WO2017009894A1

WO2017009894A1 - Parameter setting system and parameter setting method

Info

Publication number: WO2017009894A1
Application number: PCT/JP2015/069875
Authority: WO
Inventors: 良太西岡
Original assignee: 三菱電機株式会社
Priority date: 2015-07-10
Filing date: 2015-07-10
Publication date: 2017-01-19
Also published as: CN107709219B; CN107709219A; JP6351850B2; JPWO2017009894A1

Abstract

The parameter setting system according to the present invention is provided with a control panel for controlling a passenger conveyor, and a setting device for setting a control parameter relating to control of the passenger conveyor in the control panel. The control panel has a control panel storage unit. The setting device has a read function unit for reading, as control panel information, control parameter change history information stored in the control panel storage unit, and a setting device storage unit in which a past control parameter included in the control panel information is stored as a setting parameter for setting in the control panel.

Description

Parameter setting system and parameter setting method

The present invention relates to a parameter setting system and a parameter setting method for setting a control parameter on a control panel for controlling a passenger conveyor such as an escalator or a moving sidewalk.

In a conventional passenger conveyor, for example, to change parameters such as step speed and boarding operation time, the changed parameters are manually input to the portable display device, and the input changed parameters are controlled by the portable display device. A method of setting the panel has been proposed (see Patent Document 1).

JP 2007-169023 A

However, in the portable display device disclosed in Patent Document 1, since it is necessary to manually input a large number of parameter values one by one, it takes time to change the parameters of the control panel.

Also, for example, when multiple passenger conveyors are installed in the same property, the same input operation must be performed repeatedly on multiple control panels to change the parameters, which is very laborious. Not only will this take place, but there is also a risk of incorrect input of parameters or forgetting to change some parameters.

The present invention has been made to solve the above-described problems, and can reduce the work of setting control parameters in the control panel for controlling the passenger conveyor and can control the control panel. It is an object of the present invention to obtain a parameter setting system that can set parameters more accurately.

A parameter setting system according to the present invention includes a control panel that controls a passenger conveyor, and a setting device that sets control parameters related to the control of the passenger conveyor in the control panel. The control panel includes a control panel storage unit. , A read function unit that reads control parameter change history information stored in the control panel storage unit as control panel information, and past control parameters included in the control panel information are stored as setting parameters to be set in the control panel And a setting device storage unit.

Moreover, the parameter setting system according to the present invention includes a plurality of control panels that individually control a plurality of passenger conveyors, and a setting device that sets control parameters relating to the control of the passenger conveyors to each control panel. The setting device includes a reading function unit that reads control parameter information stored in one of the control panel storage units as control panel information, and a control parameter included in the control panel information. And a setting device storage unit stored as a common setting parameter to be set in the control panel.

The parameter setting method according to the present invention is a parameter setting method for setting control parameters related to passenger conveyor control in a control panel, and information on control parameter change history stored in a control panel storage section of the control panel. After the control panel information is read from the control panel to the setting device, the past control parameters included in the control panel information are stored in the setting device storage unit of the setting device as setting parameters to be set in the control panel.

The parameter setting method according to the present invention is a parameter setting method for setting control parameters relating to passenger conveyor control in a plurality of control panels, and is stored in one of the control panel storage units of each control panel. Is read as control panel information from the control panel to the setting device, and the control parameters included in the control panel information are stored in the setting device storage unit of the setting device as common setting parameters to be set in each control panel.

According to the parameter setting system and the parameter setting method according to the present invention, when setting the control parameter in the control panel for controlling the passenger conveyor, the control parameter or the control parameter stored in the control panel storage unit of the control panel is changed. History can be used. As a result, manual input operations on the control panel can be reduced, the labor for setting control parameters on the control panel can be reduced, and control parameters can be set on the control panel more accurately. .

It is a block diagram which shows the escalator by Embodiment 1 of this invention. It is a block diagram which shows the state by which the setting apparatus is connected to the control panel of FIG. It is a block diagram which shows the control board and setting apparatus of FIG. It is a block diagram which shows the parameter setting system by Embodiment 2 of this invention. It is a block diagram which shows the parameter setting system by Embodiment 3 of this invention. It is a block diagram which shows the parameter setting system by Embodiment 4 of this invention. It is a block diagram which shows the parameter setting system by Embodiment 5 of this invention. It is a block diagram which shows the parameter setting system by Embodiment 6 of this invention.

