CN118062677A - Elevator control device, elevator control system, and elevator control setting method - Google Patents

Abstract

The invention provides an elevator control device, an elevator control system and an elevator control setting method, which can set the invalidity of a call button at any time without causing passengers to be trapped on the floor. An elevator control device for setting control of an elevator based on setting information input from a terminal device, comprising: an elevator information storage unit that stores floor information of an elevator; a destination floor registration invalidation setting storage unit that stores whether or not destination floor registration for floors stored in the elevator information storage unit has been invalidated; and a screen configuration unit that outputs, to the terminal device, a floor stored as a destination floor registration invalidation floor in the destination floor registration invalidation setting storage unit as a floor on which a change of a hall call invalidation setting is possible.

Description

Elevator control device, elevator control system, and elevator control setting method

Technical Field

The present invention relates to an elevator control device, an elevator control system, and an elevator control setting method.

Background

As a technique related to an elevator control device, an elevator control system, and an elevator control setting method, there is a technique disclosed in patent document 1 below. Patent document 1 describes the following: a landing call button provided at a landing; an indication device which is arranged in the car room and indicates an invalid landing call button; and a control unit for invalidating the landing call button based on the instruction from the instruction device. … … can deactivate the call button of a desired floor from within the car room, so that fire extinguishing and rescue operations can be smoothly performed in the event of a fire.

In addition to the fire extinguishing and rescue activities described above, it is assumed that the invalidation of call registration of an elevator is performed for the purpose of preventing general customers from entering a floor under construction or a shop floor after closing a shop. In this case, in the technique described in patent document 1, only the landing call button is deactivated. Therefore, the user in the car can designate the floor on which the landing call button is deactivated as the destination floor by the operation of the car call button, and can enter the designated floor. However, since the landing call button of the floor is deactivated, it cannot be moved away from the floor by the elevator. Thus, it occurs that passengers are trapped at the floor.

Patent document 1: japanese patent application laid-open No. 2012-180200

Disclosure of Invention

Accordingly, an object of the present invention is to provide an elevator control device, an elevator control system, and an elevator control setting method that can perform invalid setting of call registration at any time without causing passengers to get trapped on the floor.

In order to solve the above problems, for example, a structure described in the patent protection scope is adopted.

The present application includes a plurality of means for solving the above-mentioned problems, and as an example thereof, is an elevator control device for performing elevator control setting based on setting information input from a terminal device, comprising: an elevator information storage unit that stores floor information of an elevator; a destination floor registration invalidation setting storage unit that stores whether or not destination floor registration for floors stored in the elevator information storage unit has been invalidated; and a screen configuration unit that outputs, to the terminal device, a floor stored as a destination floor registration invalidation floor in the destination floor registration invalidation setting storage unit as a floor on which a change of a hall call invalidation setting is possible.

According to the present invention, it is possible to provide an elevator control device, an elevator control system, and an elevator control setting method, which can perform invalidation setting of call registration at any time without causing passengers to get trapped on the floor.

Drawings

Fig. 1 is a block diagram of an elevator control system according to an embodiment.

Fig. 2 is a flowchart showing an elevator control setting method according to an embodiment.

Fig. 3 is a flowchart showing the construction process of the call registration invalidation setting screen according to the first embodiment.

Fig. 4 shows an example of the invalid setting screen constructed in the first embodiment.

Fig. 5 is a flowchart showing the first call registration invalidation setting process according to the first embodiment.

Fig. 6 is a flowchart showing the second call registration invalidation setting process according to the first embodiment.

Fig. 7 shows a remote control main screen of an elevator according to a second embodiment.

Fig. 8 is a flowchart showing a construction process of the call registration invalidation setting screen according to the second embodiment.

Fig. 9 shows a guidance screen displayed in the second embodiment.

Fig. 10 shows a destination layer registration invalidation setting screen constructed in the second embodiment.

Fig. 11 shows an example of the destination layer registration invalidation setting screen constructed in the second embodiment.

Fig. 12 shows an example of a hall call invalidation setting screen constructed in the second embodiment.

Detailed Description

Hereinafter, embodiments of an elevator control device, an elevator control system, and an elevator control setting method to which the present invention is applied will be described in detail with reference to the drawings. In the embodiments, the same components are denoted by the same reference numerals, and overlapping description of the same components is omitted.

