TWI764003B - Control device, control system, control method and program - Google Patents
Control device, control system, control method and programInfo
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- TWI764003B TWI764003B TW108119780A TW108119780A TWI764003B TW I764003 B TWI764003 B TW I764003B TW 108119780 A TW108119780 A TW 108119780A TW 108119780 A TW108119780 A TW 108119780A TW I764003 B TWI764003 B TW I764003B
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- property state
- motor
- time series
- pulverizer
- control device
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C15/00—Disintegrating by milling members in the form of rollers or balls co-operating with rings or discs
- B02C15/04—Mills with pressed pendularly-mounted rollers, e.g. spring pressed
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C25/00—Control arrangements specially adapted for crushing or disintegrating
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C4/00—Crushing or disintegrating by roller mills
- B02C4/02—Crushing or disintegrating by roller mills with two or more rollers
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02P—CONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORS OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS
- H02P23/00—Arrangements or methods for the control of AC motors characterised by a control method other than vector control
- H02P23/14—Estimation or adaptation of motor parameters, e.g. rotor time constant, flux, speed, current or voltage
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02P—CONTROL OR REGULATION OF ELECTRIC MOTORS, ELECTRIC GENERATORS OR DYNAMO-ELECTRIC CONVERTERS; CONTROLLING TRANSFORMERS, REACTORS OR CHOKE COILS
- H02P29/00—Arrangements for regulating or controlling electric motors, appropriate for both AC and DC motors
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- Engineering & Computer Science (AREA)
- Food Science & Technology (AREA)
- Power Engineering (AREA)
- Disintegrating Or Milling (AREA)
- Crushing And Grinding (AREA)
- Control Of Electric Motors In General (AREA)
Abstract
Description
本發明,係有關於將粉碎對象物粉碎之粉碎機的控制裝置、控制系統、控制方法及程式。 本申請案,係根據在2018年6月7日於日本所申請之特願2018-109827號而主張優先權,並於此援用其內容。The present invention relates to a control device, a control system, a control method, and a program of a pulverizer for pulverizing an object to be pulverized. This application claims priority based on Japanese Patent Application No. 2018-109827 filed in Japan on June 7, 2018, and the content is incorporated herein by reference.
在煤炭焚燒火力發電廠處,係設置有將煤炭粉碎並產生微粉炭的磨機(粉碎機)。磨機,係具備有藉由旋轉來將煤炭之微粒和粗粒作分離的旋轉分離機。從磨機所供給的煤炭之微粉度,係藉由旋轉分離機之旋轉數而被作控制。亦即是,若是旋轉分離機之旋轉數越高,則所供給的煤炭之微粉度係變得越高。另一方面,依存於被投入的煤炭之量以及煤炭之炭種,用以得到相同的微粉度之旋轉數係會改變。 在專利文獻1中,係揭示有因應於煤炭之投入量以及炭種來對於旋轉分離機之旋轉數作控制之技術。 [先前技術文獻] [專利文獻]In a coal-fired thermal power plant, a mill (pulverizer) that pulverizes coal and generates fine coal is installed. The mill is equipped with a rotary separator that separates fine and coarse coal particles by rotation. The fineness of coal supplied from the mill is controlled by the number of revolutions of the rotary separator. That is, as the rotation number of the rotary separator is higher, the fineness of the supplied coal becomes higher. On the other hand, the number of revolutions for obtaining the same degree of fineness varies depending on the amount of coal to be put in and the type of coal. Patent Document 1 discloses a technique of controlling the number of revolutions of a rotary separator in accordance with the input amount of coal and the type of coal. [Prior Art Literature] [Patent Literature]
[專利文獻1]日本特開平9-239287號公報[Patent Document 1] Japanese Patent Application Laid-Open No. 9-239287
[發明所欲解決之課題][The problem to be solved by the invention]
另外,在專利文獻1所記載之技術中,係藉由讓作業員輸入所投入的煤炭之炭種,來使控制裝置特定出煤炭之炭種。然而,就算是預先特定出了煤炭之炭種,若是不實際試著焚燒,則亦難以對於其係身為何種炭一事以良好的精確度來作掌握。亦即是,就算是身為屬於相同之炭種的煤炭,亦由於在各別的性質(硬度等)中係存在有某種程度的參差,因此,就算是針對相同之炭種的煤炭而進行了相同的控制,也會有在其之微粉度中產生參差的可能性。 本發明之目的,係在於提供一種因應於煤炭之性質狀態來自動且適當地對於粉碎機作控制之控制裝置、控制系統、控制方法及程式。 [用以解決課題之手段]In addition, in the technique described in Patent Document 1, the control device is made to specify the charcoal type of the coal by having the operator input the charcoal type of the coal to be input. However, even if the charcoal type of coal is specified in advance, it is difficult to grasp with good accuracy what kind of charcoal it is without actually trying to incinerate it. That is, even if it is coal belonging to the same kind of charcoal, there is a certain degree of variation in its properties (hardness, etc.), so even if it is coal of the same charcoal kind With the same control, there is also the possibility of unevenness in its micronization. The object of the present invention is to provide a control device, control system, control method and program for automatically and appropriately controlling the pulverizer according to the properties and state of coal. [means to solve the problem]
若依據本發明之第1態樣,則控制裝置,係為將粉碎對象物粉碎的粉碎機之控制裝置,其特徵為,係具備有:計值取得部,係將關連於被輸入至前述粉碎機之電動機處的電之物理量的計測值,以至少前述電動機之電源電流之頻率以上之頻率來取得之;和控制部,係基於所取得的前述計測值之時間序列,來對於前述粉碎機輸出控制訊號。According to the first aspect of the present invention, the control device is a control device of a pulverizer for pulverizing an object to be pulverized, and is characterized in that it is provided with a value acquisition unit that is related to the input to the pulverization. The measured value of the physical quantity of electricity at the electric motor of the machine is obtained at a frequency at least equal to or higher than the frequency of the power supply current of the electric motor; and the control unit outputs the output to the pulverizer based on the time series of the obtained measured value. control signal.
若依據本發明之第2態樣,則第1態樣之控制裝置,係亦可構成為,係更進而具備有:性質狀態記憶部,係依據前述粉碎對象物之各性質狀態類別,而分別記憶關連於被輸入至前述電動機處的電之物理量之時間序列;和性質狀態特定部,係基於前述性質狀態記憶部所記憶之時間序列、和所取得的前述計測值之時間序列,來特定出前述粉碎對象物之性質狀態,前述控制部,係基於所特定出之前述性質狀態,來對於前述粉碎機輸出控制訊號。According to the second aspect of the present invention, the control device of the first aspect may be further provided with: a property state memory unit for separately storing the properties according to each property state type of the object to be pulverized. Memorizing the time series related to the physical quantity of electricity input to the motor; and the property state specifying unit, based on the time sequence memorized by the property state memory unit and the acquired time sequence of the measurement value, to specify With regard to the property state of the object to be pulverized, the control unit outputs a control signal to the pulverizer based on the specified property state.