Preferred embodiments of the present invention will be described below with reference to the drawings.
Embodiment 1 FIG.
1 is a block diagram showing an escalator according to Embodiment 1 of the present invention. In the figure, a truss 3 is supported between a lower floor building part 1 and an upper floor building part 2. The truss 3 supports a plurality of steps (not shown) connected endlessly. On the truss 3, a pair of balustrades 4 facing each other in the width direction of the truss 3 are provided. Each balustrade 4 supports an endless moving handrail 5.

An upper machine room 6 is provided at the upper end of the truss 3 in the longitudinal direction. The upper machine room 6 is provided with a control panel 7 that controls the operation of an escalator that is a passenger conveyor, and a drive machine (not shown) that is driven by the control of the control panel 7. Each step circulates between the lower floor building part 1 and the upper floor building part 2 by the driving force of the driving machine. Each moving handrail 5 moves around the path surrounding the balustrade 4 in synchronism with the steps by the driving force of the driving machine.

In this example, entrance / exit poles (not shown) to which a human sensor for detecting the presence or absence of a passenger is attached are installed in each of the lower-floor building part 1 and the upper-floor building part 2. The operation mode of the escalator is set in the ascending automatic operation mode in which an automatic operation is started in which a human sensor installed in the lower-floor building part 1 detects a passenger and starts to move up the steps. It is possible to switch between a descent automatic operation mode in which an automatic operation for starting a downward movement of a step is performed when the human sensor detected detects a passenger. If the duration of automatic driving in the state where no human sensor is detected exceeds the set time in any of the ascending automatic driving mode and the descending automatic driving mode, the movement of the step is stopped by the control of the control panel 7. The escalator goes into standby mode. That is, the escalator in this example starts automatic driving when a human sensor detects a passenger, and automatically enters a standby state when the duration of automatic driving after the human sensor detects the passenger exceeds a set time. It has become an escalator.

The control panel 7 has a plurality of control parameters related to escalator control. The control parameters include, for example, the speed of the step, the set time for the duration of the automatic operation from when the human sensor detects the passenger to the standby state, the time for refueling the step chain connecting the steps Parameters such as a set time with respect to the interval are listed. Setting of each control parameter to the control panel 7 can be executed by a setting device.

FIG. 2 is a configuration diagram showing a state in which the setting device 21 is connected to the control panel 7 of FIG. FIG. 3 is a configuration diagram showing the control board 8 and the setting device 21 of FIG. The control panel 7 has a control board 8 that performs processing related to the control of the escalator. As shown in FIG. 3, the control board 8 includes a control panel storage unit 9 and a control panel processing unit 10.

The control panel storage unit 9 includes a parameter storage unit 11 that stores a plurality of current control parameters used for escalator operation, and a history storage unit 12 that stores a plurality of past control parameters as control parameter change histories. Have. The operation of the escalator is controlled by the control panel 7 based on the control parameter information stored in the parameter storage unit 11.

The control panel processing unit 10 includes a writing function unit 13 that stores each control parameter in the parameter storage unit 11 and the history storage unit 12, and a reading function unit 14 that reads information from the parameter storage unit 11 and the history storage unit 12. ing.

In the parameter storage unit 11, a new control parameter is stored in the parameter storage unit 11, whereby the control parameter before the change is rewritten to a new control parameter. Thereby, the control parameter before the change set in the control panel 7 is updated to a new control parameter. Further, in the history storage unit 12, new control parameters are stored in the history storage unit 12 while the control parameters before the change remain as past control parameters. The history storage unit 12 stores past control parameters as control parameter change histories in association with past set dates.

The reading function unit 14 can selectively read the control parameter information stored in the parameter storage unit 11 and the control parameter change history information stored in the history storage unit 12 from the control panel storage unit 9. ing.

The control panel 7 is provided with a control panel connector (not shown), and the setting device 21 is provided with a setting device connector (not shown). The setting device 21 is attached to and detached from the control panel 7 when the setting device connector is connected to or disconnected from the control panel connector.

The setting device 21 sets a new control parameter in the control panel 7 by writing a new control parameter to the parameter storage unit 11 with the setting device connector connected to the control panel connector. The setting device 21 includes a setting device storage unit 22, a setting device processing unit 23, an operation unit 24, and a display unit 25.