Elevator control System

Fig. 1 is a block diagram of an elevator control system according to an embodiment. The elevator control system 1 shown in the figure is a system for controlling invalidation of call registration (not shown) provided in the elevator apparatus 2. The call registration has a destination floor registration to register a destination floor of the elevator and a landing call registration to call the elevator to a floor on which the elevator is landed. The destination floor registration is generally registered from a car button provided in the car of the elevator apparatus 2, and the landing call registration is registered from a landing button provided at a landing, but the registration method is not limited. For example, destination floor registration and landing call registration can be performed from a landing registration destination floor or using a smart phone or the like. The invalidation of call registration means, for example, that even if a call button of a specific floor among call buttons provided in the elevator apparatus 2 is pressed, the car cannot be moved in and out of the specific floor, and that the call button of the specific floor cannot be pressed.

The elevator control system 1 includes a screen display terminal 10, a remote control server 30, a remote control terminal 50, and an elevator control device 70. These screen display terminal 10, remote control server 30, remote control terminal 50, and elevator control device 70 are configured by a computer. As hardware used in a so-called computer, the computer includes a nonvolatile Memory unit such as a CPU (Central Processing Unit: central processing unit), a RAM (Random Access Memory: random access Memory), and a ROM (Read Only Memory), and also includes a network interface. These are connected via communication lines 21, 22, 23, for example. The following describes the configuration of the screen display terminal 10, the remote control server 30, the remote control terminal 50, and the elevator control device 70 included in the elevator control system 1.

(Screen display terminal 10)

The screen display terminal 10 is a terminal device for performing call registration invalidation setting, and is a terminal device held or carried by, for example, the manager H of the elevator apparatus 2. The screen display terminal 10 has a display unit for displaying a setting screen for invalidating call registration. The display unit may be, for example, a display unit that serves as an input unit capable of performing a tap operation or a touch operation, or a display unit that can perform an input by a click operation performed by operating a mouse or a keyboard.

The screen display terminal 10 is connected to the remote control server 30 via the communication line 21, and displays a setting screen for invalidating call registration in response to an instruction from the remote control server 30. In addition, the screen display terminal 10 transmits information set by a tap operation (hereinafter also including a touch operation or a click operation) of an icon (also referred to as a button or a title (canner)) displayed on the setting screen to the remote control server 30 via the communication line 21. The details of the setting screen displayed on the screen display terminal 10 will be described in the following elevator control setting method.

(Remote control Server 30)

The remote control server 30 is a control server for constructing a setting screen for call registration invalidation. The remote control server 30 includes a screen configuration unit 31, an elevator information storage unit 32, a destination floor registration invalidation setting storage unit 33, and a control terminal communication unit 34.

[ Screen construction section 31]

The screen configuration unit 31 is a part for constructing a setting screen for invalidating call registration displayed on the screen display terminal 10, and stores a program for constructing the setting screen in a nonvolatile storage unit. The screen configuration unit 31 performs processing based on the setting information from the screen display terminal 10 and the information stored in the elevator information storage unit 32 and the destination floor registration invalidation setting storage unit 33 in the order of the stored program, thereby constructing a setting screen, and transmits the constructed setting screen to the screen display terminal 10. Details of the construction process of the setting screen performed by the screen construction unit 31 will be described in the following elevator control setting method.

[ Elevator information storage section 32]

The elevator information storage unit 32 is a part of the floor information d1 of the elevator apparatus 2 that stores settings for invalidating call registration. The floor information d1 is an elevator floor at which the car of the elevator apparatus 2 can stop, and is a floor number which can be set for invalidation/non-invalidation of call registration. The floor information d1 is information set in advance by an input from the screen display terminal 10, for example.

[ Destination layer registration invalidation setting storage section 33]

The destination layer registration invalidation setting storage unit 33 is a part that stores setting information of the call registration invalidation set last time. The setting information stored in the destination-layer-registration invalidation setting storage section 33 is destination-layer-registration invalidation layer information [ d2] and landing-call invalidation layer information [ d3]. The destination floor registration invalid floor information d2 is information related to a floor which is a setting of a destination floor which cannot be specified as the elevator apparatus 2. The landing call invalid landing information d3 is information on a floor to be set such that a landing call for calling an elevator to a floor on which the elevator is to be landed cannot be made. The destination layer registration invalidation layer information d2 and the hall call invalidation layer information d3 are setting information for invalidating the call registration set in the current situation by the previous setting and are information set by the screen display terminal 10.

[ Control terminal communication section 34]

The control terminal communication unit 34 transmits the destination-layer registration invalid layer information [ d2] and the hall call invalid layer information [ d3] stored in the destination-layer registration invalid setting storage unit 33 to the remote control terminal 50 via the communication line 22.

