JP6131528B2 - Maintenance support device and maintenance support system - Google Patents

Description

  The present invention relates to a maintenance support device and a maintenance support system that support maintenance of various devices.

  The following Patent Document 1 estimates the remaining life of a part of the equipment device based on the history data of the skin cut performed for each part of the equipment device and the parts replacement in the equipment device part and the operating state of the equipment device. A plant remaining life management device that provides support information for developing an appropriate maintenance plan for equipment is disclosed.

JP 2000-97815 A

  By the way, the life (factors of life) of various devices and the various parts constituting the devices differ depending on the usage state. For example, the device A used in an environment with a large number of activations (stops) may have a remaining life in terms of the total operation time, but the activation number may reach a limit and reach the lifetime. On the other hand, the device B that is continuously operated even in the same type as the device A reaches the lifetime because the total operation time reaches the limit time before the number of activations reaches the limit. That is, although the said apparatuses A and B are the same types, they reach a lifetime by a different lifetime factor from the difference in use environment.

  The above-described conventional technology evaluates the remaining life by paying attention to individual equipment, and does not consider the difference in the life factor due to the difference in the usage environment of the plurality of equipment. It is not possible to make effective use of equipment in a comprehensive (inclusive) manner.

  The present invention has been made in view of the above-described circumstances, and an object thereof is to effectively utilize a plurality of objects of the same type in a total (inclusive) manner by considering the difference in the lifetime factors of the objects. To do.

  In order to achieve the above object, in the present invention, as a first solving means related to the maintenance support device, the remaining lifetimes of a plurality of objects of the same type or compatibility are stored as remaining lifetime data for each lifetime factor. Maintenance candidate storage means, replacement candidate extraction means for extracting other objects that can extend the life of an object as replacement candidates based on the remaining life data, and maintenance support for the replacement candidates extracted by the replacement candidate extraction means An output means for outputting the information as information to the outside is employed.

  As a second solving means relating to the maintenance support apparatus, the first solving means further comprises an evaluation criterion designating means for designating an evaluation criterion for each replacement candidate when there are a plurality of replacement candidates, and the output means is an evaluation unit. A means of outputting each exchange candidate in the order based on the evaluation standard designated by the standard designating means is adopted.

  As a third solution means related to the maintenance support device, the first or second solution means further includes a life extension method storage means for storing the life extension method of the object for each life factor, and the output means is provided for each life factor. The method of outputting the life extension method is adopted.

  As a fourth solving means related to the maintenance support device, in any one of the first to third solving means, a maintenance support device provided in association with the specific object, the life data of the specific object Life history data storage means for storing the operation history storage means for storing the operation history of the specific object provided from the object state providing means associated with the specific object as operation history data, operation history data and life data And a remaining life calculating means for calculating the remaining life of a specific object for each life factor using a predetermined life calculation method, and the remaining life storage means A means of storing as one of the remaining life data is adopted.

  As a fifth solving means related to the maintenance support device, in the fourth solving means, a data transmitting means for sending operation history data relating to a specific object to the outside via a communication line, and an operation history relating to the external object. Data acquisition means for acquiring data or consumption life data for each life factor together with the life data from the outside via a communication line, and the remaining life calculation means includes operation history data and life data related to external objects. Based on this, or based on consumption life data and life data relating to an external object, a means for calculating the remaining life relating to the external object for each life factor is adopted.

  As a sixth solving means related to the maintenance support device, in the fifth solving means, further comprising a consumption life calculating means for calculating a consumption life of a specific object based on operation history data relating to the specific object, The transmission means employs means for transmitting the consumption life of the specific object to the outside as the consumption life data instead of the operation history data regarding the specific object.

  As a seventh solving means relating to the maintenance support device, in any one of the above fourth to sixth solving means, further comprising a life calculating method acquisition means for acquiring a life calculating method from the outside via the communication line, The lifetime storage means calculates the remaining lifetime based on the lifetime calculation method acquired by the lifetime calculation method acquisition means, and the consumption lifetime calculation means calculates the consumption lifetime based on the lifetime calculation method acquired by the lifetime calculation method acquisition means. , Is adopted.

  Further, in the present invention, as a means for solving the maintenance support system, a means is adopted in which a plurality of maintenance support devices according to any of the fifth to seventh solutions are interconnected via a communication line. .