若依據本發明之第3態樣,則第1態樣之控制裝置,係亦可構成為,係更進而具備有:頻率解析部,係藉由前述計測值之時間序列之頻率解析,來特定出頻率頻譜,前述控制部,係基於前述計測值之時間序列之頻率頻譜,來對於前述粉碎機輸出控制訊號。According to the third aspect of the present invention, the control device of the first aspect may be further provided with a frequency analysis unit for identifying the frequency analysis of the time series of the measurement values. For outputting the frequency spectrum, the control unit outputs a control signal to the pulverizer based on the frequency spectrum of the time series of the measured values.
若依據本發明之第4態樣,則第3態樣之控制裝置,係亦可構成為,係更進而具備有:性質狀態記憶部,係針對前述粉碎對象物之各性質狀態類別,而分別記憶關連於被輸入至前述電動機處的電之物理量之頻率頻譜;和性質狀態特定部,係基於前述性質狀態記憶部所記憶之頻率頻譜、和藉由頻率解析所得到的頻率頻譜,來特定出前述粉碎對象物之性質狀態,前述控制部,係基於所特定出之前述性質狀態,來對於前述粉碎機輸出控制訊號。According to the fourth aspect of the present invention, the control device of the third aspect may be further provided with: a property state memory unit for storing the properties of the object for crushing according to each property state type. Memory is related to the frequency spectrum of the physical quantity of electricity input to the motor; and the property state specifying unit is based on the frequency spectrum memorized by the property state memory unit and the frequency spectrum obtained by frequency analysis. With regard to the property state of the object to be pulverized, the control unit outputs a control signal to the pulverizer based on the specified property state.
若依據本發明之第5態樣,則第1~第4態樣之任一者之態樣之控制裝置,係亦可構成為,係更進而具備有:性質狀態變化判定部,係基於前述計測值之時間序列之歷時性之變化,來判定前述粉碎對象物之性質狀態之變化的有無。According to the fifth aspect of the present invention, the control device of any one of the first to fourth aspects may be configured to further include a property state change determination unit based on the aforementioned The diachronic change in the time series of the measured values is used to determine the presence or absence of a change in the properties and state of the object to be pulverized.
若依據本發明之第6態樣,則第5態樣之控制裝置,係亦可構成為,係更進而具備有:性質狀態記憶部,係針對前述粉碎對象物之各性質狀態類別,而分別記憶關連於被輸入至前述電動機處的電之物理量之時間序列以及關連於被輸入至前述電動機處的電之物理量之頻率頻譜的至少其中一者;和性質狀態特定部,係基於前述性質狀態記憶部所記憶之頻率頻譜與藉由頻率解析所得到的頻率頻譜之間之比較、或者是基於前述性質狀態記憶部所記憶之時間序列與所取得的前述計測值之時間序列之間之比較,此些之其中一者,來特定出前述粉碎對象物之性質狀態;和性質狀態變化判定部,係基於藉由頻率解析所得到的前述頻率頻譜以及所取得的前述計測值之時間序列之中之並未被使用於前述性質狀態之特定中者的歷時性之變化,來判定前述粉碎對象物之性質狀態之變化的有無。According to the sixth aspect of the present invention, the control device of the fifth aspect may be further provided with: a property state memory part for each property state type of the object to be crushed, respectively memorizing at least one of a time series related to the physical quantity of electricity input to the motor and a frequency spectrum related to the physical quantity of electricity input to the motor; and a property state specifying section based on the property state memory The comparison between the frequency spectrum memorized by the unit and the frequency spectrum obtained by frequency analysis, or the comparison between the time series memorized by the property state memory unit and the time series of the acquired measurement values, this one of these to identify the property state of the object to be crushed; and a property state change determination unit based on the combination of the frequency spectrum obtained by frequency analysis and the time series of the acquired measurement values The diachronic change in the specific state of the property is not used to determine the presence or absence of a change in the property state of the object to be pulverized.
若依據本發明之第7態樣,則第4或第6態樣之控制裝置,係亦可構成為,前述性質狀態特定部,係基於最近的前述計測值之時間序列與過去的前述計測值之時間序列之間之偏差的累積,來特定出前述性質狀態。According to the seventh aspect of the present invention, the control device of the fourth or sixth aspect may be configured such that the property state specifying unit is based on the time series of the most recent measured values and the past measured values The accumulation of deviations between the time series to specify the aforementioned properties.
若依據本發明之第8態樣,則第5或第6態樣之控制裝置,係亦可構成為,係具備有:性質狀態記憶部,係針對前述粉碎對象物之各性質狀態類別,而分別記憶關連於被輸入至前述電動機處的電之物理量之頻率頻譜,前述性質狀態變化判定部,係基於藉由頻率解析所得到的頻率頻譜與前述性質狀態記憶部所記憶之各性質狀態類別之頻率頻譜的各者之間之形態匹配,來判定前述粉碎對象物之性質狀態之變化的有無。According to the eighth aspect of the present invention, the control device of the fifth or sixth aspect may also be configured to include a property state memory unit for each property state type of the object to be pulverized, and The frequency spectrum related to the physical quantity of electricity input to the motor is respectively memorized, and the property state change determination unit is based on the frequency spectrum obtained by the frequency analysis and each property state type memorized by the property state memory unit. The shape matching between the frequency spectrums is used to determine the presence or absence of changes in the properties and states of the object to be crushed.
若依據本發明之第9態樣,則第1~第8態樣之任一者之態樣之控制裝置,係亦可構成為,係更進而具備有:修正參數記憶部,係針對前述粉碎對象物之各性質狀態類別,而分別記憶關連於控制訊號之修正的參數;和修正量特定部,係基於被特定出的前述性質狀態和前述修正參數記憶部所記憶之資訊,來特定出控制訊號之修正量,前述控制部,係將基於前述所特定出之修正量而作了修正的控制訊號,對於前述粉碎機作輸出。According to the ninth aspect of the present invention, the control device of any one of the first to eighth aspects may be configured to further include a correction parameter memory unit for the above-mentioned pulverization Each property state category of the object stores parameters related to the correction of the control signal respectively; and the correction amount specifying unit specifies the control based on the specified property state and the information stored in the correction parameter memory unit. As for the correction amount of the signal, the control unit outputs a control signal corrected based on the specified correction amount to the pulverizer.
若依據本發明之第10態樣,則第2或第4態樣之控制裝置,係亦可構成為,前述性質狀態記憶部,係記憶學習模型,該學習模型,係以將有關於關連於被輸入至前述電動機處的電之物理量之時間序列的資訊、和前述粉碎對象物之性質狀態,此兩者之組合,作為教師資料,並將關連於前述時間序列之資訊作為輸入,而將前述粉碎對象物之性質狀態作為輸出的方式,來作了學習,前述性質狀態特定部,係藉由前述學習模型而特定出前述粉碎對象物之性質狀態。According to the tenth aspect of the present invention, the control device of the second or fourth aspect may also be configured such that the property state memory unit is a memorizing learning model, and the learning model is used to associate the related The information of the time series of the physical quantity of electricity input to the motor and the property state of the object to be pulverized, the combination of the two is used as teacher data, and the information related to the above time series is used as input, and the above The property state of the crushing object is learned as an output, and the property state specifying unit specifies the property state of the crushing object by using the learning model.
