Determination of Correction Values of Operating Reliability of Assembly Components of the Assembly—Front Spinner Spinning Box (R1 Rieter) on the Basis of Operating Data

The optimal safety model includes the values of the operation of the components with the allowed risk, and it is clearly seen that the belt of absolutely safe operation of the analyzed circuit is located between the values of the displayed dependence curves M ξ (t) BP = f(t). AND also, analyses have been carried out to ensure the flawless operation of the OE machine and the consistency of product quality.


Introduction-Description of the Box Spinning Assembly (Heart OE Spinner)
The power transition system of the spinning box assembly is shown in Figure 1 and consists of the following components which are classified on the basis of the processing flow of the carded sliver (raw material to be processed).
When the operational values of reliability are determined, which express the approximate values of reliability of the components of the analyzed assembly with maximum safety (areas of their safe operation time and areas of reduction of their reliability), their correction values were used for more precise determination. This was aimed at obtaining the most accurate reliability values for determining the total transfer function of the reliability of the components of the analyzed assembly [1] [2] [3].
The correction values of reliability from the exploitation data are shown in Figure 2 to   of the components of the analyzed assembly ( ) i P t , i.e. according to the slope of the curve, confidence intervals can be analytically predicted which will later be used as a basis in determining the relevant reliability (reliability obtained from the statistical distribution) [6] [7] [8].
The analysis showed the following conclusions: 1) Analysis of the reliability of the operation of the components of the analyzed assemblies without the application of preventive maintenance technology procedures: • Components A8, A9, A10 have the highest reliability in operation, whose reliability is maximum and amounts    Table 1. Values of the correction reliability interval depending on the analyzed time interval of operation of the components of the analyzed assemblies on which the procedures of preventive maintenance technology have not been applied.

Component designation
Time interval of the analyzed work of the component Confidence interval for the analyzed time interval The analysis included confidence intervals after the first lower value than the maximum.
2) Analysis of the reliability of the components of the analyzed assemblies with the application of preventive maintenance technology procedures: • Components A8, A9, A10 have the highest reliability in operation, whose reliability is maximum and amounts  Table 2). The analysis included confidence intervals after the first lower value than the maximum.

Determination of the Statistical Method of Reliability Distribution of the Analyzed Assembly
In order to determine the statistical method of reliability distribution, it is necessary to form models and determine the transfer reliability functions of the analyzed assembly [9] [10]. To determine the transfer function tables of the spinning box assembly G BP (t) reliability corrections were used P i (t)

Model Formation and Determination of Transfer Functions of Reliability of Analyzed Assembly Based on Empirical Data
The formation of the model included the arrangement of the components of the assemblies according to the processing of the yarn, i.e. according to the labels in the order of the components in the failure tree. The components are arranged in sequence on the assembly, from the introductory Table 2. Values of the correction reliability interval depending on the analyzed time interval of the components of the analyzed assemblies on which the procedures of preventive maintenance technology have been applied.

Component designation
Time interval of the analyzed work of the component channel to the yarn waxing mechanism in the spinning box. For these reasons, the block diagram model is shown. The model is more complex and includes the arrangement of components in the spinning box, taking into account their functionality and purpose, so that the reduction of complex block diagram structures has been performed.
Based on the obtained final expressions of the transfer functions of the analyzed circuits G P (t) BP for boxing spinning), and in them by replacing the reliability values of the components P i (t) for time intervals tabular values are obtained by reliability significance belts, from which the reliability curves of the transfer functions of the analyzed assembly are constructed (Table 3).
1) Block diagram model of the transmission reliability function in a spinning box assembly For solving reduction of this model, its step-by-step solution will be performed when obtaining the transfer function of the circuit reliability G P (t) BP . As can be seen from Figure 4, this is an open system of automatic reliability management [11] [12]. The model is shown in Figure 4.
p A P P p p P t P t P t P t P t P t = + = + Table 3. Values of transmission reliability functions of spinning box assembly depending on the value of its reliability.
Reliability values Pi(t) Portable spinning subsystem reliability function GP(t)BP Note: The shaded areas included values because values below this limit are not taken into account (they include areas in which the assembly needs to be repaired, which will be discussed more when determining the reliability values in cases of selected statistical distribution).    Step III ( Figure 6) The values of the partial reliability blocks are: The final equation of the reliability value based on the partial reliability values for the box spinning assembly is: P t P t P t P t P t X t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t P t  Table 3 is formed on the basis of the final expressions of the transfer reliability functions depending on the time interval of operation of the circuits. The value of the transmission function of the spinning box assembly reliability is shown in a table (Table 3). Based on the obtained values, a graphical representation of the dependence was performed f(G P (t) BP ,t) (Figure 7).

Conclusion
Guilty f(G P (t) BP ,t), corresponds to long normal curves according to their shape, so for that reason a long normal distribution will be taken for the selection of the statistical reliability distribution. According to this distribution, the reliability of each component of the analyzed assembly will be corrected. The optimal safety model includes the values of the operation of the components with the allowed risk, and it is clearly seen that the belt of absolutely safe operation of the analyzed circuit is located between the values of the displayed dependence curves M ξ (t) BP = f(t). And also, analyses have been carried out to ensure the flawless operation of the OE machine and the consistency of product quality.