The setting device storage unit 22 includes a parameter storage unit 26 that stores a plurality of control parameters set in the control panel 7 as setting parameters, and a history storage unit 27 that stores a change history of the control parameters. .

The setting device processing unit 23 stores the information stored in the control board storage unit 9 in the parameter storage unit 26 and the reading function unit 29 that reads the information stored in the control device 8 as control panel information through the reading function unit 14 of the control board 8. And a writing function unit 30 for writing the set parameters to the control panel storage unit 9 through the writing function unit 13 of the control board 8.

The read function unit 29 stores the control parameter information stored in the parameter storage unit 11 of the control board 8 in the setting device 21 as control panel information and the history storage unit 12 of the control board 8. And a history reading function unit 32 for reading the control parameter change history information into the setting device 21 as control panel information.

In the history storage unit 27, control parameter change history information read from the history storage unit 12 of the control board 8 to the setting device 21 is stored as control panel information. Therefore, the history storage unit 27 stores control parameter change history information that associates past control parameters with past set dates.

The operation unit 24 has a plurality of operation keys 33 as shown in FIG. The operation keys 33 include a numeric keypad for inputting numerical values, a direction key for moving the cursor displayed on the display unit 25, a cancel key for canceling the input content, an enter key for confirming the input content, and the like. Is used. The setting device processing unit 23 performs processing according to the operation of the operation unit 24 when the operation unit 24 is operated.

In the parameter storage unit 26, control parameter information that is control panel information read from the parameter storage unit 11 of the control board 8 to the setting device 21 is stored as a setting parameter. Information on control parameters stored as setting parameters in the parameter storage unit 26 can be changed by operating the operation unit 24. That is, in the parameter storage unit 26, a new control parameter is stored in the parameter storage unit 26 by the operation of the operation unit 24, whereby the control parameter before the change is rewritten to the new control parameter, and the new control parameter after the change is changed. The parameter is saved as a setting parameter. In the parameter storage unit 26, past control parameters included in the control parameter change history stored in the history storage unit 27 as control panel information are stored as setting parameters or stored in the parameter storage unit 26. A new control parameter after changing the control parameter information is saved as a setting parameter.

The display unit 25 displays information according to the operation of the operation unit 24. Accordingly, the display unit 25 can display, for example, information stored in the parameter storage unit 26, information stored in the history storage unit 27, and information on values input by operating the operation unit 24. ing. The parameter setting system includes a control panel 7 and a setting device 21.

Next, a parameter setting method when setting control parameters on the control panel 7 by the setting device 21 will be described. As the parameter setting method, a method for setting a new control parameter in the control panel 7 based on a control parameter change history stored in the history storage unit 12 and a method for setting each control parameter stored in the parameter storage unit 11 to each control parameter. And a method for setting a new control parameter based on this.

First, a method for setting a new control parameter in the control panel 7 based on the control parameter change history information stored in the history storage unit 12 will be described. In the escalator, for example, the duration of the automatic operation may be increased during the crowded period, and the duration of the automatic operation may be restored and shortened in order to reduce unnecessary operation during the quiet period. Further, in the escalator, the change time of the oil supply interval is shortened in summer in consideration of the change in the amount of oil evaporation, and in winter, the set time of the oil supply interval may be restored and lengthened. As described above, the control parameter of the control panel 7 may be returned to the past control parameter depending on changes in the escalator usage status, the environment around the escalator, and the like. In this case, the control parameter of the control panel 7 is updated by setting a new control parameter in the control panel 7 based on the control parameter change history information stored in the history storage unit 12.

When a new control parameter is set in the control panel 7 based on the control parameter change history information stored in the history storage unit 12, first, the setting device connector is connected to the control panel connector to control the setting device 21. After mounting on the panel 7, the control panel 7 is turned on. Thereafter, the “parameter history reading” option displayed on the display unit 25 is selected by operating the operation unit 24. As a result, the control parameter change history information is read from the history storage unit 12 of the control board 8 to the setting device 21 through the reading function unit 14, and the control parameter change history information is controlled by the history storage unit 27 of the setting device 21. Saved as board information. Note that when the control panel 7 is turned on, the control parameter change history information is automatically read from the control board 8 to the setting device 21 as control panel information without operating the operation unit 24. It may be.

Thereafter, the “setting from parameter history” option displayed on the display unit 25 is selected by operating the operation unit 24. As a result, past set dates included in the control panel information stored in the history storage unit 27 are displayed on the display unit 25.