若依據本發明之第11態樣,則第6態樣之控制裝置,係亦可構成為,前述性質狀態記憶部,係記憶學習模型,該學習模型,係以將有關於關連於被輸入至前述電動機處的電之物理量之時間序列的資訊、和前述粉碎對象物之性質狀態的變化之有無,此兩者之組合,作為教師資料,並將關連於前述時間序列之資訊作為輸入,而將前述粉碎對象物之性質狀態之變化之有無作為輸出的方式,來作了學習,前述性質狀態變化判定部,係藉由前述學習模型而判定前述粉碎對象物之性質狀態之變化之有無。According to the eleventh aspect of the present invention, the control device of the sixth aspect may also be configured such that the aforementioned property state memory unit memorizes a learning model, and the learning model is configured to store the relevant data related to the input to the The information on the time series of the physical quantities of electricity at the motor, and the presence or absence of changes in the properties and states of the object to be pulverized, the combination of the two is used as teacher data, and the information related to the above time series is used as input, and the Whether or not a change in the property state of the object to be pulverized is learned as an output, and the property state change determination unit determines the presence or absence of a change in the property state of the object to be pulverized by using the learning model.
若依據本發明之第12態樣,則第1~第11態樣之任一者之態樣之控制裝置,係亦可構成為,前述計測值取得部,係取得關連於被輸入至前述粉碎機所具備的複數之電動機中之第1電動機處的電之物理量的計測值,前述控制部,係對於前述複數之電動機中之被設置在較前述第1電動機而更靠前述粉碎對象物之流動方向之下游側處的第2電動機而輸出前述控制訊號。According to the twelfth aspect of the present invention, the control device of any one of the first to eleventh aspects may be configured such that the measurement value acquisition unit is related to the acquisition input to the pulverization. The measured value of the physical quantity of electricity at the first motor of the plurality of motors provided in the machine, and the control unit is for the flow of the object to be pulverized in the plurality of motors installed closer to the first motor than the first motor. The second motor on the downstream side in the direction outputs the aforementioned control signal.
若依據本發明之第13態樣,則第12態樣之控制裝置,係亦可構成為,前述第1電動機,係身為使前述粉碎機之轉台旋轉之電動機,前述第2電動機,係身為使前述粉碎機之旋轉分離機旋轉之電動機。According to the thirteenth aspect of the present invention, the control device of the twelfth aspect may be configured such that the first motor is a motor for rotating the turntable of the pulverizer, and the second motor is a motor that rotates the turntable of the pulverizer. A motor that rotates the rotary separator of the aforementioned pulverizer.
若依據本發明之第14態樣,則第1~第13態樣之任一者之態樣之控制裝置,係亦可構成為,前述粉碎機,係為微粉碎機,前述電動機,係為感應電動機,前述粉碎對象物,係為煤炭以及生物質(biomass)之至少其中一者。According to the fourteenth aspect of the present invention, the control device of any one of the first to thirteenth aspects may be configured such that the pulverizer is a fine pulverizer, and the electric motor is a In the induction motor, the object to be pulverized is at least one of coal and biomass.
若依據本發明之第15態樣,則控制系統,係具備有:控制裝置,係為將粉碎對象物粉碎的粉碎機之控制裝置,並具備有:計測值取得部,係將對於前述粉碎機之電動機的輸入電流之計測值,以至少相當於前述電動機之電源電流之頻率的取樣週期來取得之、和控制部,係對於前述粉碎機輸出控制訊號;和演算裝置,係被與前述控制裝置以遠端來作設置,並基於前述計測值取得部所取得的前述計測值之時間序列,而進行關連於前述控制訊號之計算。According to the fifteenth aspect of the present invention, the control system includes: a control device that is a control device for a pulverizer that pulverizes an object to be pulverized; The measured value of the input current of the electric motor is obtained at a sampling period at least equal to the frequency of the power supply current of the electric motor, and the control unit outputs a control signal to the pulverizer; and the calculation device is connected with the control device. The remote end is set up, and the calculation related to the control signal is performed based on the time series of the measurement value acquired by the measurement value acquisition unit.
若依據本發明之第16態樣,則第15態樣之控制系統,係亦可構成為,前述控制裝置,係身為控制複數之粉碎機的複數之控制裝置之其中1者,前述演算裝置,係基於前述複數之控制裝置所取得的前述計測值之時間序列之各者,而進行關連於在各控制裝置處的前述控制訊號之計算。According to the sixteenth aspect of the present invention, the control system of the fifteenth aspect may be configured such that the control device is one of a plurality of control devices that control a plurality of pulverizers, and the calculation device , based on each of the time series of the measurement values obtained by the plurality of control devices, the calculation related to the control signal at each control device is performed.
若依據本發明之第17態樣,則控制方法,係為將粉碎對象物粉碎的粉碎機之控制方法,其特徵為,係具備有:將關連於被輸入至前述粉碎機之電動機處的電之物理量的計測值,以至少相當於前述電動機之電源電流之頻率的取樣週期來取得之步驟;和基於所取得的前述計測值之時間序列,來對於前述粉碎機輸出控制訊號之步驟。According to the seventeenth aspect of the present invention, the control method is a control method of a pulverizer for pulverizing an object to be pulverized, and is characterized in that the control method is provided with a method of controlling an electric power connected to a motor input to the pulverizer. The step of obtaining the measured value of the physical quantity at a sampling period at least equal to the frequency of the power supply current of the motor; and the step of outputting a control signal to the pulverizer based on the time series of the obtained measured value.
若依據本發明之第18態樣,則程式,係用以使電腦實行下述步驟:將關連於被輸入至粉碎機之電動機處的電之物理量的計測值,以至少相當於前述電動機之電源電流之頻率的取樣週期來取得之步驟;和基於所取得的前述計測值之時間序列,來對於前述粉碎機輸出控制訊號之步驟。 [發明之效果]According to the eighteenth aspect of the present invention, the program is used to cause the computer to execute the following steps: The measured value of the physical quantity related to the electricity input to the electric motor of the pulverizer is at least equivalent to the power supply of the electric motor. The step of obtaining the sampling cycle of the frequency of the current; and the step of outputting a control signal to the pulverizer based on the time series of the obtained measurement values. [Effect of invention]
若依據上述態樣中之至少1個態樣,則控制裝置,係能夠因應於煤炭之性質狀態來自動且適當地對於粉碎機作控制。According to at least one of the above-mentioned aspects, the control device can automatically and appropriately control the pulverizer in accordance with the property state of the coal.
圖1,係為對於第1實施形態之輥磨機的構成作展示之圖。 FIG. 1 is a diagram showing the structure of the roll mill according to the first embodiment.