  According to the present invention, it is possible to replace an object that reaches the end of life due to a certain life factor with an object that reaches the end of life due to another life factor, so that a plurality of objects of the same type are totally (inclusive). It can be used effectively.

It is a block diagram which shows the function structure of the maintenance assistance apparatus A which concerns on one Embodiment of this invention. It is a system configuration figure of maintenance support system S concerning one embodiment of the present invention. It is a flowchart which shows operation | movement of the maintenance assistance apparatus A which concerns on one Embodiment of this invention. It is a schematic diagram which shows an example of the components replacement | exchange assistance image of the maintenance assistance apparatus A which concerns on one Embodiment of this invention.

Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
As shown in FIG. 1, the maintenance support apparatus A1 according to the present embodiment includes a CPU 1, an operation information acquisition unit 2, an operation unit 3 (evaluation standard designation unit), a communication unit 4 (data acquisition unit, data transmission unit, life calculation). (Method acquisition means), storage section 5 (remaining life storage means, life storage means, operation history storage means, life extension method storage means), display section 6, and system bus 7 interconnecting these sections. Of these components, the CPU 1, the storage unit 5, and the system bus 7 constitute replacement object extraction means, remaining life calculation means, and consumption life calculation means in this embodiment. Moreover, CPU1, the memory | storage part 5, and the display part 6 comprise the output means in this embodiment.

  The maintenance support device A1 is provided in association with a specific device B1 that is a maintenance support target. For example, information (operation information) indicating the operation state of the device B1 is transmitted at a predetermined time interval via the device management device C1. By acquiring sequentially, support information (maintenance support information) regarding the maintenance of the device B1 is provided to the device manager. Such a maintenance support apparatus A1 is a kind of computer that functions based on a predetermined OS (Operating System) and a “maintenance support program” that is an application program.

  The CPU 1 is a control unit that performs overall control of the respective units by executing the maintenance support program stored in advance in the nonvolatile area of the storage unit 5. The CPU 1 controls the respective units by transmitting and receiving various signals to and from the respective units via the system bus 7. Although details will be described later, the CPU 1 generates the maintenance support information as a process based on the maintenance support program and outputs it to the display unit 6.

  The operation information acquisition unit 2 acquires operation information (device operation information) of the device B1 by communicating with the device management apparatus C1 under the control of the CPU 1 as described above. The operation information acquisition unit 2 is interconnected with the device management apparatus C1 through a communication line compliant with, for example, a LAN (Local Area Network), and communicates with the device management apparatus C1 using a communication method compliant with the LAN. It is. The device operation information is transferred from the operation information acquisition unit 2 to the storage unit 5 and stored under the control of the CPU 1.

  The operation unit 3 is a man-machine interface device for inputting device manager operation information to the maintenance support device A1, for example, a keyboard or a mouse. The device administrator, for example, inputs a maintenance support information acquisition request (operation information) and evaluation criteria for replacement candidate parts necessary for creating the maintenance support information to the maintenance support apparatus A1 by operating the operation unit 3. To do. The operation information input from the operation unit 3 in this manner is input to the CPU 1 via the system bus 7 and processed according to the maintenance support program.

  The communication unit 4 is a communication device that communicates with an external device via the communication line N. The external devices are other maintenance support devices A2 to A5 as shown in FIG. This maintenance support apparatus A1 constitutes a maintenance support system S together with other maintenance support apparatuses A2 to A5 interconnected via a communication line N. These other maintenance support devices A2 to A5 have the same functions as the maintenance support device A1, although the devices to be supported are different.

  The communication line N is, for example, the Internet, and the communication unit 4 communicates with each of the communication units of the other maintenance support apparatuses A2 to A5 based on the TCP / IP protocol that is a communication form of the Internet. Such a communication unit 4 transmits operation history data and component information of various parts constituting the device B1 to each communication unit of the other maintenance support devices A2 to A5, while the other maintenance support devices A2 to A5 Operation history data and component information of various components constituting other devices (external devices) associated therewith are received from the communication units of the other maintenance support devices A2 to A5.

