JP6463294B2 - Control data rewriting system - Google Patents

Description

  The present invention relates to a control data rewriting system that achieves efficient rewriting of control data for a managed property.

  Conventionally, when rewriting control parameters, control programs, and the like used by an elevator control device to control the operation of an elevator, rewriting of the program can be performed remotely without a specialized maintenance staff going to the site. (For example, refer to Patent Documents 1 and 2). Specifically, the remote monitoring center side and the elevator side are communicably connected via a telephone line via a remote monitoring device that monitors the state of the elevator, and the program is rewritten from the remote monitoring center side.

Japanese Patent No. 5699451 JP 2008-273730 A

  Here, the power supply on the elevator side may be turned off. Examples of the reason for turning off the power include the following reasons. First, depending on the use of a building where the elevator is installed (for example, a station, a house exhibition hall, etc.), the power is turned off at a time zone such as at night when the building is not used. Secondly, the power is turned off for equipment inspections that are performed during a certain period of time when the building is not used (for example, a tray, New Year, etc.). Third, a power failure occurs in the building due to heavy rain, lightning, etc., and the power is turned off.

  In this way, when the elevator power is off, a new program cannot be sent, so the program cannot be rewritten, or even if a new program can be sent, it may disappear before rewriting. is there.

  That is, even if an attempt is made to rewrite a program from the remote monitoring center side during a time period when the power supply on the elevator side is OFF, the rewriting fails. As a result, unnecessary telephone charges are incurred, and when rewriting a program for multiple managed properties, rewriting of the program for other managed properties is delayed. There is a problem that it cannot be performed efficiently.

  The prior art described in Patent Document 1 is configured to record the time zone of whether or not the telephone line is used, and to rewrite the program from outside by removing the telephone line usage time zone. However, in such a configuration, even when the elevator side power is turned off, if the telephone line is not in use hours, an attempt to rewrite the program from the outside is made, and as a result, the rewriting is performed. May fail. Thus, the prior art described in Patent Document 1 has room for improvement from the viewpoint of the efficiency of program rewriting.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to obtain a control data rewriting system that realizes efficient rewriting of control data for a managed property.

  The control data rewriting system according to the present invention controls the operation of the device according to the control data, and outputs a control power failure signal when the control device power supply is switched from ON to OFF as a control power supply signal indicating the power supply state of the control device power supply. , A control device that outputs a control power recovery signal when the control device power supply is switched from OFF to ON, and monitors the state of the device, and the monitoring device power supply is turned on as a monitoring power supply signal indicating the power supply state of the monitoring device power supply A control device that outputs a monitoring power failure signal when it is switched off and outputs a monitoring power recovery signal when the monitoring device power source is switched from OFF to ON, and a control data rewrite process that rewrites control data of the control device A control data rewriting device to be executed for the control device and the monitoring device are provided for each managed property, The control data rewriting device acquires a storage device, a control power signal output from the control device, and a monitor power signal output from the monitoring device, and each of the acquired control power signal and the monitor power signal is supplied to the control power source. Corresponding to the control device power supply based on the power supply history data generation unit that stores each signal and monitoring power supply signal in the storage device for each managed property as power history data in association with the acquired acquisition date and time, and the power supply history data for each managed property Power supply ON / OFF history data generation unit that generates control power ON / OFF history data to be monitored and monitoring power supply ON / OFF history data corresponding to the monitoring device power supply for each managed property, and a target to execute control data rewriting processing Set a managed property with a control device as a target managed property and execute the control data rewrite process Based on the control data rewrite setting unit for setting the time, the control power ON / OFF history data and the monitoring power ON / OFF history data for each target managed property, and the control device power and monitoring device power A control data rewrite date and time determination unit that determines that the execution date and time is not duplicated for each target managed property so that the date and time included in the specific date and time zone that is both ON is the execution date and time when the control data rewrite process is executed; A control data rewrite processing unit that executes the control data rewrite processing according to the execution date and time for each target managed property.

  ADVANTAGE OF THE INVENTION According to this invention, the control data rewriting system which implement | achieves the efficiency improvement of the rewriting of the control data with respect to a management article can be obtained.

