SU1467381A2 - Device for measuring length of articles in longitudinal and longitudinal-lateral flows - Google Patents

Abstract

This invention relates to a measurement technique and can be used in test systems. The goal is to increase the reliability of the device by eliminating false information. In the device, the presence of the front end of the product (one or several) in the area between the first and second base sensors 1 1 1 and 1.2 is constantly monitored. If this takes place at the moment when the rear end of the product leaves the zone of the first sensor 1.1, which indicates that the unmeasured product (one or several) is on the measurement line, the encoder 2 is blocked from receiving false information, which is provided by reversing the account with a reversible counter 5, pulses coming from the first 1.1 and second 1.2 base sensors, and analyzing the state of the reversing counter 5 at the moment when the rear end of the product leaves the first sensor 1.1. In case of zero state of counter 5, the reception of information into encoder 2 is allowed, and for any other state it is prohibited. 1 il. (Oh (L

Description

The invention relates to measuring: measuring equipment, can be used in control and measuring systems designed to measure the length of products in longitudinal and transverse-longitudinal flows, and is an improvement of the device according to auth. No. 1352185.

The purpose of the invention is to increase the reliability of the functioning of the device by eliminating the issuance of false information.

The drawing shows a block diagram of a device. fifteen

The device contains basic sensors 1.1, 1.2, 1.3, 1.4, an encoder 2, whose inverse dynamic input (C-input) is connected to the output of the first sensor 1.1, which is connected to the pulse body 3, and the information reception permission input (V-input) - to the output of the And 4 element, connected by the inputs to the inverse outputs of the reverse counter 5, which sums and subtracts 25 inputs of which are connected to the outputs of the first and second sensors 1.1 and 1.2, and logic blocks

6.1, 6.2, 6.3, the first of which contains a 1K trigger 7.1, and all the rest 30 consist of an IK trigger and elements connected in series OR

8.2, 8.3 and EXCLUSIVE OR 9.2, 9.3.

The device works as follows.

The working signal, at which the encoder 2 displays a digital code of the length of the measured product, is the change at the dynamic C-input of the encoder 2 logical 1 to 0 for logical 1. ” at the V-input of the permission to receive information, which corresponds to the departure of the rear-end of the product from the sensor zone 1.1 when following the front end of the sensor 1.2. The working signal for the pulse shaper 3, the reverse counter 5 and for the ΙΚ-inputs of the triggers 7 is a change of logical 0 to 1.

The sensors 1.1 ... 1.4 are arranged according to a rough measurement of the length of the product, while the distance between the sensors 1.1 and 1.2 is the smallest length L _MHH 'of the product, expressed in units of measurement, and between the subsequent sensors (1.2 and 1.3, 1.3 and 1.4, etc. d.) the distance is equal to the unit of measurement L ₀ 6.

In the initial state, the reverse counter 5 is zeroed and at the output of the element And 4 there is a logical 1 ”, allowing the reception of information in the encoder 2.

When measuring the length of a product moving in a longitudinal stream, its front end acts on the sensor

1.1, at the output of which the logical 0 changes to 1, “however, information remains absent at the outputs of the encoder 2, since such a * signal change is not working” for its inverse dynamic Depression. At the same time, a pulse is generated at the output of the shaper 3, which is fed to the R-inputs of IK-triggers, as a result of which they are set to position 0, and 1 is entered into the reverse counter 5 at the summing input, which leads to blocking of the encoder 2 at the V-input by a zero signal with output element AND 4.

With further longitudinal movement of the product, its front end acts on the sensor 1.2, at the output of which a change of logical 0 to 1 leads to the installation of the trigger? .1 in position 1. At the same time, such a change of the signal at the subtracting input of the reverse counter 5 leads to its zeroing, as a result of which The V-input of encoder 2 is again set to logical 1, allowing the reception of information in the encoder.

When the front end of the product acts on the sensor 1.3, the trigger 7.2 of the logical block 6.2 is set to position 1, and the trigger 7.1 when changing to its K-stroke: logical 0 by 1 is transferred to position 0.

If after this there is a departure of the rear end of the measured product from the zone of the sensor G. 1, i.e. if there is a working change of the signal 1 · to 0 at the inverse dynamic C-input of the encoder 2, then the code corresponding to the presence of the logical 1 at the output of the element EXCLUSIVE OR 9.2 appears at the output of the encoder 2, and this in turn corresponds to the rough length of the measured product, the front end which: is between the sensors 1.3 and 1 .. 4.