輥磨機100,係在圓筒形之殼體101之上部處,具備有接受從未圖示之煤倉而來的煤炭之供給之供炭口102、和使被粉碎後的煤炭被排出之出炭口103。輥磨機100,係於殼體101之下部處而具備有載置從供炭口102所供給的煤炭之轉台104。轉台104,係藉由轉台馬達而旋轉。在轉台馬達105處,係被設置有對於輸入電流作計測之電流計111。在轉台104之上,係被設置有對轉台104作推壓之輥106。輥106,係藉由輥馬達107而旋轉。載置於轉台104上之煤
炭,係藉由被咬入至旋轉之轉台104與輥106之間,而被粉碎。
The
輥磨機100,係於轉台104之下方處,具備有使一次空氣被作吹入之空氣吹入口108。從空氣吹入口108而被吹入之一次空氣,係穿過轉台104與殼體101之間之間隙而在殼體101內被上吹。被作了粉碎的煤炭,係藉由在殼體101內而上吹之一次空氣而上升。
The
輥磨機100,係在轉台104與出炭口103之間,具備有將藉由旋轉而被粉碎了的煤炭作分級之旋轉分離機109。旋轉分離機109,係藉由分離機馬達110而旋轉。藉由一次空氣而被作了上吹的煤炭,係被導引至旋轉分離機109處,並藉由旋轉分離機109之旋轉,而被分級為較粗之粒子(粗粒)和較細之粒子(微粒)。粗粒,係落下至轉台104上,並藉由輥106而被再粉碎。另一方面,微粒,係通過旋轉分離機109,並從出炭口103而對於未圖示之燃燒裝置出炭。輥磨機100,係為微粉碎機之其中一例。
The
分離機馬達110之旋轉,係藉由控制裝置200而被作控制。控制裝置200,係基於電流計111所計測到的轉台馬達105之輸入電流,來對於分離機馬達110輸出控制訊號。轉台馬達105之輸入電流,係身為關連於被輸入至電動機處的電之物理量之其中一例。由電流計111所致之輸入電流的取樣頻率,較理想,係至少為輸入電流之頻率以上。又,取樣頻率,更理想,係為輸入電流之頻率之2倍以上。此係因為,基於實驗之結果,係得知了:在輥磨機100之輸入電流中係顯現有由煤炭之粉碎所致之震動的影響,此影響係以輸入電流之電源頻率為中心而顯現,並且起因於此影響,輸入電流之波形係會依存於煤炭之炭種而有所相異之故。另外,在專利文獻1等之技術中,雖然輸入電流亦係被檢測出來,但是,其之取樣頻率係為1Hz程度,而並無法發現到煤炭之炭種的影響。分離機馬達110,例如係藉由感應電動機而被實現。The rotation of the
圖2,係為對於轉台馬達之輸入電流之頻率分析結果之例作展示之圖。在圖2中,實線以及虛線,係分別代表在將相異炭種之煤炭作了粉碎時的輸入電流之頻率頻譜作展示。如同圖2中所示一般,依存於被粉碎的煤炭之炭種,以電源電流之頻率作為中心,在頻率頻譜中係顯現有擴展。因此,藉由對於電源電流頻率以上之輸入電流之頻率頻譜和各炭種之標準性的頻率頻譜作比較,係能夠特定出粉碎中之煤炭之炭種。同樣的,藉由對於以電流電流頻率以上之取樣頻率所得到的輸入電流波形和各炭種之標準性的電流波形作比較,亦能夠特定出粉碎中之煤炭之炭種。另外,煤炭,係為粉碎對象物之其中一例,煤炭之炭種,係為粉碎對象物之性質狀態之其中一例。FIG. 2 is a diagram showing an example of the frequency analysis result of the input current of the turntable motor. In Fig. 2, the solid line and the dotted line respectively represent the frequency spectrum of the input current when the coals of different carbon species are pulverized. As shown in FIG. 2 , depending on the char type of the pulverized coal, the frequency spectrum of the power source current is the center, and the frequency spectrum spreads. Therefore, by comparing the frequency spectrum of the input current above the frequency of the power supply current with the standard frequency spectrum of each type of charcoal, the charcoal type of the coal being pulverized can be identified. Similarly, by comparing the input current waveform obtained with the sampling frequency above the current current frequency and the standard current waveform of each carbon species, the charcoal species of the coal being pulverized can also be identified. In addition, coal is one example of the object to be pulverized, and the carbon species of coal is one example of the property state of the object to be pulverized.
《控制裝置之構成》
圖3,係為對於第1實施形態之控制裝置的構成作展示之概略區塊圖。
控制裝置200,係具備有:計測值取得部201、計測值記憶部202、頻率解析部203、性質狀態記憶部204、性質狀態特定部205、性質狀態變化判定部206、修正值決定部207、轉矩指令取得部208、修正部209、控制部210。控制裝置200,係為控制系統之其中一例。"Construction of the Control Device"
FIG. 3 is a schematic block diagram showing the configuration of the control device according to the first embodiment.
The
計測值取得部201,係從電流計111而取得轉台馬達105之輸入電流之計測值。計測值取得部201,係將所取得的計測值作為時間序列而記錄在計測值記憶部202中。藉由此,計測值記憶部202,係記憶電流電流頻率以上之取樣頻率的計測值之時間序列。另外,計測值取得部201,當作為輸入電流而取得了三相交流電流之值的情況時,係可將各相之電流值記錄在計測值記憶部202中,亦可記錄電流值之平均值。The measurement
頻率解析部203,係將計測值記憶部202所記憶的計測值之時間序列中之最近之解析對象時間(例如1秒以上)的部分時間序列作頻率轉換,並得到頻率頻譜。The
性質狀態記憶部204,係與煤炭之炭種相互附加關連地,而記憶在將屬於該炭種之煤炭作粉碎時的轉台馬達105之輸入電流之頻率頻譜、以及用以特定出轉矩指令修正值之修正函數。修正函數,例如,係將從頻率頻譜起之偏差作為因變數並將轉矩指令修正值作為目標變數而對此些間之關係作展示之資訊(方程式以及參照表等)。The
性質狀態特定部205,係基於頻率解析部203所得到的頻率頻譜和性質狀態記憶部204所記憶的關連於各炭種之頻率頻譜之間之比較,來特定出被投入至輥磨機100中之煤炭之炭種。例如,性質狀態特定部205,係進行性質狀態記憶部204所記憶的關連於複數之炭種之各頻率頻譜與記憶部203所得到的頻率頻譜之間之形態匹配,並將類似度為最高之炭種,特定為被投入至輥磨機100中之煤炭之炭種。The property
性質狀態變化判定部206,係基於計測值記憶部202所記憶的計測值之時間序列,來判定被投入至輥磨機100中之煤炭之炭種是否有所變化。例如,性質狀態變化判定部206,係基於計測值記憶部202所記憶的計測值之時間序列中之關連於最近之解析對象時間之第1部分時間序列和關連於直到第1部分時間序列之起點為止的解析對象時間之第2部分時間序列之間之比較,來判定炭種之變化的有無。The property state
修正值決定部207,係基於由性質狀態變化判定部206所致之炭種之變化之判定結果,來決定是否要變更轉矩指令修正值。修正值決定部207,當藉由性質狀態變化判定部206而判定煤炭之炭種係有所變化的情況時,係決定將轉矩指令修正值,變更為被與性質狀態特定部205所特定出的炭種附加有關連地而性質狀態記憶部204所記憶之轉矩指令修正值。The correction
轉矩指令取得部208,係取得分離機馬達110之基礎轉矩指令。轉矩指令取得部208,例如,係可基於輥磨機100之供炭量來算出分離機馬達110之轉矩值,亦可將產生輥磨機100之轉矩指令之其他之裝置所輸出了的轉矩指令作為基礎轉矩指令來取得之。The torque
修正部209,係藉由在轉矩指令取得部208所取得的基礎轉矩指令所代表之轉矩值上,加算取得部207所特定出的轉矩指令修正值,來對於轉矩指令作修正。
控制部210,係將藉由修正部209所修正了的轉矩指令對於分離機馬達110作輸出。The
《控制裝置之動作》
圖4,係為對於第1實施形態之輥磨機之控制裝置的動作作展示之流程圖。
若是輥磨機100動作,則控制裝置200之計測值取得部201,係從電流計111而在關連於取樣週期之各時序的每一者處,取得轉台馬達105之輸入電流之計測值,並將此與時刻相互附加關連地來記錄在計測值記憶部202中。藉由此,在計測值記憶部202處,係被記憶有輸入電流之計測值之時間序列。"The Action of the Control Device"
Fig. 4 is a flow chart showing the operation of the control device of the roll mill according to the first embodiment.
