SU1439624A1 - Device for monitoring article presence transmitters in production line - Google Patents

Abstract

The invention relates to the automation of technological processes and can be used in systems controlling the functioning of sensors and production counting systems, for example, in the production of rolled products. The purpose of the invention is to increase the reliability of the device. Sensor control device

Description

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Cove 1 contains NOT 2, 2j elements (AND 2j, control units 3 and 4, each of which consists of components 7 and 8 AND, OR element 9, single-oscillator 10 and power bus 11. Process additional information from the third sensor, located in the section of the technological line, which is pre-controlled, the absence of a signal from the monitored sensor at the moment when the product is under it leads to the appearance of a single signal at the output of the first control unit 3. The presence of a signal from this sensor in the absence of the product underneath causes a single signal at the output of the second control unit D. 1 Cp f-crystals, 1 ill.

The invention relates to the field of automation of technological processes and can be used in control systems for the operation of technological sensors and production counting systems, mainly in the manufacture of long products, for example, in the production of rolled products.

The purpose of the invention is to increase the reliability of the device.

The essence of the invention is that during transportation along a production line a lengthy product, which at the same time is in three or more sections of the production line, equipped with sensors for the presence of the product, the sensor signals determine the presence of the product in sections. When sensors are working correctly (with good sensors), the absence of their signals indicates the absence of the product in the corresponding sections, and the presence of signals indicates the presence of the product in the sections. If any sensor malfunctions (when the sensor goes out of order), its signal will be different from the signals of other serviceable sensors; sensor

gives a presence signal when there is no

product or does not give a signal of presence in the presence of the product. It is assumed that only one of two adjacent sensors can fail at the same time. If the production process technologists are such that the gap between two transported products (the distance between the rear end of one and the front end of the next product) is more than the distance between any (1 + 1) -and and (1-1) -th sections (i is the section number), then there will be

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The signal of the presence of the product in this section with the simultaneous absence of signals of the presence of the product in the previous and subsequent sections or the absence of a signal of the presence of the product in this section with the simultaneous presence of signals in the previous and subsequent sections will indicate a malfunction of the sensor of this section . about the failure of this sensor. Thus, the proposed device allows detecting both cases of sensor malfunction: when the sensor is constant, regardless of the presence of the product, it gives a signal about the presence of the product and when the sensor is constant, regardless of the presence of the product, it gives a signal of its absence. Moreover, the first type of fault can be detected before the product enters the production line, i.e. the malfunction can be detected and fixed in advance.

In the drawing given the proposed device.

The control device of sensors 1 on the product line on the production line contains the elements of HE 2 from first to third, first 3 and second 4 blocks: control, first 5 and second 6 outputs.

The control unit contains the first 7 and second 8 elements AND, the element OR 9, the one-shot 10 and the power bus 11.

The device works as follows.

After switching on the power supply with a pulse from the one-shot 10, none. the third input of the element And 8 of each control unit is supplied

the zero signal, which sets the blocks to the initial zero state, at which at their outputs 5 and 6, the signals are zero. If the sensors 1 are intact and the product is not under them, then the control units remain in this state. The zero state of the block 4 is preserved due to the zero signal arriving at the second input of the element AND 8 from the sensor 1 of its own cross section. The inputs of the element And 7 block 3 receives zero signals from sensors 1 of the previous and subsequent sections, the inputs of element 9 receive zero signals from the outputs of elements And 7 and 8, therefore, at the output of the element OR 9 and, therefore, at the outputs of the element And 8 and block 3 signal is zero.

When a product appears in the event that the sensors are in good condition, the state of the monitoring units does not change.

When the front end of the product enters the previous section, a single signal from sensor 1 of this section is input to the element 7 of block 3, a zero signal continues from the next section of the input of this element and a zero signal at the output of the 7 section . Therefore, zero is left at the outputs of the elements OR 9 and AND 8 and block 3. The zero at the output of block 4 is also saved, since the input of the element And 8 continues to flow zero from sensor 1 of this cross section.

When the front end of the article reaches this section, the block 3 maintains the zero state, since zero is preserved at the output of its element AND 7 due to the zero signal from the sensor 1 of the subsequent cross section. Block

4 also remains in the zero state, 45 ° pulse at the output of the one-shot

since since the appearance of the product in the previous section, at the input of the element I 7 there is a zero signal from the output of the element NO 2 of the preceding section.

When the front end of the product enters the subsequent section, the block 4 remains in the zero state, since zero remains at the output of the element 7 due to zero input signals from the NOT elements 2 of the preceding and subsequent sections. And block 3 remains in the zero state due to the zero signal at the input of the element And 8, 0

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the stepping element of the element is NOT 2 given section.

The zero state of the control units in the event that the sensors 1 are in good condition will also be preserved when the product leaves the sensors.

When the rear end of the product leaves the previous section, the signal at the output of its element HE 2 and at the input of element AND 7 of block 4 becomes equal to one, but at the other input of element And 7, zero of the element 2 of the subsequent section remains, therefore the signal at the output of element AND 7 remains zero, i.e. the zero remains at the output of the element OR 9, at the first input of the element AND 8 and at the output of block 4. The block 3 remains in the zero state, as the zero remains at the input of its element AND 8 because of the zero signal received from the element NOT 2 given section.