At the same time, the presence of previous products on the measurement line does not affect: the code that has encoder 2 at the output, since there is a logical 1 so that its rear sensor 1.1 is at L _o . At the same time, from time to time, for the sensors at the output of any subsequent element, the EXCLUSIVE OR 9.3 is excluded due to the receipt of logical 1 from the direct output of trigger 7.2 through the series-connected elements OR 8.2, 8.3 to both inputs of this element.

The code for the rough length of the product from the output of the encoder 2 can be submitted both to the digital display unit and to the arithmetic-logic device for. perform other tasks.

The length of the product moving in a transverse longitudinal flow is measured as follows.

The product to be measured is fed to the measurement line so the end is separated from, standing at least (it affects, how many sensors:

1.1, 1.2, 1.3. At the output of the shaper 3, a pulse arises, resetting all 1K ~ triggers, and the reversing counter 5 remains in the zero state, since a couple of pulses of the opposite sign are received at its input: from the sensor 1.1 to the summing input and from the sensor 1.2 to the subtraction input.

After this, the longitudinal movement of the measured product begins, c. as a result, its front end acts on the sensor 1.4, which leads to the installation of trigger 7.3 in position 1. If after that the rear end of the product leaves the sensor area

1.1, at the output of encoder 2, a code appears corresponding to the rough length of the product, the front end of which is between the sensors 1.4 and 1.5 (sensor 1.5 is not shown).

For reliable operation of the reversible counter 5 when measuring the length of products moving in a transverse-longitudinal flow, the addition and subtraction pulses must be spaced apart by a time sufficient to switch the counter. Such a separation of pulses is provided by installing sensors ^ or by delaying the signal of one sensor relative to another (when they are simultaneously triggered).

Let an unmeasured product fall into the measurement zone, the length of which is less than the distance between the sensors, 1.1 and 1.2, and the previous product is still on the measurement line and its front end has not gone beyond its limits.

When the non-dimensional product acts on the sensor 1.1, as in the case under consideration, 1 is recorded in the reverse counter 5 while the K-triggers of all logic blocks are reset to zero.

I With further movement of an unmeasured product, the latter ceases to affect sensor 1.1 before it reaches sensor 1.2. Therefore, at the moment the rear end of the non-dimensional product leaves the sensor zone 1.1, the conditions for receiving information into the encoder are not satisfied, since the reverse counter 5 is different from well. left condition.

I This excludes the reception of encoder 2 and subsequent processing of false information that can be installed on the encoder inputs when> _ the previous product acts on the basic sensors ¹ ki, namely the code of the basic sensors that worked last before leaving the non-dimensional product from the zone of the first sensor 1.1.

Thus, in the device, when passing the measurement line with an unmeasured product, the formation of false information at the encoder output is excluded under certain conditions.

ensured by the constant presence of the front end

This is the trolley of the product (one or more) in the area between the first and second basic sensors, and if this occurs when the rear end of the product leaves the zone of the first sensor, which clearly indicates that there is an unmeasured product (one or more) on the measurement line, then the encryptor is blocked from receiving false information.

connected, subtracting to the first one and creating it by the measure of time. In addition, introducing a reversible counter into the device, • inputs of summing and outputs of correspondingly basic sensors, for subsequent subdivision of products into dimensional and non-dimensional, for which they can. The state of the reverse iHoro counter at the moment the product is exposed to the second sensor must be used.

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Claims (1)

Claim A device for measuring the length of the divisions in the longitudinal and transverse-longitudinal flows according to Autost.No 1352185, characterized in that, with a circuit to increase the reliability of the device, it is equipped with an And element and a reversible counter, which sums and subtracts the inputs of which are connected to the outputs, respectively of the first and second basic sensors, the inverse outputs of the reversible counter are connected to the inputs of the element And, the output of which is connected to the additional input of the encoder. Compiled by L. Kryukova Editor S. Patrusheva Tehred M. Khodanich Proofreader V. Girnyak Order And 83 / Particleboard Circulation 683 Subscription VNIIIPI of the State Committee for Inventions and Discoveries under the State Committee for Science and Technology of the USSR 113035, Moscow, Zh-35, Raushskaya nab., 4/5 Production and Publishing Plant Patent, Uzhhorod, st. Gagarina, 101