  The storage unit 5 includes a nonvolatile storage area and a volatile storage area, and includes a plurality of storage devices such as a ROM (Read Only Memory), a RAM (Random Access Memory), and a hard disk. As shown in the figure, the nonvolatile storage area of the storage unit 5 includes at least four storage areas, that is, a remaining life storage area 5a (remaining life storage means), a device information storage area 5b (lifetime storage means), and an operation history storage area. 5c (operation history storage means) and a replacement part storage area 5d are provided. Although not shown, the nonvolatile storage area of the storage unit 5 includes an application program storage area such as the above-described maintenance support program and an OS storage area in which the OS is stored.

  The remaining life storage area 5a is the remaining life data (self-remaining life data) for each life factor in the various parts constituting the device B1, and is based on the remaining life calculation program and device operation information which is one of the maintenance support programs. Calculated by the CPU 1, or calculated by the CPU 1 based on the operation history data of the various parts of the external device acquired by the communication unit 4 from the other maintenance support devices A 2 to A 5 and the life data included in the component information. This is a storage area for storing. Each remaining life is stored in the remaining life storage area 5a as a data table (remaining life table) for each part (part name, model number, etc.) of the device B1 and for each life factor.

  As will be described in detail later, the CPU 1 performs information processing on the operation history data already registered in the operation history storage area 5c based on the remaining life calculation program, so that the device B1 registered in the apparatus information storage area 5b is processed. For each component, the remaining life (self-remaining life) for each life factor is calculated and registered as the remaining life data in the remaining life storage area 5a.

  FIG. 4 shows a “motor” and a “power supply device” as examples of the device B1. When the device B1 is a “motor”, “life bearing grease deterioration”, “bearing part rolling fatigue”, “insulation deterioration”, “sliding part wear”, and the like can be considered as life factors. Further, when the device B1 is a “power supply device”, “energization time”, “switch (main power switch) ON / OFF count”, and the like are considered as life factors. The CPU 1 calculates (estimates) the remaining life of the various life factors defined for these individual devices by using a predetermined life calculation method (life time estimation method).

  In addition, the CPU 1 controls the communication unit 4 and the storage unit 5 to transmit operation history data (self-operated history data) of various parts constituting the device B1 to the other maintenance support devices A2 to A5, while The operation history data (other operation history data) of various parts constituting the external device accompanied by the other maintenance support devices A2 to A5 is periodically acquired from the other maintenance support devices A2 to A5 and stored in the operation history storage area 5c. sign up. The CPU 1 performs information processing on the operation history data (other operation history data) registered in the operation history storage area 5c, thereby various life factors for various parts of the external device registered in the apparatus information storage area 5b. Each remaining life (other remaining life) is calculated and registered in the remaining life storage area 5a as other remaining life data.

  The device information storage area 5b is an area for storing attribute information (own component information) of various parts constituting the device B1 and attribute information (other parts information) of various parts constituting the external device. This component information indicates, for example, the component name, model number, performance, and life extension method of each component, and is stored in the device information storage area 5b as a data table (component table) for each component. The attribute information includes life data indicating the life (initial life) of various parts as one of the performance data. The life extension method is know-how information indicating a measure for each life factor for extending the life of the component. The operation history storage area 5c stores device operation information sequentially acquired from the device management apparatus C1 in time series by the operation information acquisition unit 2 as operation history data (self-operated history data), and the communication unit 4 sets the time series. This is a storage area for storing other operation history data regarding various components of the external device that are sequentially acquired.

  The replacement part storage area 5d is a storage area for storing replacement candidate parts related to various parts constituting the device B1. This replacement candidate part is extracted by performing information processing on each remaining life data registered in the remaining life table based on the replacement candidate part extraction program which is one of the maintenance support programs by the CPU 1.

  Although details will be described later, the CPU 1 compares the remaining life data (self-remaining life data) of various parts of the device B1 with the remaining life data (other remaining life data) of various parts of other devices in the remaining life table. As a result, a part that can extend the life of the various parts of the device B1 is extracted from the various parts of the other device as a replacement candidate part and registered in the replacement part storage area 5d. The replacement support image) is output to the display unit 6 as maintenance support information.

  The display unit 6 displays the component replacement support image input from the CPU 1. Such a display unit 6 is a liquid crystal display device or a CRT display device that functions as a man-machine interface device between the maintenance support device A1 and the device manager. The system bus 7 includes a predetermined number of address buses and data buses, a predetermined number of control lines, and the like interconnecting the CPU 1, the operation information acquisition unit 2, the operation unit 3, the communication unit 4, the storage unit 5 and the display unit It is possible to transmit and receive signals between these units.