When the
控制裝置200,係在每解析對象時間(例如1秒)處,進行以下所示之修正量之決定處理。
首先,頻率解析部203,係將計測值記憶部202所記憶的計測值之時間序列中之最近之解析對象時間的部分時間序列讀出(步驟S1)。頻率解析部203,係藉由將所讀出的部分時間序列作頻率轉換,來得到頻率頻譜(步驟S2)。The
接著,性質狀態特定部205,係進行性質狀態記憶部204之與複數之炭種相互附加關連地而記憶的各頻率頻譜與在步驟S2中所得到的頻率頻譜之間之形態匹配,並特定出類似度為最高之炭種(步驟S3)。Next, the property
性質狀態變化判定部206,係將計測值記憶部202所記憶的計測值之時間序列中之關連於最近之解析對象時間之第1部分時間序列和關連於第1部分時間序列之起點以前的解析對象時間之第2部分時間序列讀出(步驟S4)。亦即是,在將現在時刻設為T0,並將解析對象時間設為t的情況時,第1部分時間序列,係身為從時刻T0-t起直到時刻T0為止的計測值之時間序列,第2部分時間序列,係身為從時刻T0-2t起直到時刻T0-t為止的計測值之時間序列。第1部分時間序列,係等同於成為頻率解析部203之解析對象之部分時間序列。
性質狀態變化判定部206,係算出第1部分時間序列與第2部分時間序列之間之在各取樣時序的每一者處之偏差之累積(步驟S5)。亦即是,性質狀態變化判定部206,係算出根據第1部分時間序列所特定出之波形與根據第2部分時間序列所特定出之波形之間之差分面積。The property state
性質狀態變化判定部206,係判定所算出的偏差之累積是否身為特定之臨限值以上(步驟S6)。性質狀態變化判定部206,當判定偏差之累積係身為特定之臨限值以上的情況時(步驟S6,YES),係判定被投入的煤炭之炭種係有所變化。另一方面,性質狀態變化判定部206,當判定偏差之累積係身為未滿臨限值的情況時(步驟S6,NO),係並不判定被投入的煤炭之炭種係有所變化。亦即是,由於就算是當性質狀態特定部205所特定出的炭種係為與前一次所特定出之炭種相異的情況時,也可能會有此係身為偶發性之變化(例如,由石頭等之異物之混入所導致的變化)的可能性,因此,有鑑於此,性質狀態變化判定部206,當前一次與此次之計測值之波形之差為小的情況時,係並不判定為煤炭之炭種有所變化。The property state
當性質狀態變化判定部206判定偏差之累積係為臨限值以上的情況時(步驟S6,YES),修正值決定部207,係將性質狀態記憶部204之與性質狀態特定部205所特定出的炭種相互附加關連地所記憶之修正函數讀出(步驟S7)。修正值決定部207,係算出性質狀態記憶部204之與被特定出之炭種相互附加關連地而記憶的頻率頻譜與在步驟S2中所得到的頻率頻譜之間之偏差之累積(步驟S8)。修正值決定部207,係藉由將所算出的偏差之累積代入至修正函數中,而得到轉矩指令修正值(步驟S9)。When the property state
另一方面,當性質狀態變化判定部206判定偏差之累積係身為未滿臨限值的情況時(步驟S6,NO),修正值決定部207,係將前一次所決定的轉矩指令修正值決定為此次之轉矩指令修正值(步驟S10)。On the other hand, when the property state
藉由以上之處理程序,控制裝置200,係能夠決定針對轉矩指令取得部208所取得的基礎轉矩指令之轉矩指令修正值。之後,修正部209,係在每次轉矩指令取得部208取得基礎轉矩指令時,對於基礎轉矩指令加算所決定的轉矩指令修正值,來對於轉矩指令作修正,控制部210,係藉由將被修正後的轉矩指令對於分離機馬達110作輸出,而對於輥磨機100作控制。轉矩指令,係為控制訊號之其中一例。With the above processing routine, the
《作用、效果》
如此這般,第1實施形態之控制裝置200,係將輥磨機100之轉台馬達105之輸入電流之計測值,以至少轉台馬達105之電源電流之頻率以上之頻率來取得之,並基於該計測值之時間序列,來對於輥磨機100輸出控制訊號。如同圖2中所示一般,轉台馬達105之輸入電流之頻率頻譜,由於係以轉台馬達105之電源電流之頻率為中心而擴展,並依存於煤炭之炭種而有所相異,因此,控制裝置200,係藉由使用以轉台馬達105之電源電流之頻率以上的頻率所取得之計測值之時間序列,而能夠因應於煤炭之性質狀態來自動性且適當地對於粉碎機作控制。"Effect"
In this way, the
又,第1實施形態之控制裝置200,係藉由計測值之時間序列之頻率解析,來特定出頻率頻譜,並基於此來對於輥磨機100輸出控制訊號。頻率頻譜,相較於計測值之時間序列,在分析處理中係並不會受到起因於瞬間性之變化所導致的影響。另一方面,計測值之時間序列,相較於頻率頻譜,在分析處理中係容易檢測出瞬間性之變化。Moreover, the
又,第1實施形態之控制裝置200,係基於計測值之時間序列之歷時性之變化,來判定煤炭之炭種的變化之有無。藉由此,控制裝置200,藉由就算是在發生有起因於石頭等之異物之混入所導致的偶發性之輸入電流波形之變化的情況時,當與過去之計測值之波形之差為小的情況時,亦並不判定為存在有煤炭之炭種之變化,係能夠防止錯誤判定為煤炭之炭種有所變化的情形。Moreover, the
又,第1實施形態之控制裝置200,係基於頻率頻譜來特定出煤炭之炭種,並基於計測值之時間序列來判定煤炭之炭種的變化之有無。亦即是,控制裝置200,係將頻率頻譜以及計測值之時間序列在炭種之特定和炭種之變化之判定中分別使用相異者。如此這般,藉由使用頻率頻譜以及計測值之時間序列之雙方,控制裝置200,係能夠更為穩健(robust)地推測煤炭之炭種。Furthermore, the
(第2實施形態)
第1實施形態之控制裝置200,係基於頻率頻譜之比較來特定出炭種,並基於計測值之時間序列來判定炭種的變化之有無。相對於此,第2實施形態之控制裝置200,係基於計測值之時間序列之比較來特定出炭種,並基於頻率頻譜來判定炭種的變化之有無。
第2實施形態之控制裝置200之構成,係和第1實施形態相同,但是,在控制裝置200之各處理部處的處理內容以及性質狀態記憶部204所記憶的資訊,係與第1實施形態相異。(Second Embodiment)
The
《控制裝置之構成》
第2實施形態之控制裝置200,係如同圖3中所示一般,具備有:計測值取得部201、計測值記憶部202、頻率解析部203、性質狀態記憶部204、性質狀態特定部205、性質狀態變化判定部206、修正值決定部207、轉矩指令取得部208、修正部209、控制部210。"Construction of the Control Device"