(Remote control terminal 50)

The remote control terminal 50 is a terminal device for remotely controlling the operation of the elevator apparatus 2, and is, for example, a terminal device provided in a management center for remotely managing the operation of the elevator apparatus 2. The remote control terminal 50 includes a communication unit 51, a destination layer registration invalidation setting storage unit 52, and a control unit 53.

[ Communication section 51]

The communication unit 51 receives setting information from the control terminal communication unit 34 of the remote control server 30 via the communication line 22. The setting information received from the control terminal communication section 34 is destination layer registration invalid layer information [ d2] and layer station call invalid layer information [ d3].

[ Destination layer registration invalidation setting storage section 52]

The destination-layer-registration invalidation-setting storage section 52 stores the destination-layer-registration invalidation-layer information [ d2] and the hall call invalidation-layer information [ d3] received by the communication section 51.

[ Control section 53]

The control unit 53 controls the operation of the elevator apparatus 2 based on the destination floor registration invalid layer information [ d2] and the hall call invalid layer information [ d3] stored in the destination floor registration invalid setting storage unit 52. In this case, the control unit 53 transmits the destination floor registration invalid layer information [ d2] and the hall call invalid layer information [ d3] stored in the destination floor registration invalid setting storage unit 52 to the elevator control device 70 included in the elevator apparatus 2 via the communication line 23.

(Elevator control device 70)

The elevator control device 70 is provided in the elevator device 2, and controls the operation of the elevator device 2 including the travel of the car of the elevator device 2 and the opening and closing of the car door. The elevator control device 70 controls the operation of the elevator device 2 based on the destination floor registration invalidation floor information [ d2] and the landing call invalidation floor information [ d3] transmitted from the remote control terminal 50 so that the call registration of the floor set as the invalidation floor is invalidated.

Specifically, the elevator control device 70 controls the operation of the elevator device 2 such that, even if a car button of a floor set in the destination floor registration invalid floor information [ d2] is pressed, the car cannot stop at the floor or cannot get off the car. In addition, the operation of the elevator apparatus 2 is controlled so that even if a landing button of a floor set in the landing call invalid floor information [ d3] is pressed, the car cannot stop at the floor or cannot ride on the car.

The components of the remote control terminal 50 described above may be included in the elevator control device 70. In this case, the setting information from the remote control server 30 is transmitted to the elevator control device 70.

Method for setting elevator control (first embodiment)

Next, a first embodiment of an elevator control setting method executed by the elevator control system 1 described above will be described.

Fig. 2 is a flowchart showing an elevator control setting method according to an embodiment. The steps shown in the flowchart are steps for setting the call registration invalidation of the elevator apparatus 2 according to the program of each part of the elevator control system 1 described with reference to fig. 1. The steps of the elevator control setting method will be described below with reference to fig. 1 and other drawings, according to the flowchart of fig. 2.

(Step S0 (FIG. 2))

In step S0, the screen configuration unit 31 of the remote control server 30 determines whether or not the call registration invalidation setting has been started. The screen configuration unit 31 performs this determination based on information input by, for example, an operation of the screen display terminal 10.

In this case, for example, a destination floor registration/landing call setting screen icon is displayed on the screen display terminal 10. When the destination floor registration/landing call setting screen icon displayed on the screen display terminal 10 is tapped, the screen configuration unit 31 determines that the call registration invalidation setting has been started (yes), and proceeds to the next step S1. And repeating the judgment.

(Step S1 (FIG. 2))

In step S1, the screen configuration unit 31 of the remote control server 30 executes the construction process of the call registration invalidation setting screen. The screen constructing unit 31 performs a process of constructing a call registration invalidation setting screen based on the floor information [ d1] stored in the elevator information storage unit 32 and the destination-floor registration invalidation layer information [ d2] and the hall call invalidation layer information [ d3] stored in the destination-floor registration invalidation setting storage unit 33.

Fig. 3 is a flowchart showing the construction process of the call registration invalidation setting screen according to the first embodiment, and shows the detailed procedure of the construction process of the call registration invalidation setting screen in step S1 shown in fig. 2. Fig. 4 shows an example of the call registration invalidation setting screen 200 constructed in the first embodiment, and is a screen finally constructed by the flow of fig. 3. Here, first, referring to fig. 1, a call registration invalidation setting screen 200 constructed by the screen constructing unit 31 in this step S1 will be described with reference to fig. 4.