After this, among the past setting dates displayed on the display unit 25, the setting date of the past control parameter to be returned to the original is selected by operating the operation unit 24. As a result, among the past control parameters included in the control panel information stored in the history storage unit 27, the past control parameters corresponding to the selected past set date are displayed on the display unit 25.

Thereafter, the past control parameters displayed on the display unit 25 are determined as setting parameters by operating the operation unit 24. At this time, before determining as setting parameters, after changing some values of a plurality of past control parameters by operating the operation unit 24, the new control parameters after the change may be determined as setting parameters. Good. As a result, the past control parameters determined by the setting device 21 are written as setting parameters in the parameter storage unit 26, and the control substrate 8 is written through the writing function unit 30 of the setting device 21 and the writing function unit 13 of the control substrate 8. It is written in the parameter storage unit 11. Thereby, the past control parameter is set in the control panel 7 as a new control parameter.

Next, a method for setting a new control parameter based on the control parameter stored in the parameter storage unit 11 will be described. When setting a new control parameter in the control panel 7 based on the control parameter stored in the parameter storage unit 11, first, the setting device connector is connected to the control panel connector in the same manner as the setting from the control parameter change history. After the setting device 21 is attached to the control panel 7, the control panel 7 is turned on. Thereafter, the “reading of control parameters” option displayed on the display unit 25 is selected by operating the operation unit 24. As a result, each current control parameter is read as control panel information from the parameter storage unit 11 of the control board 8 to the setting device 21 through the reading function unit 14 of the control board 8, and information on the current control parameter as control panel information is obtained. It is stored as a setting parameter in the parameter storage unit 26 of the setting device 21. When the control panel 7 is turned on, the current control parameter information is automatically read as control panel information from the control board 8 to the setting device 21 without operating the operation unit 24. May be.

Thereafter, the “control parameter change” option displayed on the display unit 25 is selected by operating the operation unit 24. Thereby, a plurality of control parameters are displayed on the display unit 25 in a state corresponding to different numbers.

Thereafter, the control parameter to be changed is selected from among the plurality of control parameters by operating the operation unit 24, and the changed value is input by operating the operation unit 24. At this time, when changing the values of two or more control parameters, the control parameter selection operation and the changed value input operation are repeated for each control parameter.

Thereafter, when the input for changing the control parameter is completed, the operation unit 24 is operated to determine the new control parameter after the change as a setting parameter. Thereby, the new control parameter after the change determined by the setting device 21 is stored as a setting parameter in the parameter storage unit 26, and also through the writing function unit 30 of the setting device 21 and the writing function unit 13 of the control board 8. It is written in the parameter storage unit 11. As a result, a new control parameter after change in which some values of each control parameter are changed is set in the control panel 7.

In such a parameter setting system, the control parameter change history information can be stored in the control panel storage unit 9, and the setting device 21 uses the control parameter change history information as control panel information as a control panel storage unit. 9 includes a reading function unit 29 that reads from the control unit 9 and a setting device storage unit 22 in which past control parameters included in the control panel information are stored as setting parameters to be set in the control panel 7. When the current control parameter set to 7 is changed back to the previous control parameter, the control parameter change history information can be used. As a result, the operation of manually inputting the control parameter value to the setting device 21 can be eliminated, and the labor of setting the control parameter on the control panel 7 can be reduced. In addition, since it is not necessary to manually input control parameter values to the setting device 21, it is possible to prevent, for example, erroneous input of control parameters or forgetting to change some of the plurality of control parameters. It is possible to set a new control parameter in the control panel 7 more accurately.

Further, each control parameter stored in the parameter storage unit 11 of the control panel storage unit 9 is read into the setting device 21 as control panel information by the reading function unit 29 and set in the parameter storage unit 26 of the setting device storage unit 22. Since some values of each control parameter, which is control panel information stored as parameters, can be changed by operating the operation unit 24, some of the current control parameters set in the control panel 7 are changed. When changing, the control panel information stored in the control panel storage unit 9 can be used. As a result, it is possible to reduce the work of setting the control parameter on the control panel 7 and to set the new control parameter after the change on the control panel 7 more accurately.