As shown in FIG. 3, the
第2實施形態之性質狀態記憶部204,係與煤炭之炭種相互附加關連地,而記憶在將屬於該炭種之煤炭作粉碎時的轉台馬達105之輸入電流之值之時間序列、以及用以特定出轉矩指令修正值之修正函數。The property
性質狀態特定部205,係基於計測值記憶部202所記憶的計測值之時間序列和性質狀態記憶部204所記憶的關連於各炭種之電流值之時間序列之間之比較,來特定出被投入至輥磨機100中之煤炭之炭種。例如,性質狀態特定部205,係求取出在性質狀態記憶部204所記憶的關連於複數之炭種之各電流值之時間序列中的累積值與在計測值記憶部202所記憶的計測值之時間序列中之累積值之間之差,並將差為最小之炭種,特定為被投入至輥磨機100中之煤炭之炭種。The property
性質狀態變化判定部206,係基於頻率解析部203所得到的頻率頻譜,來判定被投入至輥磨機100中之煤炭之炭種是否有所變化。例如,頻率解析部203,係針對計測值記憶部202所記憶的計測值之時間序列中之關連於最近之解析對象時間之第1部分時間序列和關連於直到第1部分時間序列之起點為止的解析對象時間之第2部分時間序列之各者,而進行頻率解析。性質狀態變化判定部206,係基於關連於第1部分時間序列之頻率頻譜和關連於第2部分時間序列之頻率頻譜之間的面積差分,來判定炭種之變化的有無。The property state
《控制裝置之動作》
圖5,係為對於第2實施形態之輥磨機之控制裝置的動作作展示之流程圖。
控制裝置200,係在每解析對象時間處,進行以下所示之修正量之決定處理。
首先,頻率解析部203,係將計測值記憶部202所記憶的計測值之時間序列中之最近之解析對象時間的部分時間序列讀出(步驟S21)。"The Action of the Control Device"
Fig. 5 is a flowchart showing the operation of the control device of the roll mill according to the second embodiment.
The
接著,性質狀態特定部205,係算出性質狀態記憶部204之與複數之炭種相互附加關連地而記憶的各電流值之時間序列之累積值與在步驟S21中所讀出的部分時間序列之累積值之間之差,並特定出累積值之差為最小之炭種(步驟S22)。Next, the property
性質狀態變化判定部206,係將計測值記憶部202所記憶的計測值之時間序列中之關連於最近之解析對象時間之第1部分時間序列和關連於第1部分時間序列之起點以前的解析對象時間之第2部分時間序列讀出(步驟S23)。頻率解析部203,係藉由將所讀出的第1部分時間序列以及第2部分時間序列之各者作頻率轉換,來分別得到第1頻率頻譜和第2頻率頻譜(步驟S24)。
性質狀態變化判定部206,係算出第1頻率頻譜與第2頻率頻譜之間之各頻率之偏差的累積(步驟S25)。亦即是,性質狀態變化判定部206,係算出第1頻率頻譜之波形與第2頻率頻譜之波形之間之差分面積。The property state
性質狀態變化判定部206,係判定所算出的偏差之累積是否身為特定之臨限值以上(步驟S26)。當性質狀態變化判定部206判定偏差之累積係為臨限值以上的情況時(步驟S26,YES),修正值決定部207,係將性質狀態記憶部204之與性質狀態特定部205所特定出的炭種相互附加關連地所記憶之修正函數讀出(步驟S27)。修正值決定部207,係算出性質狀態記憶部204之與被特定出之炭種相互附加關連地而記憶的電流值之時間序列與在步驟S1中所讀出的計測值之時間序列之間之偏差之累積(步驟S28)。修正值決定部207,係藉由將所算出的偏差之累積代入至修正函數中,而得到轉矩指令修正值(步驟S29)。The property state
另一方面,當性質狀態變化判定部206判定偏差之累積係身為未滿臨限值的情況時(步驟S26,NO),修正值決定部207,係將前一次所決定的轉矩指令修正值決定為此次之轉矩指令修正值(步驟S30)。On the other hand, when the property state
藉由以上之處理程序,控制裝置200,係能夠決定針對轉矩指令取得部208所取得的基礎轉矩指令之轉矩指令修正值。With the above processing routine, the
《作用、效果》
如此這般,第2實施形態之控制裝置200,係將輥磨機100之轉台馬達105之輸入電流之計測值,以至少轉台馬達105之電源電流之頻率以上之頻率來取得之,並基於該計測值之時間序列,來對於輥磨機100輸出控制訊號。如同圖2中所示一般,轉台馬達105之輸入電流之頻率頻譜,由於係以轉台馬達105之電源電流之頻率為中心而擴展,並依存於煤炭之炭種而有所相異,因此,控制裝置200,係藉由使用轉台馬達105之輸入電流之頻率頻譜,而能夠與第1實施形態相同地來因應於煤炭之性質狀態來自動性且適當地對於粉碎機作控制。"Effect"
In this way, the
(第3實施形態)
第1實施形態之控制裝置200,係藉由針對計測值之頻率頻譜而與在各炭種中之標準性的輸入電流之頻率頻譜作比較,來特定出炭種。又,第2實施形態之性質狀態記憶部204,係藉由針對計測值之時間序列而與在各炭種中之標準性的輸入電流之時間序列作比較,來特定出炭種。相對於此,第3實施形態之性質狀態記憶部204,係藉由對於已完成學習之機械學習模型而輸入計測值之時間序列以及頻率頻譜,來特定出炭種。(third embodiment)
The
《控制裝置之構成》
圖6,係為對於第3實施形態之控制裝置的構成作展示之概略區塊圖。
第3實施形態之控制裝置200,係除了第1實施形態之構成以外,更進而具備有機械學習部211。又,第3實施形態之控制裝置200,與第1實施形態之構成,係在性質狀態記憶部204所記憶的資訊、性質狀態特定部205以及性質狀態變化判定部206之處理處有所相異。"Construction of the Control Device"
FIG. 6 is a schematic block diagram showing the configuration of the control device according to the third embodiment.