It is a block diagram which shows the control data rewriting system in Embodiment 1 of this invention. It is explanatory drawing which shows an example of the control power ON / OFF log | history data of the management article A produced | generated by the power ON / OFF log | history data generation part of FIG. It is explanatory drawing which shows an example of the control power ON / OFF log | history data of the management article B produced | generated by the power ON / OFF log | history data generation part of FIG. It is explanatory drawing which shows an example of the control power ON / OFF log | history data of the management article C produced | generated by the power ON / OFF log | history data generation part of FIG.

  Hereinafter, a control data rewriting system according to the present invention will be described with reference to the drawings according to a preferred embodiment. In the description of the drawings, the same portions or corresponding portions are denoted by the same reference numerals, and redundant description is omitted. Moreover, in embodiment, the case where this invention is applied with respect to an elevator is illustrated.

Embodiment 1 FIG.
FIG. 1 is a configuration diagram showing a control data rewriting system according to Embodiment 1 of the present invention. FIG. 1 illustrates a case where three managed properties A to C are present in the control data rewriting system.

  In FIG. 1, the control data rewriting system includes a control device 1 and a monitoring device 2 provided in the management property A, a control device 1 and a monitoring device 2 provided in the management property B, and a control provided in the management property C. A device 1 and a monitoring device 2, a monitoring center device 3, and a control data rewriting device 4 are provided. Thus, the control device 1 and the monitoring device 2 are provided for each managed property A to C.

  The monitoring device 2 is communicably connected to the control device 1 and further connected to the monitoring center device 3 so as to be communicable. The control data rewriting device 4 is communicably connected to the monitoring center device 3 and further connected to the monitoring device 2 so as to be communicable. Note that a wired line or a wireless line may be used to connect the apparatuses so that they can communicate.

  The control device 1 has a storage device (not shown) that stores control data for controlling the operation of the elevator as a device. Here, the control data is data used when the control device 1 controls the operation of the elevator, and examples of the control data include a control program and a control parameter.

  The control device 1 controls the operation of the elevator according to control data stored in the storage device. Specifically, the control device 1 controls, for example, the operation of the elevator hoisting machine, the operation of the elevator car door, and the like as the operation of the elevator.

  The control device 1 outputs two types of power supply signals to the monitoring device 2 as control power supply signals indicating the power supply state of the control device power supply. The control device 1 outputs a control power failure signal as a control power source signal when the control device power source is switched from ON to OFF, and outputs a control power recovery signal when the control device power source is switched from OFF to ON.

  The monitoring device 2 monitors the state of the elevator as equipment, and outputs the monitoring result to the monitoring center device 3. Specifically, when an abnormality occurs in the elevator to be monitored by the monitoring device 2, an abnormality detection signal is output from the control device 1 that controls the operation of the elevator. The monitoring device 2 acquires the abnormality detection signal output from the control device 1 and outputs the abnormality detection signal to the monitoring center device 3.

  The monitoring device 2 outputs two types of power supply signals to the monitoring center device 3 as monitoring power supply signals indicating the power supply state of the monitoring device power supply. As the monitoring power supply signal, the monitoring device 2 outputs a monitoring power failure signal when the monitoring device power source is switched from ON to OFF, and outputs a monitoring power recovery signal when the monitoring device power source is switched from OFF to ON. In addition, the monitoring device 2 outputs a control power signal acquired from the control device 1 to the monitoring center device 3.

  The monitoring center device 3 is provided in a monitoring center that comprehensively monitors the elevators of each managed property. The monitoring center is generally installed remotely with respect to each managed property A to C. When the monitoring center device 3 acquires the abnormality detection signal from the monitoring device 2, the monitoring center device 3 notifies that an abnormality has occurred in the elevator of the managed property corresponding to the abnormality detection signal.

  The monitoring center device 3 outputs the control power signal acquired from the monitoring device 2 to the control data rewriting device 4. Similarly, the monitoring center device 3 outputs the monitoring power supply signal acquired from the monitoring device 2 to the control data rewriting device 4.

  The control data rewriting device 4 includes a storage device 41, a power history data generation unit 42, a power ON / OFF history data generation unit 43, a control data rewrite setting unit 44, a control data rewrite date determination unit 45, and control data A rewrite processing unit 46. The control data rewriting device 4 is realized by, for example, a CPU that executes a program stored in a memory and a processing circuit such as a system LSI. The control data rewriting device 4 may be provided in a facility different from the monitoring center or may be provided in the monitoring center.

