IT201900009465A1 - METHOD OF OPTIMIZATION AND ADJUSTMENT OF AN OPERATING PARAMETER OF AN INDUSTRIAL MACHINE AND RELATED SYSTEM - Google Patents

Description

DESCRIPTION

The present invention relates to a method for regulating an operating parameter of an industrial machine. The present invention also relates to a system for regulating an operating parameter of an industrial machine.

In particular, the present invention relates to a method and a system for regulating an operating parameter of a textile machine, for example a battery textile machine (a pick-up, a mixer, an opener, a mixing loader, a weighing machine or a scrum carpet), or carding machines, or combing machines (for example a drawing frame, a stretcher or a combing machine), or spinning machines (for example a spindle bed or a spinning machine) or machines / systems for conveying the coils or dirty tubes cleaning.

As is known, in order for an industrial machine to be economically profitable, it must work continuously, possibly without interruptions due to breakdowns or stops in processing and above all to a processing regime that allows maximum production.

However, the research and optimization of the operating parameters of the machine that allow to obtain a high productivity is a difficult task for the technician of the sector, as it depends on numerous variables and conditions surrounding the industrial machine, for example the temperature. and the humidity of the place where the machine operates, the rotation speeds of the motors, the wear of the machine components over time, repairs and the like.

The need is therefore extremely felt to identify the best configuration of the operating parameters of the industrial machine that allows to obtain the best performance of the industrial machine at a given time and place of work of the machine.

Often, the drive to maximize the level of productivity translates into the need to increase processing speeds and / or to bring to the limits some operating parameters of the machines that determine the quality of the product or the increase in consumption. On the other hand, this increase can increase the risk of interruptions due to breakages or stops in processing.

It is therefore necessary to be able to identify the best compromise between minimizing downtime, maximizing productivity and reducing costs.

It is clear that a simple operation of manual adjustment of the operating parameters involved by an expert operator is rather complex and hardly effective. In fact, only configuration values obtained on the basis of a high number of operating hours and depending on the operating conditions of the machine which vary over time can be considered reliable.

The purpose of the present invention is to provide a method and a system for regulating an operating parameter of an industrial machine that are capable of providing adequate and effective values for the operating parameter of the industrial machine so as to optimize its level of efficiency and productivity.

This object is achieved by a method, a system and a computer program made according to the attached independent claims. The dependent claims describe preferred embodiments.

The characteristics and advantages of the method and system implemented according to the present invention will be evident from the description given below, given by way of non-limiting example, in accordance with the attached figure 1 which shows a block diagram of the adjustment method of a operating parameter of an industrial machine, according to an embodiment of the present invention.

For the sake of simplicity, in the continuation of the present description reference will be made in detail to a specific industrial machine in the textile sector, for example a spindle bench. However, this specific reference to the spindle bench must not necessarily be understood as limited to this type of textile machine, but it is clear that the present invention refers in general to any industrial machine.

For example, the industrial machine can be a textile machine, such as a spindle bench or a spinning machine or a winder or a transport system between benches and spinning machines.

The industrial machine is suitable for receiving an adjustment value for an operating parameter p of the machine, so as to determine the variation of its operating state. For example, this operating parameter p is a desired speed of one or more parts of the machine (e.g. electric motors), or it is a wick tension, or a spindle rotation speed, or a rotation speed of the blades, or a drawing parameter, or a diameter of the reel, or a speed and position of the carriage; or in the case of a spinning machine it is, for example, a spindle speed, or a carriage speed and position, or a tension, drawing and twisting of the yarn and the like. In the light of what has been described up to now, the method of regulating an operating parameter p of an industrial machine, for example a textile machine, in order to change its operating state, comprises a series of steps.

In a first step, an industrial machine is provided comprising a machine sensor suitable for detecting a value of the operating parameter p of the industrial machine, for example a value relating to the speed of rotation of a member of the machine.

Subsequently, the method involves:

b1) detect and store a signal or consumption data relating to the energy consumption of the industrial machine, for example the electrical energy absorbed by the machine, according to the operating parameter p of the industrial machine, for a predefined time interval;

b2) detect and store a signal or an efficiency data relating to the production efficiency of the industrial machine, as a function of the operating parameter p of the industrial machine in said predefined time interval;

b3) detecting and storing a signal or a production datum relating to a production quantity of the industrial machine, as a function of the operating parameter p of the industrial machine in said predefined time interval.

The consumption signal or data, the efficiency signal or data and the production signal or data are detected at different time instants of a certain predefined time interval. The default time interval is, for example, an interval lasting one or more weeks or a day or a few hours, or any length of time depending on the type of operating parameter p.

Preferably, the consumption data is detected by means of a detection device that detects the power absorbed by the industrial machine or directly the energy absorbed, for example the total energy absorbed by the machine's motors.

Preferably, the efficiency data is calculated as a function of the machine downtime with respect to the total time of an operating cycle of the industrial machine. For example, the efficiency data is calculated as the ratio between the effective working period of the machine (i.e. the working period of the machine excluding the machine downtime), and the total time of an operating cycle of the industrial machine.