The
機械學習部211,係以將轉台馬達105之輸入電流之時間序列以及頻率頻譜作為輸入並將轉矩指令修正值作為輸出的方式,來使機械學習模型進行學習。例如,機械學習部211,係藉由「將轉矩指令修正值和在將屬於該炭種之煤炭作了粉碎時的轉台馬達105之輸入電流之時間序列以及頻率頻譜之組合作為教師資料來使用」的有教師學習,來使機械學習模型進行學習。又,例如,機械學習部211,係亦可藉由「基於在將旋轉分離機109之旋轉數設為一定時而將關連於各種的炭種之煤炭作了粉碎時的供炭量之變動,來判斷為係需要進行旋轉數之修正,並基於該情況時之電流值來導出特徵量,而對於傾向作分析」之無教師學習,來使機械學習模型進行學習。以下,將此機械學習模型稱作修正值特定模型。又,機械學習部211,係將「煤炭之炭種之變化的有無」和「在被投入的炭種之變化的前後之轉台馬達105之輸入電流之時間序列以及頻率頻譜」之組合作為教師資料,並以將轉台馬達105之輸入電流之時間序列以及頻率頻譜作為輸入並且將煤炭之炭種之變化的有無作為輸出的方式,來使機械學習模型進行學習。以下,將此機械學習模型稱作變化判定模型。修正值特定模型以及變化特定模型,係被記錄在性質狀態記憶部204中。The
性質狀態記憶部204,係記憶修正值特定模型以及變化特定模型。The property
性質狀態特定部205,係藉由將計測值記憶部202所記憶的輸入電流之時間序列以及藉由頻率解析部203所解析出的頻率頻譜之組合輸入至性質狀態記憶部204所記憶的修正值特定模型中,來特定出轉矩指令修正值。The property
性質狀態變化判定部206,係藉由將計測值記憶部202所記憶的輸入電流之時間序列以及藉由頻率解析部203所解析出的頻率頻譜之組合輸入至性質狀態記憶部204所記憶的變化判定模型中,來判定煤炭之炭種之變化的有無。The property state
《控制裝置之動作》
圖7,係為對於第3實施形態之輥磨機之控制裝置的動作作展示之流程圖。
控制裝置200,係在每解析對象時間處,進行以下所示之修正量之決定處理。
首先,頻率解析部203,係將計測值記憶部202所記憶的計測值之時間序列中之最近之解析對象時間的部分時間序列讀出(步驟S41)。頻率解析部203,係藉由將所讀出的部分時間序列作頻率轉換,來得到頻率頻譜(步驟S42)。"The Action of the Control Device"
Fig. 7 is a flow chart showing the operation of the control device of the roll mill according to the third embodiment.
The
接著,性質狀態特定部205,係藉由將部分時間序列和頻率頻譜輸入至性質狀態記憶部204所記憶的修正值特定模型中,來特定出轉矩指令修正值(步驟S43)。又,性質狀態變化判定部206,係藉由將部分時間序列和頻率頻譜輸入至性質狀態記憶部204所記憶的變化判定模型中,來判定煤炭之炭種是否有所變化(步驟S44)。Next, the property
當性質狀態變化判定部206判定煤炭之炭種係有所變化的情況時(步驟S44,YES),修正值決定部207,係將此次之轉矩指令修正值決定為在步驟S43中所特定出的轉矩指令修正值(步驟S45)。另一方面,當性質狀態變化判定部206判定偏差之累積係身為未滿臨限值的情況時(步驟S44,NO),修正值決定部207,係將前一次所決定的轉矩指令修正值決定為此次之轉矩指令修正值(步驟S46)。When the property state
如此這般,第3實施形態之控制裝置200,係能夠基於機械學習,來特定出與煤炭之炭種相對應之轉矩指令修正值以及煤炭之炭種的變化之有無。另外,第3實施形態之控制裝置200,雖係藉由修正值特定模型來直接特定出轉矩指令修正值,但是,係並不被限定於此。例如,其他實施形態之控制裝置200,係亦可在藉由特定出炭種之炭種特定模型來根據計測值之時間序列以及頻率頻譜而特定出了炭種之後,將與該炭種相對應之修正函數讀出,並藉由將頻率頻譜之偏差之累積代入至修正函數中,來直接特定出轉矩指令修正值。In this way, the
又,第3實施形態之機械學習模型,雖係以計測值之時間序列以及頻率頻譜作為輸入,但是,係並不被限定於此。例如,其他實施形態之機械學習模型,係亦可僅以計測值之時間序列以及頻率頻譜之其中一者作為輸入。In addition, although the machine learning model of the third embodiment uses the time series and frequency spectrum of measurement values as inputs, it is not limited to this. For example, the machine learning model of other embodiments may use only one of the time series of measured values and the frequency spectrum as an input.
(其他實施形態)
以上,雖係針對其中一個實施形態而參考圖面來作了詳細說明,但是,本發明之具體性之構成係並不被限定於上述之記載,而可進行各種的設計變更等。
例如,上述之實施形態之控制裝置200,雖係作為粉碎對象物之性質狀態,而特定出煤炭之炭種,但是,在其他實施形態中,係亦可特定出其他的性質狀態。例如,其他實施形態之控制裝置200,係亦可特定出煤炭之硬度、水分量、HGI(Hardgrove Index)等。(Other Embodiments)
As mentioned above, although one embodiment has been described in detail with reference to the drawings, the specific configuration of the present invention is not limited to the above description, and various design changes and the like are possible.