  The power history data generating unit 42 acquires the control power signal output from the control device 1 and the monitoring power signal output from the monitoring device 2. The power history data generating unit 42 generates each of the acquired control power signal and monitoring power signal for each managed property A to C as power history data in association with the acquisition date and time when the control power signal and monitoring power signal are acquired. To do.

  Specifically, the power history data generating unit 42 includes a control power signal output from the control device 1 of each managed property A to C, and a monitor power signal output from the monitoring device 2 of each managed property A to C. To get. Further, the power history data generation unit 42 stores the power history data in the storage device 41 for each managed property A to C.

  The power supply ON / OFF history data generation unit 43 is configured to control power supply ON / OFF history data corresponding to the control device power supply and monitoring device power supply based on the power supply history data for each managed property A to C stored in the storage device 41. The monitoring power ON / OFF history data corresponding to is generated for each managed property A to C. Further, the power ON / OFF history data generation unit 43 stores the generated control power ON / OFF history data and monitoring power ON / OFF history data for each managed property A to C in the storage device 41.

  Here, the control power ON / OFF history data and the monitoring power ON / OFF history data for each managed property A to C will be described with reference to FIGS.

  FIG. 2 is an explanatory diagram showing an example of control power ON / OFF history data of the managed property A generated by the power ON / OFF history data generation unit 43 of FIG. FIG. 3 is an explanatory diagram showing an example of control power ON / OFF history data of the managed property B generated by the power ON / OFF history data generation unit 43 of FIG. FIG. 4 is an explanatory diagram showing an example of control power ON / OFF history data of the managed property C generated by the power ON / OFF history data generation unit 43 of FIG.

  2 to 4, the date / time zone with no hatching corresponds to the control power ON date / time zone when the control device power is ON, and the control device power is OFF for the shaded date / time zone. This corresponds to the control power supply OFF date / time zone.

  Here, consider the following case as the operation of the power history data generation unit 42 in the period from “0:00 on January 1” to “24 on December 31” in the previous year.

<Managed Property A>
The power history data generation unit 42 has not acquired a control power failure signal and a control power recovery signal in the previous year.
<Managed Property B>
The power history data generation unit 42 acquires a control power failure signal at “22:00 on August 14” in the previous year, and acquires a control power recovery signal at “6 on August 15”.
The power history data generation unit 42 acquires a control power failure signal at “20:00 on August 15” in the previous year, and acquires a control power recovery signal at “6 on August 16”.
<Managed Property C>
The power history data generation unit 42 acquires a control power failure signal at “12:00 on August 14” in the previous year, and acquires a control power recovery signal at “12:00 on August 16”.

  In the case described above, the power ON / OFF history data generation unit 43 generates the control power ON / OFF history data shown in FIG. In addition, the power ON / OFF history data generation unit 43, for the managed property B, the date and time zone from “22:00 on August 14” to “6 on August 15” and “22:00 on August 15”. 3 is generated as the control power source OFF date / time zone, and the other date / time zone is set as the control power source ON date / time zone, and the power ON / OFF history data shown in FIG. 3 is generated. Furthermore, the power ON / OFF history data generation unit 43 sets the date and time zone from “12:00 on August 14” to “12:00 on August 16” for the managed property C, and the control power OFF date and time zone other than that. Is set as the control power source ON date / time zone, and the power ON / OFF history data shown in FIG. 4 is generated.

  The power ON / OFF history data generation unit 43 generates monitoring power ON / OFF history data for each managed property A to C in the same process as the generation of the control power ON / OFF history data described above.

  The power ON / OFF history data generation unit 43 uses the latest power history data to store the control power ON / OFF each time the power history data generation unit 42 stores the latest power history data in the storage device 41. Update history data and monitoring power ON / OFF history data.

  As described above, the power ON / OFF history data generation unit 43 is based on the control power ON / OFF history data corresponding to the control device power based on the power history data for each managed property A to C stored in the storage device 41. The monitoring power source ON / OFF history data corresponding to the monitoring device power source is generated for each managed property A to C.

  Returning to the description of FIG. 1, the control data rewrite setting unit 44 sets the management property provided with the target control device 1 for executing the control data rewriting process for rewriting the control data of the control device 1 as the target management property. Specifically, the control data rewrite setting unit 44 sets the target managed property by an external command. For example, if an operator inputs a target managed property desired to be subjected to control data rewriting processing to the control device 1 through a terminal device (not shown), the control data rewriting setting unit 44 It is configured to set the target managed property.