In such a parameter setting method, the control parameter change history information stored in the control panel storage unit 9 is read as control panel information from the control panel 7 to the setting device 21 and then included in the control panel information. Since past control parameters are stored in the setting device storage unit 22 as setting parameters to be set in the control panel 7, for example, when changing the current control parameters set in the control panel 7 back to the past control parameters In addition, it is possible to use the control parameter change history information. Thereby, the labor of setting the control parameter on the control panel 7 can be reduced. Further, for example, it is possible to prevent erroneous input of control parameters or to forget to change some of the plurality of control parameters, so that new control parameters can be set on the control panel 7 more accurately. it can.

Embodiment 2. FIG.
FIG. 4 is a block diagram showing a parameter setting system according to Embodiment 2 of the present invention. The control panel 7 is provided with a transmission / reception unit 41. The setting device 21 is provided with a transmission / reception unit 42. Control panel information sent from the control panel 7 to the setting device 21 (that is, control parameter information and control parameter change history information) and setting parameter information sent from the setting device 21 to the control panel 7 are transmitted and received. Wireless communication is possible between the unit 41 and the transmission / reception unit 42. Thereby, the control panel 7 and the setting device 21 can transmit and receive the control parameter information, the control parameter change history information, and the setting parameter information to each other by wireless communication. The other configuration and the procedure for setting the control parameter to the control panel 7 are the same as those in the first embodiment.

As described above, the control panel 7 and the setting device 21 can transmit and receive the control parameter information, the control parameter change history information, and the setting parameter information to each other by wireless communication. It is possible to set a new control parameter on the control panel 7 while operating the setting device 21 at a new location. Thereby, the trouble of attaching the setting device 21 to the control panel 7 can be eliminated, and the trouble of setting the control parameter on the control panel 7 can be further reduced.

Embodiment 3 FIG.
FIG. 5 is a block diagram showing a parameter setting system according to Embodiment 3 of the present invention. The control panel 7 is provided with a transmission / reception unit 43. The setting device 21 is provided with a transmission / reception unit 44. The transmission / reception unit 43 and the transmission / reception unit 44 are connected via a communication cable 45. For example, a LAN cable or the like is used as the communication cable 45. The control parameter information, the control parameter change history information, and the setting parameter information can be communicated between the transmission / reception unit 43 and the transmission / reception unit 44 via the communication cable 45. Thereby, the control panel 7 and the setting device 21 can transmit and receive the control parameter information, the control parameter change history information, and the setting parameter information to each other via the communication cable 45. The other configuration and the procedure for setting the control parameter to the control panel 7 are the same as those in the first embodiment.

As described above, the control panel 7 and the setting device 21 can transmit and receive the control parameter information, the control parameter change history information, and the setting parameter information to each other via the communication cable 45. The setting device 21 can be operated at a remote location, and the work of setting the control parameter on the control panel 7 can be further reduced. In addition, transmission / reception of information between the control panel 7 and the setting device 21 can be performed more reliably.

Embodiment 4 FIG.
FIG. 6 is a block diagram showing a parameter setting system according to Embodiment 4 of the present invention. In the present embodiment, the parameter setting system includes a plurality of control panels 7 that individually control the operation of the plurality of escalators. In this example, two escalators are installed in a building, and two control panels 7 that individually control the operation of the two escalators are included in the parameter setting system. The configuration of each control panel 7 and setting device 21 is the same as that of the first embodiment.

In this example, one of the control panels 7 is a reference control panel, and the other control panel 7 other than the reference control panel is a non-reference control panel. Control parameter information and control parameter change history information are stored in the control panel storage unit 9 of one control panel 7 which is a reference control panel.

The setting device 21 can read the control parameter information stored in the control panel storage unit 9 of one control panel 7 which is a reference control panel as control panel information by the parameter reading function unit 31. The control parameter change history information stored in the control panel storage unit 9 of the control panel 7 can be read by the history reading function unit 32 as control panel information. The history storage unit 27 of the setting device 21 stores control parameter change history information read from one control panel 7. Further, in the parameter storage unit 26 of the setting device 21, control parameters read as control panel information from one control panel 7 or new control parameters obtained in the same manner as in the first embodiment are stored in each control panel 7. Are saved as common setting parameters.

In the parameter storage unit 11 of the other control panel 7, which is a non-reference control panel, control parameters stored as common setting parameters in the parameter storage unit 26 of the setting device 21 are written by the setting device 21. . Other configurations are the same as those in the first embodiment.