The industrial machine operating cycle means a time period between a loading operation of raw material or material from another production machine on the industrial machine and an operation of unloading a finished and processed product from the industrial machine.

For example, in the case of a spindle bench, the operating cycle is the period between the loading of empty tubes on the machine and the unloading of spindles full of yarn.

Preferably, the production datum is a value in number of pieces produced, or it is a value in weight or in length of material produced by the industrial machine.

It is clear that, preferably, the industrial machine comprises a consumption sensor, suitable for detecting a signal or data of the energy consumption of the machine, a machine efficiency sensor, for example suitable for detecting the number and time of machine downtime with respect to time of a work cycle, a production sensor, suitable for detecting the quantity of material produced by the industrial machine, for example a scale, or a piece counter or a length sensor.

The method according to the present invention also provides for the steps of:

c1) calculate a model function of energy consumption CE (p) of the industrial machine, by processing the signal or consumption data detected in phase b1), according to the operating parameter p of the industrial machine;

c2) calculate an efficiency model function E (p), by processing the signal or efficiency data detected in phase b2), as a function of the operating parameter p of the industrial machine; c3) calculate a model function of production quantity Q (p), by processing the signal or production data detected in step b3) as a function of the operating parameter p of the industrial machine.

Preferably, the processing of the signal or consumption data detected in step b1), the processing of the signal or efficiency data detected in step b2) and the processing of the signal or production data detected in step b3) is a method of regression, such as a linear or polynomial regression.

Therefore, following steps c1) to c3) we obtain a function CE (p), E (p), Q (p) which identifies a specific model for the specific industrial machine according to the operating parameter p.

Furthermore, the method according to the present invention comprises the steps of:

d) calculate an optimal value of the operating parameter p of the industrial machine, by means of a simultaneous optimization processing of the energy consumption model function CE (p) of the industrial machine, of the efficiency model function E (p) and of the model function of production quantity Q (p);

e) set the optimum value of the operating parameter p of the industrial machine on the industrial machine.

In particular, phase d) comprises the phase of simultaneously optimizing the energy consumption model function of the industrial machine CE (p), the efficiency model function E (p) and the production quantity model function Q (p) by means of a multi-objective optimization algorithm. This allows you to identify an optimal value of the operating parameter p of the industrial machine, simultaneously considering the optimization of the three distinct model functions of energy consumption CE (p), efficiency E (p) and production quantity Q (p). Preferably, the multi-objective optimization algorithm is the Benson algorithm with Karush – Kuhn – Tucker conditions. This allows an effective determination of the optimal value of the operating parameter p by considering together the three model functions of energy consumption CE (p), efficiency E (p) and production quantity Q (p).

Preferably, after carrying out step e), the method comprises the step of repeating steps b1) to d), i.e. repeating steps b1) to d) depending on the last optimum value of the operating parameter p of the industrial machine set to. Subsequently, the method envisages possibly carrying out step e) again if a different optimum value of the operating parameter p has been calculated.

This makes it possible to maintain on the machine an optimum value of the operating parameter p which is constantly updated with the passage of time and the surrounding conditions in which the industrial machine works.

For example, with particular reference to a spindle bench, the method involves:

b11) detect and store the electrical energy absorbed by the spindle bench, as a function of the rotation speed v of the fins, for a predefined time interval, for example for two weeks;

b22) detecting and memorizing the machine downtime with respect to a spindle loading and unloading cycle, as a function of the rotation speed v of the blades, in the same predefined time interval as b11), for example two weeks;

b33) detecting and storing the weight of yarn produced or the number of spindles produced, according to the rotation speed v of the fins set, in the same predefined time interval as b11), for example two weeks.

The model function of energy consumption CE (v), the model function of efficiency E (v), the model function of production quantity Q (v) are then calculated on the basis of the data stored in phases b11), b22) and b33). , as for the method steps c1) to c3). Subsequently, the optimum value of the rotation speed v of the fins is then calculated and this optimum value is set on the spindle bed, as previously indicated in the steps of methods d) and e).

It is therefore clear that the present invention also relates to a system for regulating an operating parameter p of an industrial machine, preferably a textile machine, for the optimization of the industrial machine working process. The system includes an industrial machine and a control unit for setting a value of the operating parameter p on the industrial machine.

Furthermore, the system comprises at least one machine sensor for detecting signals or data representative of the operating parameter of the industrial machine and main storage means configured for storing the signals or data detected by the machine sensor.

Further, a processing unit, for example a processor, is operationally connected with the main storage means and is programmed to perform steps b1) to d) of the previously described method. In addition, the processing unit is configured to send the optimum value of the operating parameter p to the control unit.

Furthermore, the present invention also relates to a computer program comprising code instructions suitable for implementing steps b1) to d) of the method, when said program is executed on the computer.

Preferably, the transmission of data and signals detected for example by the machine sensor and / or by the consumption sensor and / or by the machine efficiency sensor, and or by the production sensor are sent to the transmission / reception means and from these to the means storage.

The means of transmission / reception are for example constituted by a local ethernet network (for example internal to a factory) or wired or wireless internet.