  The control data rewrite setting unit 44 sets a scheduled execution date and time when the control data rewrite process is executed. For example, the control data rewrite setting unit 44 may be configured to set the date and time when the operator inputs the target managed property via the terminal device as the scheduled execution date and time, or the operator specified via the terminal device. The date and time may be set as the scheduled execution date and time.

  The control data rewrite date and time determination unit 45 determines the execution date and time when the control data rewrite processing is executed for each target managed property based on the control power ON / OFF history data and the monitoring power ON / OFF history data for each target managed property. . In this case, the control data rewriting date and time determination unit 45 determines the execution date and time for each target managed property so as not to overlap.

  More specifically, the control data rewrite date and time determination unit 45 is after the scheduled execution date and time set by the control data rewrite setting unit 44 and is included in a date and time zone in which both the control device power supply and the monitoring device power supply are ON. Is determined so that the execution date and time are not duplicated for each target managed property. Hereinafter, the date and time zone when both the control device power source and the monitoring device power source are ON is referred to as a “specific date and time zone”.

  Specifically, the control data rewrite date / time determination unit 45, when the scheduled execution date / time is included in the specific date / time zone in the control power ON / OFF history data and the monitoring power ON / OFF history data, Execution date and time.

  On the other hand, when the scheduled execution date / time is not included in the specific date / time zone, the control data rewrite date / time determining unit 45 sets the execution date / time as the execution date / time that is later than the scheduled execution date / time and included in the specific date / time zone. In particular, if the date and time that is later than the scheduled execution date and is included in the specific date and time and that is closest to the scheduled execution date and time is set as the execution date and time, it is possible to realize quick control data rewriting processing. Become.

  In the control power ON / OFF history data and the monitoring power ON / OFF history data, if there is no ON / OFF history data after the scheduled execution date set by the control data rewrite setting unit 44, the data is obtained up to the present time. Alternatively, the ON / OFF history data on and after the scheduled execution date may be predicted using the ON / OFF history data stored, and the execution date and time may be determined from the prediction result.

  The control data rewriting processing unit 46 executes the control data rewriting process according to the execution date and time for each target managed property determined by the control data rewriting date and time determination unit 45.

  Specifically, the control data rewrite processing unit 46 outputs new control data and a rewrite command signal to the monitoring device 2 in order from the target managed property with the earlier execution date and time. The monitoring device 2 outputs the new control data and rewrite command signal to the control device 1.

  When new control data and a rewrite command signal are input, the control device 1 rewrites the control data currently stored in the storage device to the new control data in accordance with the rewrite command signal. In this case, the control device 1 controls the operation of the elevator using the new control data.

  Next, an example of the operation of the control data rewrite date determination unit 45 and the control data rewrite processing unit 46 will be further described with reference to FIGS.

  Here, the power ON / OFF history data generation unit 43 generates the control power ON / OFF history data shown in FIGS. 2 to 4, and further controls the power ON / OFF shown in FIGS. It is assumed that the same monitoring power ON / OFF history data as the history data is generated. Further, the target managed properties set by the control data rewrite setting unit 44 are managed properties A to C, and the scheduled execution date and time set by the control data rewrite setting unit 44 is “3rd of August 15” of this year. It shall be.

  In the above case, the control data rewrite date / time determination unit 45 determines the execution date / time of the managed property A based on the control power ON / OFF history data and the monitored power ON / OFF history data (see FIG. 2) corresponding to the managed property A. To do. As can be seen from FIG. 2, in the control power ON / OFF history data and the monitoring power ON / OFF history data corresponding to the managed property A, the scheduled execution date “August 15 3:00” is included in the specific date and time zone. It is. In this case, the control data rewrite date and time determination unit 45 sets the execution date and time of the managed property A to “3 on August 15”.

  Further, the control data rewrite date / time determination unit 45 determines the execution date / time of the managed property B based on the control power ON / OFF history data and the monitoring power ON / OFF history data (see FIG. 3) corresponding to the managed property B. As can be seen from FIG. 3, in the control power ON / OFF history data and the monitoring power ON / OFF history data corresponding to the managed property B, the scheduled execution date “August 15 3:00” is included in the specific date and time zone. Not. In this case, the control data rewrite date / time determination unit 45 sets the execution date / time of the managed property B to “6/15”. This “August 15 6:00” is a date and time that is later than the scheduled date and time and is included in the specific date and time zone.