Next, a parameter setting method when setting control parameters in each control panel 7 by the setting device 21 will be described. Control parameter information and control parameter change history information are stored in the control panel storage unit 9 of one control panel 7 which is a reference control panel. The control parameter set in one control panel 7 may be changed by the setting device 21 as in the first embodiment, or may not be changed by the setting device 21.

When the control parameter set in one control panel 7 is changed by the setting device 21, the control parameter information or the control parameter change history information is transferred from the one control panel 7 to the setting device 21 as control panel information. The new control parameters obtained from the control panel information in the same manner as in the first embodiment are read and stored in the parameter storage unit 26 of the setting device 21 as common setting parameters set in each control panel 7 in the same manner as in the first embodiment. Thereafter, the control parameters stored in the parameter storage unit 26 as common setting parameters are written in the parameter storage unit 11 of the control board 8. As a result, a new control parameter which is a common setting parameter is set in one control panel 7.

When the control parameter set in one control panel 7 is not changed, the control parameter information set in one control panel 7 is read as control panel information from one control panel 7 to the setting device 21. Each control parameter included in the read control panel information is stored in the parameter storage unit 26 of the setting device 21 as it is as a common setting parameter to be set in each control panel 7.

Thereafter, control parameters are set on the other control panel 7 which is a non-reference control panel by the setting device 21. When setting a control parameter in the other control panel 7, the setting device 21 is removed from one control panel 7 and connected to the other control panel 7, and then the other control panel 7 is turned on.

Thereafter, the “all parameter writing” option displayed on the display unit 25 of the setting device 21 is selected by operating the operation unit 24. As a result, the control parameter stored as a common setting parameter in the parameter storage unit 26 of the setting device 21 is written to the parameter storage unit 11 of the control panel storage unit 9 of the other control panel 7. As a result, control parameters common to the control panels 7 are set in the other control panel 7.

In such a parameter setting system, a new control parameter obtained from control parameter information or control parameter change history information read as control panel information from one of the control panel storage units 9 of the plurality of control panels 7, Alternatively, control parameters included in the control panel information read from the control panel storage unit 9 of any of the plurality of control panels 7 are stored in the setting device storage unit 22 of the setting device 21 as setting parameters common to the control panels 7. Therefore, the control parameters can be set for each of the control panels 7 by using the control parameter information set in any of the control panels 7 or the control parameter change history information. Thus, for example, when a plurality of escalators are installed in the same building and the same control parameter is set in a plurality of control panels 7, a common setting parameter stored in the setting device storage unit 22 is copied to each control. You can write on the board 7. As a result, the operation of manually setting the control parameters for each control panel 7 can be eliminated, and the labor for setting the control parameters for each of the control panels 7 can be reduced. Further, since it is not necessary to manually input the control parameter value to the setting device 21, the control parameter can be set to each control panel 7 more accurately.

In such a parameter setting method, after reading control parameter information or control parameter change history information from one of the control panel storage units 9 of the plurality of control panels 7 into the setting device 21 as control panel information, A new control parameter obtained from the control panel information read into the setting device 21 or a control parameter included in the control panel information read from any one of the control panel storage units 9 of the plurality of control panels 7 is assigned to each control panel 7. Are stored in the setting device storage unit 22 of the setting device 21 as common setting parameters, so that information on a plurality of control parameters or control parameter change history information set in any one of the control panels 7 is used. Thus, control parameters can be set for each control panel 7. As a result, when setting the same control parameter to a plurality of control panels 7, the common setting parameters stored in the setting device storage unit 22 can be copied and written to each control panel 7. It is possible to reduce the work of setting the control parameter for each of the above. Further, since it is not necessary to manually input the control parameter value to the setting device 21, the control parameter can be set to each control panel 7 more accurately.

Embodiment 5 FIG.
FIG. 7 is a block diagram showing a parameter setting system according to Embodiment 5 of the present invention. In the present embodiment, as in the fourth embodiment, the parameter setting system includes a plurality of control panels 7 that individually control the operation of the plurality of escalators. In this example, two control panels 7 are included in the parameter setting system.