The call registration invalidation setting screen 200 shown in fig. 4 is a screen for setting destination floor registration and invalidation of a landing call of the elevator apparatus 2 for each floor, and shows, as an example, a case of all 5 floors (floor information [ d1] =5). The call registration invalidation setting screen 200 displays an invalidation destination floor registration invalidation setting section 200a for setting destination floor registration for each floor and an invalidation hall call invalidation setting section 200b for setting hall call for each floor.

Here, destination-stratum-registration invalidation setting icons 201a to 205a for setting invalidation of destination stratum registration corresponding to each floor are displayed in the destination-stratum-registration invalidation setting section 200 a. The destination floor registration invalidation setting icons 201a to 205a are displayed in accordance with the current setting status, and can determine whether each floor is set as an invalidation floor or not set as an invalidation floor. In the illustrated example, destination-layer registration invalidation setting icons 201a to 204a corresponding to layers 1 to 4 are setting displays of invalidation layers, and destination-layer registration invalidation setting icon 205a corresponding to layer 5 is a non-setting display of invalidation layers.

All of the destination layer registration invalidation setting icons 201a to 205a are activated icons that can change the invalidation setting by a flick operation, and the setting of the invalidation layer is changed from non-setting to setting by a flick operation, or vice versa.

The hall call invalidation setting section 200b displays hall call invalidation setting icons 201b to 205b for setting invalidation of hall calls corresponding to the floors. The hall call invalid setting icons 201b to 205b are displayed in accordance with the current setting status to determine whether the icons are activated or deactivated and whether the icons are set as invalid or not. In the hall call deactivation setting icons 201b to 205b, only the activated icon that is activated and displayed can be changed in setting and setting display by a flick operation, and the deactivated icon that is deactivated and displayed is in a state where the flick operation cannot be performed.

In the illustrated example, the hall call invalid setting icons 201b to 204b corresponding to the 1 to 4 layers are activated, and the setting state to the invalid layer is not set. On the other hand, the landing call deactivation setting icon 205b corresponding to the 5 layers is inactive.

That is, the screen configuration unit 31 (see fig. 1) activates only the landing call invalidation setting icons 201b to 204b for floors (here, 1 to 4 floors) on which the destination floor registration invalidation setting icons 201a to 205a are displayed for setting of the invalidation floor. On the other hand, the hall call invalidation setting icon 205b for the floor (here, 5 floors) on which the destination floor registration invalidation setting icons 201a to 205a are displayed as the invalidation floor non-setting is deactivated. The setting state to the invalid layer of all the inactive icons (here, the hall call invalid setting icon 205 b) among the hall call invalid setting icons 201b to 205b is not set.

Further, the destination-layer registration invalidation setting icons 201a to 205a are displayed as active or inactive, but inactive ones of the destination-layer registration invalidation setting icons 201a to 205a may be displayed as inactive.

The call registration invalidation setting screen 200 may set the hall call invalidation setting icon 205b corresponding to a floor (here, 5 floors) of the destination floor registration invalidation setting icons 201a to 205a, which is not set to be displayed as an invalidation floor, to be non-displayed. The inactive state in which the setting change of the inactive layer cannot be performed can be set by setting the inactive layer to the inactive state, and this is the same in the subsequent inactive setting screen.

The steps of the construction process of the call registration invalidation setting screen 200 shown in fig. 4 will be described below with reference to fig. 1 and 4 in the order shown in the flow chart of fig. 3.

Step S101 (FIG. 3)

In step S101, the screen configuration unit 31 acquires the floor information [ d1] from the elevator information storage unit 32, and acquires the destination-floor-registration invalid-layer information [ d2] and the hall-call invalid-layer information [ d3] from the destination-floor-registration invalid-setting storage unit 33 as current setting information.

Step S102 (FIG. 3)

In step S102, the screen configuration unit 31 performs processing for setting the currently set confirmation floor to the lowest floor.

Step S103 (FIG. 3)

In step S103, the screen configuration unit 31 performs a determination to confirm whether or not the floor is set as the destination-floor registration invalid floor, based on the information acquired in step S101. When determining that the destination layer registration invalid layer is set (yes), the screen configuration unit 31 proceeds to step S104. In the example shown in fig. 4, if it is confirmed that the floor is any one of the floors 1 to 4, it is determined that the floor is set as the destination floor registration invalid floor (yes), and the flow proceeds to step S104.

