SU1596363A1 - Device for registering and monitoring the timing of optimized maintenance of article - Google Patents

Abstract

The invention relates to the field of technical cybernetics and can be used in scientific research. The aim of the invention is to enhance the functionality of the device by determining the maximum useful life of the product. The device comprises a time sensor 1, a nonlinearity unit 2, an integrator 3, the first multiplication unit 4, the division unit 5, the second multiplication unit 6, the adder 7, the first and second comparators 8 and 9, the display element 10, the first, second and third elements And 11 , 12 and 13, the delay element 14 and the third comparator 15. The device allows to determine the optimal period of maintenance of the product, taking into account the maximum useful operation time. 1 il.

Description

The invention relates to technical cybernetics and can be used in scientific research and engineering, where it is required to determine the optimal period of maintenance of devices.

The device allows to determine the optimal value of the maintenance period of the product. This optimal value is found by virtue of the chosen criterion — the average time T. of useful functioning must be not less than a predetermined T and, in addition, the condition that the average time Tf is additionally checked. useful functioning of systems has a maximum value of T GA, i.e. the formal record of the mathematical model that the device implements is of the form

,: T „Tz“ d / T - “s}. (one)

The aim of the invention is to expand the functionality of the device by determining the maximum useful product operation time.

Any product system consumes a certain amount of limited resource R during its operation. At the same time, a different amount of a resource that is consumed with a certain intensity (C intensity of resource consumption per unit of time) can be spent during a monitoring session.

The values of R, g and C are selected depending on the class of the system, the nature and characteristics of the process of its functioning, etc.

In the process of using the proposed device, these values can be set according to the goals and objectives of the study to determine the necessary points in time when maintenance is necessary. Their specific values can be set on the operator console (researcher). Thus, for the selected values of R, g and C, M), the process, (, -,) for the current time j of the system and taking into account the nature f (R, g, -C, M) of the system's function of the system.

The T4 obtained with these initial data is sined with a given Tzad time. However, in order to increase the life cycle of the system, i.e. increasing T, it is still necessary to check the conditions whether T (,, (,) has a greater value than T, i.e. whether Tdd (threshold value) is a maximum for Tnf or is there a different value of T "Tp4 Te" d.

The drawing shows a functional diagram of the device.

The device contains time sensor 1, nonlinearity unit 2, integrator 3, first multiplication unit 4, division unit 5, second multiplication unit 6, adder 7, first and second comparators 8 and 9, display element 10, first, second and third elements 11 , 12 and 13, delay element 14 and the third comparator 15.

The device works as follows.

The time sensor 1 with a step of DS) sets, in order of increasing, the sequence of possible values), - f;., + 4 (the period of control and maintenance of the systems). With each next value of C; from block 2. non-linearity is selected on the interval CO, C-J function P (C)) and sent to integrator 3, where it is integrated. The upper integration limit is determined by the current value of time sensor 1. From integrator 3 signal, corresponding to V

JP (t) clt comes in first

Claims (1)

the input of the first multiplication unit 4, the second input of which receives a signal from the division unit 5, corresponding to the R / C 1 setting ,. + g. At the first input of division unit 5, a signal is received from the second multiplication unit 6 through multiplier 7. In the second multiplication unit 6, parameter C characterizing the average resource consumption per unit of time and arriving at the first input of the second multiplication unit 6, which is the first input of the device, is multiplied with the current time value i-, arriving at the second input of block 6 from time sensor 1. In the adder 7, the output signal of the second multiplication unit is summed with another input parameter g, which characterizes the resource consumption for the monitoring and maintenance session, which is fed to the second input of the adder 7, which is the second input of the device. The second input of the division unit 5 from the third input of the device is supplied with the parameter R, which determines the margin of the limited resource. From the output of the first multiplication unit 4, the signal corresponding to the average time Tp of useful operation for time 1 f specified by sensor 1 is sent to the first inputs of the second comparator 9 and the third element And 13, In the case when the signal corresponding to the average time T of the useful operation is greater than the signal arriving at the second input, the comparator 9 is equal to the specified average value of the useful time function, at the output of the first comparator, a unit appears that goes to the second control input of the AND element 13, from the output of which the signal arriving at its first input corresponding to the T value is fed to the input of the delay element 14 and to the first input of the third comparator 15, The second input of the comparator 15 is fed from the output of the element 14 with a relative value of the time Tn -Cti-i) corresponding to the previous time value1. . If, as a result of the comparison, comparator 15 has the effect that) 4 fn (ii,), i.e. the average useful operation time has reached the maximum value; a unit appears at its output, which is fed to the first control inputs of the first 11 and second 12 elements AND, opening them. However, when reaching the current time f. value. 7f, dL "M, corresponding to the time required for the maintenance period, which is the case, the comparison in the first comparator 8, at the output of the comparator 8 appears the unit that arrives at the second input of the second element And 12 and from its output goes to the input sensor 1 time, stop it. In addition, the unit from the output of the first 8 comparator is fed to the second input of the first element I 11 and from its output to the display element 10, indicating that at the required maintenance period, the average useful life of the product is greater than the specified value and takes this is the maximum value. If it turns out that the signal "arriving at the first input of the second comparator 9 is less than T, then the unit from the output of the comparator Y does not appear, the indication element 10 does not turn on, which indicates that the signal corresponding to the average useful operation time systems with the required value of the maintenance period M, is less than the specified average useful time. If, on the other hand, it appears that the unit from the output of comparator 9 appears, but as a result of the comparison in comparator 15 it is observed that Tp (,) Tp (C), then also the unit from the output of comparator 15 does not appear , which indicates that the average useful operation time Tpf (- (;) for a given value of the current time I has not yet reached the maximum value. In this case also the element 10 of the indication does not turn on, the control signal from the output of the comparator 8 (provided that 7 M) through the element And 12 is not fed to the input of the sensor 1 time and dates The time tick 1 continues to generate the current time value., C; +. / 11. The device ends when the display element 10 is turned on. Claims of the invention A device for recording and monitoring the optimal maintenance period for an item containing a time sensor whose output is connected via serially connected a nonlinearity unit and an integrator with the first input of the first multiplication unit and connected to the first inputs of the second multiplication unit and the first comparator, the output of which is connected to the first input of the first ele And the output of which is connected to the display element, the output of the second multiplication unit is connected to the first input of the adder, the output of which is connected to the first input of the division unit, the output of which is connected to the second input of the multiplication unit, the output of which is connected to the first input of the second comparator, the second. the inputs of the second multiplication unit, the adder, the division unit, the first and the second comparators are respectively the first to the fifth inputs of the device, characterized in that, in order to expand the functional capabilities of the device by determining the maximum, 15963638 the time of the useful functioning of the horn of the element I, the output of the first block the products are entered into it second and multiply connected to the first input the elements And, the delay element and the third element And, the output of the second the third comparator whose output of the sub-comparator is connected to the second input The key is connected to the second input of the first element of the third element AND, whose output This and the first input of the second element is connected directly to the first input,. the output of which is connected to the entrance of the house and through the delay element from the time sensor, the output of the first company input of the third comparator, the rator is connected to the second input of the second ..