  The device B1 basically requires maintenance of used parts, and is, for example, an electric motor or a power supply device provided in various facilities. In other words, the device B1 is composed of a plurality of replaceable parts, and is maintained over a relatively long period of, for example, several years to several tens of years by being regularly or irregularly maintained by parts replacement or the like. Continue to develop the function of. Such a device B1 is provided with various measuring instruments and sensors in order to grasp the operating state of the device and the usage state of each component.

  The device management device C1 is a device that comprehensively controls and manages the operating state of the device B1 based on the measurement values of such a measuring instrument. As described above, various information for grasping the state of each component of the device B1 is intensively input to the device management apparatus C1 as measurement values of various measuring instruments. The operation amount output from the device management apparatus C1 to the device B1 also indicates the operating state of the device B1, such as an ON / OFF operation command.

  In other words, the measurement values input to the device management apparatus C1 and the operation amounts output from the device management apparatus C1 to the device B1 are the operating states (usage states) of the various parts constituting the device B1 and the device B1. Is shown. The device management apparatus C1 is a target state providing unit that provides the state of the device B1 and various components to the maintenance support apparatus A1. Moreover, the various parts which comprise apparatus B1 are the target objects in this embodiment.

  Next, operations of the maintenance support apparatus A1 and the maintenance support system S will be described with reference to the flowchart shown in FIG.

  The operations of the other maintenance support devices A2 to A5 that constitute the maintenance support system S together with the maintenance support device A1 are substantially the same as the operations of the maintenance support device A1, and thus the description thereof is omitted below.

  The CPU 1 first determines whether or not the predetermined time Ta has elapsed since the previous acquisition of other operation history data by executing the above-described maintenance support program (step S1). When the determination in step S1 is “Yes”, that is, when the predetermined time Ta has elapsed, the CPU 1 configures an external device from the other maintenance support devices A2 to A5 by controlling the communication unit 4. By acquiring other operation history data of various parts and further controlling the communication unit 4 and the storage unit 5, the other operation history data acquired by the communication unit 4 is transferred to the storage unit 5 and registered in the operation history storage area 5c. (Step S2). When the determination in step S1 is “No”, the CPU 1 executes the following step S3 without executing step S2.

  Then, when the series of processes (other operation history data acquisition process) in steps S1 and S2 is completed, the CPU 1 determines whether or not a predetermined time Tb has elapsed since the previous calculation of the remaining life (step S3). . When the determination in step S3 is “Yes”, that is, when the predetermined time Tb has elapsed, the CPU 1 operates the operation history data (self-operated) registered in the operation history storage area 5c based on the remaining life calculation program. By performing information processing on the history data and other operation history data), the remaining life (self-remaining life and other remaining life) for each life factor of the various parts of the device B1 and the external device registered in the device information storage area 5b. And is registered in the remaining life storage area 5a as remaining life data (step S4).

  Here, the remaining life calculation method for various components will not be described in detail because there are many known documents in addition to the above-described Patent Document 1. However, the CPU 1 determines various methods of the device B1 and the external devices based on the operation history data. The consumption life of a part is calculated for each life factor, and the remaining life (self-remaining life) is calculated based on this consumption life and the life (initial life) of various parts registered in the device information storage area 5b in advance as part data. calculate. Any of the known methods may be adopted as the life calculation method for such consumption life and remaining life. The latest life calculation method may be acquired from the outside using the communication unit 4 and used. When the determination in step S3 is “No”, the CPU 1 executes the following step S5 without executing step S4.

  When the CPU 1 completes such a series of processing (remaining life calculation processing) in steps S3 and S4, has the communication unit 4 received a request for providing self-operation history data from any of the other maintenance support devices A2 to A5? It is determined whether or not (step S5). Here, the other maintenance support devices A2 to A5 transmit a request for providing the operation history data of the maintenance support device A1 necessary for calculating the remaining life of the maintenance support devices A1 to A1 to the maintenance support device A1. The operation history data is acquired and stored. When the determination in step S5 is “Yes”, that is, when the self-operation history data is requested, the CPU 1 controls the communication unit 4 so as to be self-operated in any of the other maintenance support devices A2 to A5. History data is transmitted (step S6).