On the other hand, when it is determined that the target layer registration invalid layer is not set (no), the flow advances to step S104a. In the example shown in fig. 4, when the check floor is 5 floors, it is determined that the destination floor registration invalid floor is not set (no), and the flow proceeds to step S104a.

Step S104 (FIG. 3)

In step S104, the screen configuration unit 31 activates the hall call deactivation setting icon for checking the floor to display it as an activation. Then, the process advances to step S105.

Step S104a (FIG. 3)

On the other hand, in step S104a, the screen configuration unit 31 deactivates the hall call deactivation setting icon for checking the floor, and causes the hall call deactivation setting icon to be displayed as inactive. Then, the process advances to step S105.

Step S105 (FIG. 3)

In step S105, the screen configuration unit 31 determines whether or not the floor is the uppermost floor, and if it is determined that the floor is the uppermost floor (yes), the process ends. On the other hand, when it is determined that the layer is not the uppermost layer (no), the flow advances to step S106.

Step S106 (FIG. 3)

In step S106, the screen configuration unit 31 executes the addition processing of the confirmation floor +1, and returns to step S103.

Through the above-described processing, in the call registration invalidation setting screen 200 shown in fig. 4, the activation and deactivation of the hall call invalidation setting icons 201b to 205b for each floor in the hall call setting section 200b are set, and the processing is ended.

In addition to the above-described construction process of the call registration invalidation setting screen shown in fig. 3, the screen construction unit 31 sets the destination registration invalidation setting icons 201a to 205a of each floor displayed in the destination registration invalidation setting unit 200a to be set or non-set based on the destination registration invalidation layer information [ d2] acquired from the destination registration invalidation setting storage unit 33. The hall call invalidation setting icons 201b to 205b of the respective floors displayed in the hall call invalidation setting section 200b are set to be displayed or not set to be displayed based on the hall call invalidation layer information d3 acquired from the destination hall registration invalidation setting storage section 33. In this case, the setting display or non-setting display is set only for the landing call invalidation setting icons 201b to 204b of the floors determined to be activated according to the flow of fig. 3, and the construction process of the call registration invalidation setting screen 200 shown in fig. 4 is ended (step S1 of fig. 2). Then, the process advances to step S2 of fig. 2.

(Step S2 (FIG. 2))

In step S2, the screen configuration unit 31 performs a call registration invalidation setting process. In this case, the screen configuration unit 31 performs the call registration invalidation setting process based on the operation information of the call registration invalidation setting screen 200 constructed in the preceding step S1 and displayed on the screen display terminal 10. The call registration invalidation setting process is the first to third processes described below. These first to third processes are repeatedly performed at the same time and at high speed.

First treatment

Fig. 5 is a flowchart showing the first call registration invalidation setting process according to the first embodiment, and shows the first process executed in step S2 in fig. 2. The first process is described below in the order shown in the flow chart of fig. 5.

Step S201a (FIG. 5)

In step S201a, the screen configuration unit 31 determines whether or not any one of the destination-layer-registration invalid setting icons 201a to 205a has been tapped, and the destination-layer-registration invalid setting for any one floor is changed from non-setting to setting or from setting to non-setting. If it is determined that the change has been made (yes), the routine proceeds to step S202a, and otherwise the determination is repeated.

Step S202a (FIG. 5)

In step S202a, the screen configuration unit 31 activates the hall call deactivation setting icon for the floor whose setting of the deactivated floor was changed from the non-setting to the setting in step S201a, and changes the setting to the activation display. In step S201a, the screen configuration unit 31 deactivates the hall call deactivation setting icon for the floor whose setting of the deactivated floor is changed from the setting to the non-setting, and changes the setting to the non-activation display.

Step S203a (FIG. 5)

In step S203a, the screen configuration unit 31 overlays the change of the destination registration invalidation of the floor set in step S201a on the destination registration invalidation layer information d2 of the destination registration invalidation setting storage unit 33, saves the change, and ends the processing.

Here, when the invalid setting for the destination floor registration is changed from the setting to the non-setting, it is also possible to determine whether or not the invalid setting for the destination floor registration can be changed by referring to the invalid setting for the landing call. In this case, the floor set as the invalid floor for the landing call is set to be a floor where the invalid setting for the destination floor registration cannot be changed. When a change of the invalid setting for the destination floor registration is requested, a request may be made to change the invalid setting for the landing call first. With this configuration, it is possible to prevent a situation where only a landing call is invalidated and the landing call is closed.

