of the IK-trigger A of the previous logical block, and the inverse outputs of the IK-triggers of the logical blocks, which are their control outputs, are connected to additional inputs of all subsequent logical blocks, which are inputs of the conjunctors of these blocks. ™ SU ..., 1185065