SU1688266A1 - The tester to determine a maintenance optimal period of the product - Google Patents

Abstract

The invention relates to control devices and can be used where it is necessary to calculate the overhead costs of product resources. The aim of the invention is to expand the field of application of the device by determining the values of the average unproductive consumption and the average specific unproductive consumption of the resource. The device contains blocks 1, 3, 5 and 8 multiplying, adders 2, 4 and 6, block 7 nonlinearity, blocks 9 and 10 divisions, integrator 11, time sensor 12, delay elements 13, 14 and 16, comparator 15, elements 17, 18 and 20 memory, waiting for multivibrator 19, keys 21, 22 and 23. The invention can be used where it is required to find optimal service periods for products that provide a minimum of average specific non-productive costs of product resources. 1 il. (L

Description

The invention relates to control devices and can be used in scientific research and technology, where it is required to find the optimal periods for servicing products that provide a minimum of average specific unit overhead of product resources, as well as calculate overhead of product resources. jq The purpose of the invention is the expansion of the scope of the device by determining the values of the average overhead and average specific overhead. resource.

The drawing shows a block diagram of the proposed device.

The device comprises a first multiplication unit 1, a first adder 2, a second multiplication unit 3, a second adder 4, a third multiplication unit 5, a third adder 6, a nonlinearity unit 7, a fourth multiplication unit 8, a first 9 and a second 10 division units, an integrator 11, 25 a time sensor 12, the first 13 and second 14 delay elements, a comparator 15, the third delay element 16, the first 17 and second 18 memory elements, the multivibrator 19, the third memory element 20, the first 21, the second 22 and the third 23 keys.

The device operates as follows.

When the Start signal is applied from the seventh input of the device at the same time, ^ 5, the non-linearity block 7 and the time sensor 12 begin to work. The latter (a ramp generator) produces an output signal U _6blK = t, i.e. at the output of the time sensor 12, a time change continuously occurs. Simultaneously with the sensor 12, the non-linearity unit 7 begins to generate an output signal corresponding to the probability of product failure P (t) during time t. This signal is fed to the inputs of blocks 3 and 5 and to the input of integrator 11. From the third input of the device, the first value of doc 3 and the input of the first adder 50 2 receive the value of the parameter ΟθΟθ. The value of CgCgP (t) from the output of block 3 goes to the first input of the first adder 2, the second input of which from the second input of the device receives 55 parameter CC of the output of the integrator 11 value = jp (t) dt, which is equal to the average value of the useful life of the product on the period, if the product is controlled by period C, it enters the input of block 9 and the input of the second adder 4. The value of the signal t from the output of the time sensor 12 goes to the input of the third adder 6, to the input of the second adder 4 and through the delay element 14 to the input ele ent 18 memory. The value of t _o = t - t _o , equal to the average value of the time of failure of the divisions on the period t, if the product; ·> Control the period t, the output of the second adder 4 goes to the second input of block 1, the first input of which from the first input of the device receives the value of parameter С _о . The value C _Q t _o from the output of block 1 is supplied to the fourth input of the first adder 2. The value ^C «H * ⁺ from the output of the first adder 2 is fed to the input of the division unit 9 and to the input of the division unit 10. From the fourth input of the device to. the first input of block 5 and the input of the third adder 6 receives the value of the parameter Og. The value of £ _o p (t) from the output of block 5 is fed to y, the input of the third adder 6, to the input of which the parameter value is received from the fifth input of the device. The value t + + _{ί β} [ΐ - p (tXJ from the output of the third adder 6 is fed to the input of the second division block 10. Value

C ₀ t _o + Οκ'ΐχ. + С Λ Γΐ - p (t) J from the output of the second division unit 10 is supplied to the first input of the fourth unit 8, the second input of which from the sixth input of the device receives * · 2 parameter value T _s . Value

corresponding to the average value of the unproductive consumption of the resource spent by the product during the operation of T ³ , if the product is controlled with a period of t, from the output of the fourth block 8 through the third delay element 16 is fed to the input of the third memory element 20. The value of r ₌ o to Dzpiil-i

ΊΓ corresponding to the average value of the specific unproductive resource consumption per unit time of product uptime, if the product is monitored with a period t, from the output of the first division unit 9 goes to the first input of the comparator 15 and to the input of the first delay element 13. The delay time of the third 16, first 13 and second 14 delay elements is selected to be the same and equal. The value of this value determines the accuracy of determining the optimal period of service of the product. The value of C ^ (t ~ - from the output of the first delay element 13 is supplied to the second input of the comparator 15 and to the information input of the first memory element 17. At the beginning of the work - & c) more

C ^ (t). When C ^ (t ^_ ) becomes less than (t), a control signal appears on the output of comparator 15, which starts the waiting multivibrator 19. This means that the optimum service period for the product has arrived. From the output of the standby multivibrator 19, the control signal is supplied to the control inputs of the memory elements 17, 18 and 20 and keys 21, 22 and 23. By this signal, the values of the input signals at the time t _H of the waiting multivibrator 19 of the control are output by the memory elements 17, 18 and 20 signal. As a result, on the third output of the device there will be a value / - dC = £ *, equal to the optimal period of monitoring and control of the technical condition of the product, on the second output of the device there will be a value -Dc) = C (^ (£ *), equal to the average value 40 If the product is serviced with an optimal period, at the first output of the device there will be a value C _C p (t _H - d £) = C _C p (C *) equal to the average the value of unproductive consumption of the resource consumed by the product over time operation Tq, if the product is serviced with ·. 50 service with an optimal period of C *. This completes the operation of the device.

Claims (1)

The claims of the first inputs of the first and second division blocks, a nonlinearity block, the output of which through the integrator is connected to the second input of the first division block 5, the output of which is directly and through the first delay element connected to the first and second inputs of the comparator, the output of which is through the standby multivibrator connected to the first inputs of the first and second memory elements and the first and second keys, the outputs of the last of which are the first and second outputs of the device, output 15 of the time sensor through the second delay element to the second input of the second memory element, the output of which is connected to the second input of the second key, the output of the first delay element | CI is connected to the second input of the first memory element, the output of which is connected to the second input of the first key, the first input of the first multiplication block is the first the input of the device, the output of which is connected to the first input of the first adder, the second input of which is the second input of the device, the third input of which is combined with the second input of the second block of intelligence and is second m of the device’s input, the fourth input of the first adder is connected to the output of the second multiplication block, and the third is the multiplication block, the first input of which is the 35th fourth input of the device, characterized in that, in order to expand the scope by determining the values of the average specific unproductive consumption of the product’s life and the values of the average · unproductive consumption of the product’s resource, the second and third adders, the second division block and the fourth multiplication block connected in series, the third element holders, the third memory element and the third key, the output of which is the third output of the device, the output of the nonlinearity block is connected to the second input of the third multiplication block, the output of which is connected to the first input of the third adder, the second and third inputs of which are the fifth and fourth inputs of the device, respectively, and the output of the third totalizer A device for determining the optimal period of maintenance of the product, containing the first adder, the output of which is connected to pa connected to the first input of the second division unit I, whose second input is connected to the output of the first adder, and the output to the first input of the fourth multiplication block; the second input of which is the sixth input of the device, the output of the time sensor is connected to the fourth input of the third adder and the first input of the second adder, the second input of which is connected to the output of the Integrator, and the output to the second input of the first multiplication block, the inputs of the nonlinearity block and the time sensor are combined and are the seventh input 5 of the device, the output of the standby multivibrator is connected to the second inputs of the third memory element and the third key.