SU723631A1 - Device for registering the production of equipment - Google Patents

Description

The invention relates to devices for monitoring and recording the operation of machines and apparatuses and is intended to compare the planned and actual production.

A device is known that monitors the production rhythm by comparing the planned and actual production with the help of an information board. In this device, the information boards reflect the deviation of the actual production from the planned £ 1].

However, the known device is inconvenient to use because of the temporary nature of the discrete reflected Infor- ₁₅ mation, in addition it is inconvenient to use for the purpose of dispatching control and management of production progress.

A device for recording the productivity of equipment is known, which contains a display board, the inputs of which are connected to the outputs of the switch, one input of which is connected to the sensor of actual production, and the other to the output of the counter, a frequency divider, the input of which is connected to the output of the pulse generator, and one of the outputs - with the input of the switch block, and a time generator: tags, which is connected to the frequency divider [2].

However, the introduction of a time stamp generator does not provide high accuracy of the device, since the accuracy of the device depends not only on the pulse generator, but also on the frequency stability of the time stamp generator, i.e., the accuracy of the known device is determined by the total error of the two generators.

The purpose of the invention is to simplify the device while improving accuracy.

This goal is achieved due to the fact that the prohibition block is inserted into the device, the inputs of which are connected to the pulse generator, to the other output of the frequency divider and to the output of the switch block, and the output of the prohibition block is connected to the input of the detector.

. Scheme of the device shown in the drawing.

The device comprises a display board 1 controlled by a switch 2, one of the inputs of which is connected to a sensor 3 of actual output 5. The second input of the switch 2 is connected to the output of the counter 4, the input of which is connected to the output of the prohibition unit 5. The inputs of block 5 are forbidden => that are connected to the outputs of the divider ^, frequency 6, pulse generator 7, and the switch unit 8, which is connected to the frequency divider 6, the input of which is connected to the output of the pulse generator 7. ^fifteen

The device operates as follows.

In block 8 of the switches set the planned task for the manufacture of products for the planned period of time. " ²⁰ men. When you turn on the device, the generator 7 continuously generates pulses of a stable frequency, which are fed to the counting input of the frequency divider 6 and the first input of the prohibition block 5. The prohibition block transmits pulses to the input of the counter 4 and at the same time, in the divider 6, the pulses are counted. When the number of pulses arrives at the divider 6, which is equal to the scheduled task set in block 8 of the switches, the signal sent to the second input of block 5 of the ban is output at the output of block 8 of switches. Receipt of the input pulse counter 4 stops and the frequency divider ³⁵ Tel 6 continues to count the pulses arriving on it, and filling it with one output signal which is supplied to the third input prohibition unit 5 and returns it to -iskhodnoe state. The work, the circuit is repeated, and the next packet of pulses arrives at the input of the counter 4, the number of which in the packet corresponds to the planned task.

The division coefficient of counter 4 is constant and equal to the period of time for which the production task is planned, multiplied by the ratio of the frequency of the 7 pulse generator to the total division ratio of the divider 6. At the output of the counter 4 pulses are taken exactly where 1 is the time required to produce one product;

f is the frequency of the generator of 7 pulses; Щ - the full division factor of the healer 6;

, T - the period of time for which the production task is planned (shift, decade, month);

N - scheduled task, set in block 8 switches. After the arrival of the next impulse, switch 2 commutes the board 1 (planned part), the next combination of numbers corresponding to the planned task at a given time. After the manufacturing of the next part (assembly), sensor 3 receives an actual impulse to the second input of switch 2, which puts the scoreboard 1 (its actual part) into the position corresponding to the next combination of its significant digits.

By comparing the planned and actual value of the output, it is possible to control the rhythm of the production process at any time.

Thus, the proposed device allows you to simplify the circuit by using a single pulse generator of a stable frequency and thereby improve the accuracy of the device.