Innovatively, the method and system for regulating an operating parameter of a textile machine according to the present invention allows to obtain an effective and adequate optimization of the industrial machine working process, guaranteeing an optimal compromise between energy consumption, work efficiency. of the machine (intended as effective working time with respect to the cycle time of the machine) and productivity.

In particular, surprisingly, the choice of simultaneously optimizing energy consumption, work efficiency and productivity makes it possible to quickly and effectively obtain an adequate value of the specific operating parameter for the individual machine and is able to guarantee, in 'immediate future, the best working point of the machine.

Advantageously, moreover, thanks to the possibility of continuously repeating the optimization method, it is possible to keep the best working point of the specific machine updated even if the surrounding conditions change over time. In other words, the method provides for a constant self-learning of the best working point for the machine. It is clear that a person skilled in the art, in order to meet contingent needs, could make changes to the method of the processing system described above, all of which are contained within the scope of protection defined by the following claims.

Claims (13)

CLAIMS 1. Method for regulating an operating parameter (p) of an industrial machine, for example a textile machine, to change its operating status, said method comprising the steps of: a) providing an industrial machine comprising a machine sensor suitable for detecting a value of the operating parameter (p) of the industrial machine, for example a value relating to the rotation speed of a member of the machine; b1) detect and store a signal or consumption data relating to the energy consumption of the industrial machine, for example the electrical energy absorbed by the machine, according to the operating parameter (p) of the industrial machine, for a predefined time interval; b2) detect and store a signal or an efficiency data relating to the production efficiency of the industrial machine, according to the operating parameter (p) of the industrial machine in said predefined time interval; b3) detecting and storing a signal or a production datum relating to a production quantity of the industrial machine, as a function of the operating parameter (p) of the industrial machine in said predefined time interval; c1) calculate an energy consumption model function (CE (p)) of the industrial machine, by processing the signal or consumption data detected in phase b1), according to the operating parameter (p) of the industrial machine; c2) calculate an efficiency model function (E (p)), by processing the signal or efficiency data detected in phase b2), depending on the operating parameter (p) of the industrial machine; c3) calculate a model function of production quantity (Q (p)), by processing the signal or production data detected in step b3) according to the operating parameter (p) of the industrial machine; d) calculate an optimal value of the operating parameter (p) of the industrial machine, by means of a simultaneous optimization processing of the energy consumption model function (CE (p)) of the industrial machine, of the efficiency model function (E (p) ) and the production quantity model function (Q (p)); e) set the optimum value of the operating parameter (p) of the industrial machine on the industrial machine. Method according to claim 1, wherein step d) comprises the step of simultaneously optimizing the energy consumption model function CE (p) of the industrial machine, the efficiency model function (E (p) and the quantity model function production (Q (p)) by means of a multi-objective optimization algorithm. 3. Method according to claim 2, in which the multi-objective optimization algorithm is the Benson algorithm with Karush – Kuhn – Tucker conditions. Method according to any one of the preceding claims, in which the efficiency data is calculated as a function of the machine downtime with respect to the total time of an operating cycle of the industrial machine. 5. Method according to claim 4, in which the efficiency data is calculated as the ratio between the effective working period of the machine, that is the working period of the machine excluding the period of machine downtime, and the total time of an operating cycle of the industrial machine. 6. Method according to claim 5, wherein the industrial machine is a spindle bench and the operating cycle is the period that elapses between the loading of empty tubes on the machine and the discharge of full spindles. Method according to any one of the preceding claims, in which the industrial machine is a spindle bed and in which the operating parameter (p) of the industrial machine is the rotation speed (v) of the vanes of the spindle. Method according to any one of the preceding claims, wherein the production data is a value in number of pieces produced, or in weight or length of material produced by the industrial machine. Method according to claim 8, in which the industrial machine is a spindle bed and in which the production datum is the quantity of yarn produced. Method according to any one of the preceding claims, wherein the processing of the signal or consumption data detected in step b1), the processing of the signal or efficiency data detected in the step b2) and the processing of the signal or data of production found in step b3) is a regression method, such as a linear or polynomial regression. 11. Method according to any one of the preceding claims, wherein after carrying out step e), the method comprises the step of repeating steps b1) to d), i.e. repeating steps b1) to d) depending on the last optimum value of the operating parameter of the industrial machine set and possibly carry out step e) again if a different optimum value of the operating parameter has been calculated. 12. System for adjusting an operating parameter of a textile machine for the optimization of the textile machine manufacturing process, including: - a textile machine; - a control unit for setting a value of an operating parameter of the textile machine on the textile machine; - at least one machine sensor for detecting signals or data representative of the operating parameter of the textile machine; - main storage means configured for storing the signals or data detected by the machine sensor; - a processing unit, for example a processor, operatively connected with the main storage means; said processing unit being programmed to perform steps b1) to d) of the method according to any of claims 1 to 10 and being configured to send the optimum value of the operating parameter (p) to the control unit. Computer program comprising code instructions suitable for implementing steps b1) to d) of the method according to any one of claims 1 to 10, when said program is executed on the computer.