When the rear end of the product leaves this section, the zero state of block 4 is preserved due to the zero signal received at the output of the element And 7 from the element NOT 2 of the subsequent cross section, and the zero state of block 3 due to the zero signal from the previous sensor 1 section, continuing to flow to the input element And 7.

When the product leaves the subsequent section, the control units retain the zero state, as in the initial state.

In the event of a malfunction of sensor 1 of this section, when the sensor continuously generates a single signal both in the absence and in the presence of the product, block 4 generates a single malfunction signal in the absence of a pbd product in the sensors. After a short time5

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10, which sets the block to the initial zero state, a single signal is restored to the third input of the And 8 element. The second input of this element of the block 4 from the faulty sensor 1 receives a single signal. At the inputs of the element And 7 of the elements NOT 2 of the adjacent sections, single signals are received, therefore, at the output of the element AND 7 and at the output of the element OR 9 there is a single signal, i.e. units coincide at the input of the AND 8 element, which leads to the formation of a single fault signal at the output 6 of the block 4. When the product appears in the considered sections, when the outputs of their HE elements 2 and the inputs of the And 7 element of block 4 appear zeros, the unit signal at the output of block 4 is preserved, since the unit from the output of the element AND 8 through the element OR 9 is fed to the first input of the element AND 8.

If the sensor is 1 faulty formula and

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1. A device for monitoring sensors for the presence of a product on a process line, containing two elements NOT and the first control unit, the input and output of the first element are NOT connected respectively to the output of the product presence in this section of the process line and to the first input of the first control unit, the output of which is The first output of the device, and the second input is connected to the output section, such that it permanently produces a zero signal in the next product presence sensor, as in the case of a missing section of the production line.

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in the presence of the product, a single malfunction signal is issued by block 3 after the appearance of the product in the considered sections. If a sensor malfunctions at the output of an element NOT 2 of a given cross section and at the second input of the element And 8, the signal is equal to one constant. At the third input of the element And 8 there is also a single signal, and at the first input through the element OR 9 there is a single signal from the element 7 and the appearance of the front end of the product under gauge 1 of the subsequent section, since at the same input of the element 7 there is a unit from Sensor 1 of the previous section since the appearance of the front end of the product in this section, and at the other input a single signal appears at the time of arrival of the front end of the product under sensor 1 of the subsequent section. By coinciding units on all three inputs of the element And 8 at the output 5 of block 3, a single fault signal is generated. After leaving the rear end of the product from the previous, a. then, from the subsequent section, the malfunction signal is preserved, since a single signal from the output of the element AND 8 through element 9 enters the first input of the element 8. After the malfunction of the sensor is eliminated, block 3 is returned to its initial state by applying a pulse from the single vibrator 10.

Similarly, the device controls the operation of: sensors of other sections.

Formula and

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It is also connected with the input of the second element, NOT, in order to increase the reliability of the device, it contains the second control unit and the third element, NOT, connected by the input and output, respectively, to the output, of the product presence sensor in the previous section of the technological line I to the third input of the second control unit connected by its first and second inputs and output respectively to the output of the sensor of the presence of the product in this section

3Q process line, with the output of the second element NOT and with the second output of the device, the third input of the first control unit is connected to the input of the third element NOT.

2. The device according to claim 1, characterized in that the control unit contains two elements AND, the element OR and the one-shot, the first and second inputs and the output of the first element AND are connected respectively to the second and third inputs of the control unit and to the first input of the element HJIIi, the second input of which is connected with the output of the second element AND and the output of the control unit, the inputs of the second element AND, from the first to the third, are connected respectively to the output of the OR element, to the first input of the control unit and to the output of the one-vibrator, the input of which is connected to the power bus .

Claims (1)

Claim 1. A device for monitoring product availability sensors on a production line containing two NOT elements and a first control unit, the input and output of the first element are NOT connected respectively to the output of the product presence sensor in this section of the production line and to the first input of the first control unit, the output of which is the first output of the device, and the second input is connected to the output 15 of the product availability sensor in a subsequent section of the production line, also associated with the input of the second element NOT, characterized in that, with the aim of higher Reliable 2θ of the device, it contains a second control unit and a third element NOT connected to the output by the input and output, of the product presence sensor in the previous section of the process line AND to the third input of the second control unit connected with its first and second inputs and output, respectively by the output of the product availability sensor in a given section 3Q of the production line, with the output of the second element NOT and with the second output of the device, the third input of the first control unit is connected to the input of the third element NOT. ³⁵ 2. The device according to claim 1, characterized in that the control unit contains two AND elements, an OR element and a single vibrator, the first and second inputs and the output of the first AND element are connected respectively to the second and third inputs of the control unit and to the first input of the OR element, the second input of which is connected with the output of the second element And and. with the output of the control unit ⁴⁵ , the inputs of the second element I. from the first to the third are connected respectively to the output of the OR element, to the first input of the control unit and to the output of a single-shot, the input of which is connected to the power bus. VNIIIPI Order 6080/50 Circulation 704 Subscription Custom polygr. ave, city of Uzhhorod, st. Project, 4