Claims (2)

The invention relates to devices for monitoring and recording the operation of machines and apparatuses and is intended for comparing planned and actual production. A device that controls the production rhythm by comparing planned and actual production with a potential information board is known. In this device, on the placards reflects the deviation of the actual production of products from the planned G. However, the known device is inconvenient in operation due to the discrete temporal nature of the information reflected {besides, it is also inconvenient to use it for the purposes of operational dispatch control and to regulate the production progress. It is known a device for measuring equipment performance, containing a display, the inputs of which are connected to the switch outputs, one input of which is connected to the actual output sensor, and the other to the output of the counter, a frequency divider whose input is connected to the output of the pulse generator, and one of the outputs with the input of the switch block, and a time stamp generator, which is connected to the frequency divider f2. However, the introduction of a time stamp generator does not provide a high accuracy of the device, since the accuracy of the device depends not only on the pulse generator, but also on the frequency stability of the time stamp generator, that is, the accuracy of the known device is determined by the total error of the two generators. The purpose of the invention is to simplify the device while improving accuracy. The goal is achieved. -Jn due to the fact that the prohibition block is entered into the device, the inputs of which are connected to 1H pulses, to another Bi.ixony frequency divider and to the output of the poklechuchikov block, “v11khol block aapretl is connected to the E1 INPUT of the counter. The scheme of the device is shown in the same. The device contains a board 1 controlled by switch 2, one of the inputs of which is connected to the sensor 3 of actual generation. The second inlet of switch 2 is connected to the output of counter 4, whose turn is connected to the output of prohibition unit 5. The inputs of block 5 prohibit connection ед necks with the outputs of frequency divider 6, generator 7 pulses and block 8 switches, which is connected to frequency divider 6, the input of which is connected to the output of generator 7 pulses. The device works as follows. at once, In block 8 of the switches set the planned task for the manufacture of products for the planned period of time. When the device is turned on, the generator 7 continuously detects stable frequency pulses, which are fed to the counting input of the frequency divider 6 and the first input of the prohibition unit 5. The prohibition unit transmits pulses to the meter 4 and at the same time in the divider 6 pulses are counted. When the number of pulses arrives at divider 6 equal to the scheduled task set in the switch block 8, the switch block 8 switch snaps off the signal coming to the second EOSOD of the prohibition block 5. The arrival of pulses at input 4 is stopped, and the frequency divider 6 continues to count the pulses arriving at it, and when it is filled, its output is removed, which arrives at the third proton unit of the prohibition unit 5 and returns it to its original state. The operation of the circuit is repeated, and the next batch of pulses arrives at the input of counter 4, the number of which in the packet corresponds to the planned task. The ratio of dividing counter 4 is constant and equal to the time interval j planned for the production plant multiplied by the ratio of the frequency of the generator of 7 pulses to the total frequency (dividing the healer 6. On the b (the counter 4 pulses are removed but after a period of time set for the manufacture of one unit of production, i.e., the circuit implements the mathematical operation:, n „-M 7 time required for production. 1 (.- one product; frequency of the generator 7 pulses; total dividing ratio divisible l 6, interval time on which planning task (shift, decade, month); plan task set in switch block 8. After the next impulse arrives, switch 2 switches the board 1 (plan part) to the next combination pyfr corresponding to the planned task at a given time. From sensor 3 after the production of the next part (assembly), the actual output is pulsed by the second approach of switch 2, which translates the board 1 (the actual part of it) to the position corresponding to the next combination of its significant numbers. By comparing the planned and actual value of production, it is possible to control the rhythm of the production process at any time. Thus, the proposed arrangement allows one to simplify the circuit by using a single pulse generator of stable frequency and thereby improve the accuracy of the device. The invention The device for measuring equipment performance, containing a display, the inputs of which are connected to the outputs of the switch, one input of which is connected to the actual operating sensor and the other to the output of the counter, a frequency divider, the EKOD which is connected to the output of the pulse generator, and one of the inputs With a decoder code, characterized in that, in order to simplify and improve the accuracy of the device, a prohibition block is introduced into it, the Evods of which are connected to the pulse generator, and another divider Toty vkodu unit and switches, and the output prohibition unit connected to the input of the counter. Sources of information taken into account in the examination 1. USSR author's certificate NO 383086, cl. G 07 C 3 / 1O, 197O. 2. USSR Author's Certificate No. 58О569, cl. G 07 C 3/02, 1976 (prototype).