The setting device 21 can read the control parameter information stored in the control panel storage unit 9 of one control panel 7 which is a reference control panel as control panel information by the parameter reading function unit 31. The control parameter change history information stored in the control panel storage unit 9 of the control panel 7 can be read by the history reading function unit 32 as control panel information. The history storage unit 27 of the setting device 21 stores control parameter change history information read from one control panel 7. Furthermore, in the parameter storage unit 26 of the setting device 21, control parameters included in the control parameter information read from the one control panel 7 or new control parameters obtained in the same manner as in the first embodiment are stored. It is stored as a common setting parameter to be set in the control panel 7.

Each of the plurality of control panels 7 is provided with a transmission / reception unit 46. The transmission / reception units 46 are connected to each other via a communication cable 47. As the communication cable 47, for example, a LAN cable or the like is used. Information of control parameters stored as common setting parameters in the setting device storage unit 22 can be communicated between the transmission / reception units 46 via the communication cable 47. As a result, the plurality of control panels 7 can transmit / receive information on setting parameters to each other via the communication cable 47.

Next, a parameter setting method when setting control parameters in each control panel 7 by the setting device 21 will be described. First, the control parameter information set in one control panel 7 which is a reference control panel is read into the setting device 21 and the control parameters obtained in the same manner as in the fourth embodiment are set in each control panel 7. Are stored in the parameter storage unit 26 of the setting device 21 as common setting parameters.

Thereafter, the “all parameter writing” option displayed on the display unit 25 of the setting device 21 is selected by operating the operation unit 24. As a result, the control parameter stored as the setting parameter in the parameter storage unit 26 of the setting device 21 is written into the parameter storage unit 11 of one control panel 7. At this time, information on common setting parameters is sent from one control panel 7 to the other control panel 7 via the communication cable 47, and one control panel is also sent to the parameter storage unit 11 of the other control panel 7. The same control parameter as the control parameter 7 is written. As a result, a common setting parameter is set in each control panel 7.

In such a parameter setting system, since a plurality of control panels 7 can transmit / receive common setting parameter information to / from each other, the setting parameter information from the setting device 21 to any one of the plurality of control panels 7. Can be sent to other control panels 7, and common setting parameters can be set to all control panels 7. As a result, it is possible to further reduce the labor of setting the control parameter for each control panel 7 and to set the control parameter to each control panel 7 more accurately.

Embodiment 6 FIG.
FIG. 8 is a block diagram showing a parameter setting system according to Embodiment 6 of the present invention. In the present embodiment, the parameter setting system includes a plurality of control panels 7 that individually control the operation of a plurality of escalators, and a plurality of setting devices 21 that are individually attached to each control panel 7. In this example, two control panels 7 and two setting devices 21 individually attached to each control panel 7 are included in the parameter setting system.

Among the setting devices 21, one setting device 21 attached to one control panel 7 serving as a reference control panel stores information on control parameters stored in the control panel storage unit 9 of one control panel 7. The parameter reading function unit 31 can read the control panel information as control panel information, and the history of the control parameter change history stored in the control panel storage unit 9 of one control panel 7 is used as the control panel information. Can be read. The history storage unit 27 of one setting device 21 stores control parameter change history information read from one control panel 7. Furthermore, in the parameter storage unit 26 of one setting device 21, control parameters included in the control parameter information read from one control panel 7 or new control parameters obtained in the same manner as in the first embodiment are stored. These are stored as common setting parameters set in each control panel 7.

Each transmitting / receiving unit 48 is provided in each setting device 21. The transmission / reception units 48 are connected to each other via a communication cable 49. As the communication cable 49, for example, a LAN cable or the like is used. Information of control parameters stored as common setting parameters in the setting device storage unit 22 can be communicated between the transmission / reception units 48 via the communication cable 49. As a result, the plurality of control panels 7 can transmit / receive setting parameter information to / from each other via the communication cable 49.

In the parameter storage unit 11 of the other control panel 7, which is a non-reference control panel, control parameters stored as common setting parameters in the parameter storage unit 26 of one setting device 21 are written by the setting device 21. ing. Other configurations are the same as those in the first embodiment.

Next, a parameter setting method when setting control parameters in each control panel 7 by the setting device 21 will be described. First, control parameter information set in one control panel 7 which is a reference control panel is read as control panel information into the setting device 21 and the control parameters obtained from the control panel information in the same manner as in the fourth embodiment. Is stored in the parameter storage unit 26 of the setting device 21 as a common setting parameter to be set in each control panel 7.