  Furthermore, the control data rewrite date / time determination unit 45 determines the execution date / time of the managed property C based on the control power ON / OFF history data and the monitoring power ON / OFF history data (see FIG. 4) corresponding to the managed property C. As can be seen from FIG. 3, in the control power ON / OFF history data and the monitoring power ON / OFF history data corresponding to the managed property C, the scheduled execution date “August 15 3:00” is included in the specific date and time zone. Not. In this case, the control data rewrite date / time determination unit 45 sets the execution date / time of the managed property B to “August 16, 12:00”. This “August 16, 12:00” is a date and time that is later than the scheduled date and time and is included in the specific date and time zone.

  Thus, according to the execution date and time for each target managed property determined by the control data rewrite date and time determination unit 45, the control data rewrite processing unit 46 executes the control data rewriting process. That is, the control data rewrite processing unit 46 performs the order of “managed property A” at “3 on August 15”, “managed property B” at “6 on August 15”, and “managed property C” at “12:00 on August 16”. Then, the control data rewriting process is executed.

  Next, another example of the operation of the control data rewrite date determination unit 45 and the control data rewrite processing unit 46 will be further described with reference to FIGS.

  Here, the power ON / OFF history data generation unit 43 generates the control power ON / OFF history data shown in FIGS. 2 to 4, and further controls the power ON / OFF shown in FIGS. It is assumed that the same monitoring power ON / OFF history data as the history data is generated. Further, the target managed properties set by the control data rewrite setting unit 44 are managed properties B and C, and the scheduled execution date and time set by the control data rewrite setting unit 44 is “August 16 at 15:00” of the current year. It shall be.

  In the above case, the control data rewrite date determination unit 45 determines the execution date of the managed property B based on the control power ON / OFF history data and the monitoring power ON / OFF history data (see FIG. 3) corresponding to the managed property B. To do. As can be seen from FIG. 3, in the control power ON / OFF history data and the monitoring power ON / OFF history data corresponding to the managed property B, the scheduled execution date “August 16, 15:00” is included in the specific date and time zone. It is.

  Further, the control data rewrite date / time determination unit 45 determines the execution date / time of the managed property C based on the control power ON / OFF history data and the monitoring power ON / OFF history data (see FIG. 4) corresponding to the managed property C. As can be seen from FIG. 4, in the control power ON / OFF history data and the monitoring power ON / OFF history data corresponding to the managed property C, the scheduled execution date “August 16, 15:00” is included in the specific date and time zone. It is.

  As described above, when the scheduled execution date / time is included in the specific date / time zone in each of the target managed properties, the execution date / time is adjusted so as not to overlap in each of the target managed properties. For example, the control data rewrite date / time determination unit 45 sets the execution date / time of the managed property B to “16 August 15:00”, and shifts the execution date of the managed property C from “August 16 15:00” by an arbitrary time. For example, “16 August, 16:00”.

  In the above case, the control data rewrite processing unit 46 executes the control data rewrite process in the order of the managed property B at “15:00 on August 16” and the managed property C at “16:00 on August 16”. In managed property A, since it is not set as a target managed property, the control data rewriting process is not executed.

  In the first embodiment, when the control data rewriting process is executed according to the execution date and time for each target managed property, it is confirmed that both the control device power source and the monitoring device power source are ON at the execution date and time. The control data rewriting process for the target managed property whose control device power supply or monitoring device power supply is turned off may be canceled.

  In this case, when executing the control data rewriting process, the control data rewriting processing unit 46 executes the control data rewriting process for the control device of the target managed property whose control device power supply or monitoring device power supply is turned off. To stop doing. Whether the control device power supply and the monitoring device power supply are ON or OFF can be confirmed from the control power supply signal and the monitoring power supply signal input to the control data rewriting device 4.

  In the first embodiment, the control data rewriting system includes the monitoring center device 3 that acquires the monitoring result of the elevator as the device from the monitoring device 2, and the power history data generation unit 42 is connected to the monitoring device from the control device 1. 2, the control power signal is acquired via the monitoring center device 3, and the monitoring power signal is acquired from the monitoring device 2 via the monitoring center device 3. However, in the control data rewriting system, the monitoring device 2 may be configured to directly output the control power signal and the monitoring power signal to the control data rewriting device 4 without going through the monitoring center device 3.