For example, the
又,第1、第2實施形態之控制裝置200,雖係將頻率頻譜以及計測值之時間序列在炭種之特定和炭種之變化之判定中分別使用相異者,但是,係並不被限定於此。例如,其他實施形態之控制裝置200,係亦可在炭種之特定和炭種之變化之判定的雙方中,均使用頻率頻譜,亦可均使用計測值之時間序列。Furthermore, in the
又,如同圖1中所示一般,上述之實施形態之控制裝置200,雖係身為單體之裝置,但是,係並不被限定於此。圖8,係為對於其他實施形態之控制系統之構成作展示之概略圖。例如,在其他之實施形態中,係亦可藉由被設置在輥磨機100之近旁處的控制裝置200、和被以遠端來作了設置的伺服器裝置300,來構成控制系統。於此情況,控制裝置200,係至少具備有計測值取得部201以及控制部210,但是,關於其他之控制部以及記憶部,係能夠使控制裝置200來具備,亦能夠使伺服器裝置300來具備。又,於此情況,係亦可對於1個的伺服器裝置300,而連接複數之控制裝置200。亦即是,係亦可構成為:與複數之輥磨機100之各者分別相對應的控制裝置200,係取得各輥磨機100之轉台馬達105之輸入電流之計測值,並對於伺服器裝置300作送訊,並且從伺服器裝置300取得轉矩指令,而將該轉矩指令對於輥磨機100作輸出。該複數之輥磨機100,係可身為被設置在相同之廠房處者,亦可身為被設置在相異之廠房處者。In addition, as shown in FIG. 1, although the
又,上述之實施形態之控制裝置200之控制對象物,雖係身為輥磨機100,但是,係並不被限定於此。例如,在其他實施形態中,控制對象物係亦可為將液體作壓送之幫浦或者是將氣體作送風之風扇。又,亦可替代身為微粉碎機之輥磨機100,而將粗粉碎機、中度粉碎機或者是磨碎機等之其他的粉碎機作為控制對象物。又,上述之實施形態之分離機馬達110,雖係藉由感應電動機而被實現,但是,係亦可藉由直流電動機、同步電動機或者是整流子電動機等之其他之電動機來實現。In addition, although the control object of the
<電腦之構成>
圖9,係為對於至少1個的實施形態之電腦的構成作展示之概略區塊圖。
電腦90,係具備有處理器91、和主記憶體92、和儲存裝置93、以及介面94。
上述之控制裝置200,係被安裝於電腦90中。而,上述之各處理部之動作,係以程式之形式而被記憶在儲存裝置93中。處理器91,係從儲存裝置93而將程式讀出並展開於主記憶體92上,並且依循於該程式而實行上述處理。又,處理器91,係依循於程式而在主記憶體92中確保與上述之各記憶部相對應的記憶區域。<Construction of computer>
FIG. 9 is a schematic block diagram showing the configuration of a computer according to at least one embodiment.
The
作為儲存裝置93之例,係可列舉出HDD(Hard Disk Drive)、SSD(Solid State Drive)、磁碟、光磁碟、CD-ROM(Compact Disc Read Only Memory)、DVD-ROM(Digital Versatile Disc Read Only Memory)、半導體記憶體等。儲存裝置93,係可為被與電腦90之匯流排直接作了連接的內部媒體,亦可為經由界面94或通訊線路而被與電腦90作連接的外部媒體。又,當此程式為藉由通訊線路而被發佈至電腦90處的情況時,係亦可使接收了發佈之電腦90將該程式展開於主記憶體92上並實行上述處理。在至少1個的實施形態中,儲存裝置93,係身為並非為暫時性之有形的記憶媒體。Examples of the
又,該程式,係亦可為用以實現前述之功能的一部分者。進而,該程式,係亦可為將前述之功能藉由與已被記錄在儲存裝置903中之其他之程式間的組合來實現,也就是亦可為所謂的差分檔案(差分程式)。 [產業上的利用可能性]In addition, the program may be used to realize a part of the above-mentioned functions. Furthermore, the program may be implemented by combining the aforementioned functions with other programs recorded in the storage device 903, that is, a so-called differential file (differential program). [Industrial availability]
上述控制裝置,係能夠因應於煤炭之性質狀態來自動且適當地對於粉碎機作控制。The above-mentioned control device can automatically and appropriately control the pulverizer in accordance with the nature and state of the coal.
100‧‧‧輥磨機
105‧‧‧轉台馬達
110‧‧‧分離機馬達
111‧‧‧電流計
200‧‧‧控制裝置
201‧‧‧計測值取得部
202‧‧‧計測值記憶部
203‧‧‧頻率解析部
204‧‧‧性質狀態記憶部
205‧‧‧性質狀態特定部
206‧‧‧性質狀態變化判定部
207‧‧‧修正值決定部
208‧‧‧轉矩指令取得部
209‧‧‧修正部
210‧‧‧控制部
211‧‧‧機械學習部100‧‧‧
[圖1]係為對於第1實施形態之輥磨機的構成作展示之圖。 [圖2]係為對於轉台馬達之輸入電流之頻率分析結果之例作展示之圖。 [圖3]係為對於第1實施形態之控制裝置的構成作展示之概略區塊圖。 [圖4]係為對於第1實施形態之輥磨機之控制裝置的動作作展示之流程圖。 [圖5]係為對於第2實施形態之輥磨機之控制裝置的動作作展示之流程圖。 1 is a diagram showing the configuration of the roll mill according to the first embodiment. FIG. 2 is a diagram showing an example of the frequency analysis result of the input current of the turntable motor. 3 is a schematic block diagram showing the configuration of the control device according to the first embodiment. 4 is a flowchart showing the operation of the control device of the roll mill according to the first embodiment. Fig. 5 is a flowchart showing the operation of the control device of the roll mill according to the second embodiment.
[圖6]係為對於第3實施形態之控制裝置的構成作展示之概略區塊圖。 FIG. 6 is a schematic block diagram showing the configuration of the control device according to the third embodiment.
[圖7]係為對於第3實施形態之輥磨機之控制裝置的動作作展示之流程圖。 FIG. 7 is a flowchart showing the operation of the control device of the roll mill according to the third embodiment.
[圖8]係為對於其他實施形態之控制系統之構成作展示之概略圖。 FIG. 8 is a schematic diagram showing the configuration of a control system of another embodiment.
[圖9]係為對於至少1個的實施形態之電腦的構成作展示之概略區塊圖。 9 is a schematic block diagram showing the configuration of a computer according to at least one embodiment.
100‧‧‧輥磨機 100‧‧‧Roller Mill
101‧‧‧殼體 101‧‧‧Shell
102‧‧‧供炭口 102‧‧‧Charcoal supply port
103‧‧‧出炭口 103‧‧‧Charcoal outlet
104‧‧‧轉台 104‧‧‧Turntable
105‧‧‧轉台馬達 105‧‧‧Rotary motor
106‧‧‧輥 106‧‧‧Rollers
107‧‧‧輥馬達 107‧‧‧Roller motor
108‧‧‧空氣吹入口 108‧‧‧Air inlet
109‧‧‧旋轉分離機 109‧‧‧Rotary Separator
110‧‧‧分離機馬達 110‧‧‧Separator motor
111‧‧‧電流計 111‧‧‧Gasmeter
200‧‧‧控制裝置 200‧‧‧Control device
Claims (19)
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JP2018-109827 | 2018-06-07 |
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PH (1) | PH12020552104A1 (en) |
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CN114308367B (en) * | 2021-12-27 | 2023-06-06 | 江苏丰尚智能科技有限公司 | Material fineness adjusting method and device, computer equipment and storage medium |
CN115400844B (en) * | 2022-11-01 | 2023-01-06 | 合肥中亚建材装备有限责任公司 | Inside grading plant that divides of vertical roller mill |
CN116889922B (en) * | 2023-07-06 | 2024-03-08 | 碎得机械(北京)有限公司 | Control method, device and system of crusher |
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JP7457452B2 (en) | 2024-03-28 |
WO2019235604A1 (en) | 2019-12-12 |
JP2019209296A (en) | 2019-12-12 |
PH12020552104A1 (en) | 2021-08-02 |
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