  When the series of processes (self-operating history data providing process) in steps S5 and S6 is completed, the CPU 1 determines whether or not a maintenance support information request has been received from the device administrator (step S7). That is, when the device manager manually operates the operation unit 3 to input a maintenance support information provision request to the maintenance support apparatus A, the result of the determination process in step S7 is “Yes”.

  As a result, the CPU 1 compares and collates the remaining life data (self-remaining life data) of various parts of the device B1 with the remaining life data (other remaining life data) of various parts of the external device in the remaining life table. From the various parts of the device, a part that can extend the life of the various parts of the device B1 is extracted as a replacement candidate part and registered in the replacement part storage area 5d (step S8).

  That is, by referring to the remaining life table, the CPU 1 replaces the external device parts (other parts) having the remaining life longer than the remaining life for each life factor for the various parts (own parts) of the device B1. Extract as a part. Then, the CPU 1 registers the replacement candidate parts extracted in this way in the replacement part storage area 5d for each part. Since such replacement candidate parts are other parts having a remaining life (other remaining life) longer than the remaining life (self-residual life) in each life factor, they are parts that can extend the life of various parts of the device B1.

  Here, the CPU 1 communicates with the maintenance support device (for example, the maintenance support device A3) attached to the external device of the component (other components) extracted as described above through the communication line N, thereby various types of the device B1. Check if the part (own part) is a replacement candidate part in the external device, and if it is the replacement candidate part, replace the external device part (other parts) with the various parts of the device B1 (own part) It may be extracted as a replacement candidate part. That is, a part (another part) that also has merit for the part replacement partner may be extracted as a replacement candidate part.

  When a plurality of other parts are extracted as replacement candidate parts for one part, the CPU 1 generates a part replacement support image indicating the plurality of other parts, and outputs and displays the part replacement support image on the display unit 6 (Step S1). S9). In this case, the CPU 1 generates a part replacement support image in which the order of each replacement candidate part is set based on an evaluation criterion designated by the device manager via the operation unit 3. This evaluation standard is, for example, a low replacement cost or a short man-hour (time) required for replacement.

  When such a series of processing (replacement candidate part extraction / output processing) in steps S7 to S9 is completed, the CPU 1 repeatedly executes the above-described step S1. That is, the CPU 1 repeatedly executes other operation history data acquisition processing, remaining life calculation processing, self-operation history data provision processing, and replacement candidate part extraction / output processing. The order of these series of processing is shown in FIG. It is not limited to the order. There is no problem even if the order of other operation history data acquisition processing, remaining life calculation processing, self-operation history data provision processing, and replacement candidate component extraction / output processing is interchanged.

  FIG. 4 is an example (hyperlink page) of a part replacement support image showing one other part as a replacement candidate part. In FIG. 4, (a) shows a case where the component (own component) is a motor, and (b) shows a case where the component (own component) is a power supply device. In this part replacement support image, the remaining life is displayed for each life factor of the self part, and the replacement candidate part is displayed as a replacement partner.

  In this part replacement support image, a list of replacement candidate parts is displayed by operating the “list display” (link button) displayed on the replacement partner (column) for each life factor using a mouse or the like. The In this part replacement support image, a life extension method (column) is provided. By operating the “guide display” (link button) shown in this life extension method (column) using a mouse or the like, Measures for extending the life of the parts are displayed for each life factor. Such a life extension method is component information stored in advance in the device information storage area 5b as described above.

According to the present embodiment as described above, other parts having a remaining life longer than the self-life in each life factor are displayed as replacement candidate parts for the self-part. It is possible to exchange with other parts that have reached the end of their service life due to this life factor, so that a plurality of self-parts and other parts of the same type can be used effectively in a total (inclusive) manner.
Also, by displaying other parts with lower replacement costs as replacement candidate parts on the part replacement support image, it is possible to replace the own parts with other parts at a lower replacement cost, thereby reducing maintenance costs. Is possible.

In addition, this invention is not limited to the said embodiment, For example, the following modifications can be considered.
(1) In the above embodiment, the replacement object is a “part”, but the present invention is not limited to this. For example, when the present invention is applied to equipment composed of a plurality of devices, the object to be replaced is a device or / and a part constituting the device.