  As described above, according to the first embodiment, based on the control power source ON / OFF history data and the monitoring power source ON / OFF history data for each target managed property, the execution date is after the scheduled execution date and time, and the control device power source and the monitoring device power source are The execution date / time is determined not to be duplicated for each target managed property so that the date / time included in the specific date / time zone in which both are ON becomes the execution date / time, and the control data rewrite process is executed according to the execution date / time for each target managed property. It is configured as follows.

  By configuring in this way, it is possible to execute the control data rewriting process by removing the date and time zone when the power was turned off in the past, thus reducing unnecessary telephone charges and controlling when the power is turned off. Cases in which data rewrite processing is executed can be reduced. In addition, when rewriting control data for a plurality of managed properties, the time for completing rewriting of control data for all properties can be shortened. In this way, it is possible to realize an efficient rewriting of control data for a managed property.

  In addition, in this Embodiment 1, although the case where this invention was applied with respect to an elevator was illustrated, it is not limited to this, If the control data of the control apparatus which controls an apparatus are the forms which can be rewritten remotely, The present invention can be applied to any device other than an elevator.

  DESCRIPTION OF SYMBOLS 1 Control apparatus, 2 Monitoring apparatus, 3 Monitoring center apparatus, 4 Control data rewriting apparatus, 41 Storage apparatus, 42 Power supply history data generation part, 43 Power supply ON / OFF history data generation part, 44 Control data rewrite setting part, 45 Control data Rewrite date and time determination unit, 46 Control data rewrite processing unit.

Claims (5)

Controls the operation of the device according to the control data, and outputs a control power failure signal when the control device power is switched from ON to OFF as a control power signal indicating the power status of the control device power. A control device that outputs a control power recovery signal when switched to ON;
Monitors the state of the device, outputs a monitoring power failure signal when the monitoring device power is switched from ON to OFF as a monitoring power signal indicating the power status of the monitoring device power, and switches the monitoring device power from OFF to ON A monitoring device that outputs a monitoring power recovery signal when switched,
A control data rewriting device that executes a control data rewriting process for rewriting the control data of the control device on the control device;
With
The control device and the monitoring device are provided for each managed property,
The control data rewriting device is
A storage device;
The control power signal output from the control device and the monitoring power signal output from the monitoring device are acquired, and the acquired control power signal and the monitoring power signal are respectively converted into the control power signal and the monitoring power signal. A power supply history data generating unit that stores each of the monitored power supply signals in the storage device for each managed property as power supply history data in association with the acquisition date and time,
Based on the power history data for each managed property, control power ON / OFF history data corresponding to the control device power and monitoring power ON / OFF history data corresponding to the monitoring device power are provided for each managed property. A power ON / OFF history data generation unit to be generated;
A control data rewrite setting unit that sets the managed property provided with the control device to be subjected to the control data rewrite process as a target managed property, and sets a scheduled execution date and time at which the control data rewrite process is performed;
Based on the control power supply ON / OFF history data and the monitoring power supply ON / OFF history data for each target managed property, a specification that is after the scheduled execution date and time and that both the control device power supply and the monitoring device power supply are ON A control data rewrite date and time determination unit that determines that the execution date and time is not duplicated for each target managed property so that the date and time included in the date and time zone is the execution date and time when the control data rewrite process is executed;
A control data rewriting processing unit that executes the control data rewriting process according to the execution date and time for each target managed property;
A control data rewriting system. The control data rewrite date determination unit
When the execution date / time is included in the specific date / time zone, the execution date / time is set as the execution date / time,
2. The control data rewrite according to claim 1, wherein when the specific date and time zone does not include the scheduled execution date and time, the date and time later than the scheduled execution date and time and included in the specific date and time zone is the execution date and time. system. The control data rewrite processing unit
When executing the control data rewriting process, the control data rewriting process is stopped for the control apparatus of the target managed property for which the control apparatus power supply or the monitoring apparatus power supply is turned off. The control data rewriting system according to claim 1 or 2. A monitoring center device for acquiring a monitoring result of the state of the device from the monitoring device;
The power history data generator is
Obtaining the control power signal from the control device via the monitoring device and the monitoring center device;
The control data rewriting system according to any one of claims 1 to 3, wherein the monitoring power supply signal is acquired from the monitoring device via the monitoring center device. The control data rewriting system according to claim 1, wherein the device is an elevator.

Images