Thereafter, the “all parameter writing” option displayed on the display unit 25 of the setting device 21 is selected by operating the operation unit 24. Thereby, the common setting parameters stored in the parameter storage unit 26 of one setting device 21 are sent to one control panel 7 and the other control is performed via the communication cable 49 and the other setting device 21. Also sent to board 7. As a result, a common setting parameter is set in each control panel 7.

In such a parameter setting system, a plurality of setting devices 21 individually attached to the plurality of control panels 7 can transmit / receive setting parameter information to / from each other. On the other hand, the setting parameter information can be sent to any of the control panels 7 from any of the plurality of setting devices 21 without changing the connection, and the common setting parameters can be set to all the control panels 7. . As a result, it is possible to further reduce the labor of setting the control parameter for each control panel 7 and to set the control parameter to each control panel 7 more accurately.

In Embodiments 4 to 6, two control panels 7 are included in the parameter setting system, but three or more control panels 7 may be included in the parameter setting system. In this case, the control parameter information or the control parameter change history information is read by the setting device 21 from any one of the control panels 7, and the common setting parameters stored in the setting device 21 are stored in the control devices. It is written on the board 7.

In the fourth to sixth embodiments, the setting device 21 is attached to the control panel 7 so that the control parameter information, the control parameter change history information, and the setting parameter information are transmitted between the control panel 7 and the setting device 21. As in the second embodiment, control parameter information, control parameter change history information, and setting parameter information are transmitted between the control panel 7 and the setting device 21 as in the second embodiment. As in the third embodiment, the control parameter information, the control parameter change history information, and the setting parameter information may be transmitted between the control panel 7 and the setting device 21 as in the third embodiment. Transmission / reception may be possible through a communication cable.

In the third, fifth, and sixth embodiments, information communication is performed using a communication cable. However, information communication may be performed using wireless communication instead of the communication cable.

In each of the above embodiments, the functions of the function units 30 to 32 of the setting device processing unit 23 are executed according to the operation of the operation unit 24. However, the setting device processing unit is operated by remote operation through communication. The functions of the 23 functional units 30 to 32 may be executed.

In each of the above embodiments, the present invention is applied to an escalator. However, the present invention may be applied to a moving sidewalk that is a passenger conveyor.

Claims

A control panel for controlling the passenger conveyor, and a setting device for setting control parameters relating to the control of the passenger conveyor in the control panel,
The control panel has a control panel storage unit,
The setting device includes a read function unit for reading control parameter change history information stored in the control panel storage unit as control panel information, and past control parameters included in the control panel information in the control panel. A parameter setting system having a setting device storage unit stored as a setting parameter to be set.
A plurality of the control panels,
The reading function unit reads the control panel information stored in one of the control panel storage units into the setting device,
The parameter setting system according to claim 1, wherein the past control parameter is stored in the setting device storage unit as the common setting parameter to be set in each of the control panels.
A plurality of control panels that individually control a plurality of passenger conveyors, and a setting device that sets control parameters related to the control of passenger conveyors to each of the control panels,
Each of the control panels has a control panel storage unit,
The setting device includes a read function unit that reads control parameter information stored in one of the control panel storage units as control panel information, and a control parameter included in the control panel information is stored in each control panel. A parameter setting system having a setting device storage unit stored as a common setting parameter to be set.
The parameter setting system according to any one of claims 1 to 3, wherein the control panel and the setting device are capable of transmitting and receiving the control panel information and the setting parameter information to each other by wireless communication.
4. The parameter setting system according to claim 2 or 3, wherein the plurality of control panels are capable of transmitting and receiving information on the setting parameter to each other.
The setting devices are respectively attached to the plurality of control panels,
The parameter setting system according to claim 2 or 3, wherein each of the setting devices is capable of transmitting and receiving information on the setting parameter.
A parameter setting method for setting control parameters related to passenger conveyor control in a control panel,
After reading the control parameter change history information stored in the control panel storage unit of the control panel from the control panel to the setting device as control panel information, the past control parameters included in the control panel information, A parameter setting method for storing in a setting device storage unit of the setting device as a setting parameter to be set in the control panel.
A parameter setting method for setting control parameters related to passenger conveyor control in a plurality of control panels,
After reading control parameter information stored in one of the control panel storage units of each control panel from the control panel to the setting device as control panel information, the control parameters included in the control panel information are A parameter setting method for storing in a setting device storage unit of the setting device as a common setting parameter to be set in the control panel.