(2) In the above embodiment, replacement candidate parts are displayed on the display unit 6 as part replacement support images, but the present invention is not limited to this. For example, the replacement candidate part may be output to the communication unit 4 and transmitted to another information processing apparatus via the communication line N.

(3) In the above embodiment, the maintenance support device A1 has a function of calculating the remaining life of various components of the device B1, but the present invention is not limited to this. For example, the remaining lifetimes of various components calculated by other arithmetic devices may be stored in a USB or various disk storage media and mounted on the maintenance support device. Alternatively, the remaining lifetimes of various components calculated by other arithmetic devices may be taken into the maintenance support device via the communication line N and stored in the storage unit.

(4) Although the maintenance support devices A1 to A5 are provided as terminals interconnected via the communication line N in the above embodiment, the present invention is not limited to this. A maintenance support device is provided on the communication line N as a server instead of being attached to each device, and necessary information is obtained from a device management device attached to each device to calculate remaining life and extract replacement candidate parts. The replacement candidate part may be provided to the device management apparatus in response to a request from the device management apparatus.

(5) In the above embodiment, the operation history data is exchanged between the maintenance support devices A1 to A5, but the present invention is not limited to this. Since the remaining lifetimes of the various parts are obtained from the consumption lifetimes of various equipment obtained based on the operation history data, the consumption lifetime data of the various components may be exchanged instead of the operation history data.

  A1 to A5 ... maintenance support device, B1 ... device, C1 ... device management device (target status providing means), S ... maintenance support system, N ... communication line, 1 ... CPU, 2 ... operation information acquisition unit, 3 ... operation unit (Evaluation criteria designating means), 4... Communication part (data acquisition means, data transmission means, life calculation method acquisition means), 5... Storage part (remaining life storage means, life extension method storage means, life storage means, operation history storage means) ), 6 ... display section, 7 ... system bus

Claims (8)

Remaining life storage means for storing as a remaining life data for each life factor that is the reason for reaching the remaining life of a plurality of objects of the same type or compatibility,
Based on the remaining life data, replacement candidate extraction means for extracting other target objects that can extend the life of the target object as replacement candidates;
A maintenance support apparatus comprising: output means for outputting the replacement candidate extracted by the replacement candidate extraction means as maintenance support information. An evaluation criterion designating means for designating an evaluation criterion for each exchange candidate when there are a plurality of exchange candidates;
The maintenance support apparatus according to claim 1, wherein the output unit outputs each replacement candidate in an order based on the evaluation criterion designated by the evaluation criterion designation unit. It further comprises a life extension method storage means for storing the life extension method of the object for each life factor,
The maintenance support apparatus according to claim 1, wherein the output unit outputs a life extension method for each life factor. A maintenance support device attached to a specific object,
A lifetime storage means for storing lifetime data of a specific object;
Operation history storage means for storing the operation history of the specific object provided from the object state providing means attached to the specific object as operation history data;
A remaining life calculating means for calculating the remaining life of a specific object based on the operation history data and the life data for each life factor using a predetermined life calculating method;
Further comprising
The maintenance support apparatus according to claim 1, wherein the remaining life storage unit stores the remaining life of a specific object as one of the remaining life data. Data transmission means for transmitting operation history data relating to a specific object to the outside via a communication line;
Data acquisition means for acquiring operation history data regarding external objects or consumption life data for each life factor together with life data from the outside via the communication line;
Further comprising
The remaining life calculating means calculates the remaining life related to the external object based on the operation history data and life data related to the external object, or based on the consumption life data and life data related to the external object. The maintenance support device according to claim 4, wherein the maintenance support device calculates each time. It further comprises a consumption life calculating means for calculating the consumption life of a specific object based on operation history data regarding the specific object,
The maintenance support apparatus according to claim 5, wherein the data transmission unit transmits the consumption life of the specific object as consumption life data to the outside instead of the operation history data regarding the specific object. Further comprising a lifetime calculation method acquisition means for acquiring a lifetime calculation method from the outside via the communication line,
The remaining life storage means calculates the remaining life based on the life calculation method acquired by the life calculation method acquisition means,
The maintenance support device according to any one of claims 4 to 6, wherein the consumption life calculation means calculates a consumption life based on a life calculation method acquired by the life calculation method acquisition means.   A maintenance support system comprising a plurality of the maintenance support apparatuses according to any one of claims 5 to 7 interconnected via the communication line.

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