Second treatment

Fig. 6 is a flowchart showing the second call registration invalidation setting process according to the first embodiment, and shows the second process executed in step S2 in fig. 2. The second process is described below in the order shown in the flow chart of fig. 6.

Step S201c (FIG. 6)

In step S201c, the screen configuration unit 31 determines whether or not any one of the landing call invalidation setting icons 201b to 205b has been tapped to change the landing call invalidation setting of any one floor. If it is determined that the change has been made (yes), the routine proceeds to step S202c, and otherwise the determination is repeated.

Step S202c (FIG. 6)

In step S202c, the screen configuration unit 31 changes the display of the landing call invalidation setting icon for the floor in which the setting of the invalidation layer was changed from the setting to the non-setting or from the non-setting to the setting in step S201 c.

Step S203c (FIG. 6)

In step S203c, the screen configuration unit 31 overlays the change of the setting of the hall call invalidation of the floor whose setting was changed in step S201c onto the hall call invalidation layer information d3 of the destination floor registration invalidation setting storage unit 33, saves the same, and ends the processing.

(Step S3 (FIG. 2))

Returning to the flow of fig. 2, in step S3, the screen configuration unit 31 determines whether or not the call registration invalidation setting process is completed. For example, when the registration icon 206 displayed on the call registration invalidation setting screen 200 in fig. 4 is tapped, the screen configuration unit 31 determines that the call registration invalidation setting process is completed (yes), and proceeds to step S4. On the other hand, before the login icon 206 is tapped, the process returns to step S2 to repeat the call login invalidation setting process.

(Step S4 (FIG. 2))

In step S4, the control terminal communication unit 34 transmits the destination-layer registration invalid layer information [ d2] and the hall call invalid layer information [ d3] stored in the destination-layer registration invalid setting storage unit 33 in a covering manner to the remote control terminal 50 (see fig. 1).

Thus, the destination-layer registration invalidation layer information [ d2] and the hall call invalidation layer information [ d3] received by the communication section 51 of the remote control terminal 50 are stored in the destination-layer registration invalidation setting storage section 52 of the remote control terminal 50 in a covering manner. Then, the elevator control device 70 controls the operation of the elevator device 2 based on the destination floor registration invalidation floor information [ d2] and the landing call invalidation floor information [ d3] stored in the destination floor registration invalidation setting storage section 52 of the remote control terminal 50 so that the call registration of the floor set as the invalidation floor is invalidated.

(Effects of the first embodiment)

According to the first embodiment described above, it is possible to perform the flick operation only on the hall call invalidation setting icons 201b to 204b corresponding to floors at which the destination floor registration is invalidated by the operation of the destination floor registration invalidation setting icons 201a to 205a among the hall call invalidation setting icons 201b to 205 b. Therefore, only the landing call of the floor on which the destination floor registration is invalidated can be set as the invalid floor. Thus, the floor at which the landing call is invalidated necessarily invalidates the destination floor registration, thereby preventing passengers from entering the floor at which the landing call is invalidated. As a result, passengers can be prevented from getting trapped on the floor, and invalid settings for call registration can be made at any time.

Method for setting elevator control (second embodiment)

Next, a second embodiment of an elevator control setting method implemented by the elevator control system 1 will be described. The elevator control setting method of the second embodiment is different from the elevator control setting method of the first embodiment in that the determination of the setting start in step S0 'of fig. 2 is the same as the construction process of the call registration invalidation setting screen in step S1', and other steps are the same. Therefore, the steps of the elevator control setting method will be described below with reference to fig. 1 and other drawings, according to the flowchart of fig. 2, which is similar to the first embodiment.

(Step S0' (FIG. 2))

In step S0', the screen configuration unit 31 of the remote control server 30 determines whether or not the call registration invalidation setting has been started. The screen configuration unit 31 is similar to the first embodiment in that it performs this determination based on information input by an operation of the screen display terminal 10, for example.

Fig. 7 shows a main screen for remote control of an elevator according to the second embodiment, which is an example of a screen displayed on the screen display terminal 10. In this elevator remote control main screen 100', for example, a destination floor registration setting screen icon 101' and a landing call setting screen icon 102' are displayed. When the destination floor registration setting screen icon 101 'is tapped, a destination floor registration invalidation setting screen described later is displayed, and when the landing call setting screen icon 102' is tapped, a landing call invalidation setting screen described later is displayed.

In this step S0', as an example, when any icon displayed on the elevator remote control main screen 100' shown in fig. 7 is tapped, the screen configuration unit 31 determines that the call registration invalidation setting has been started (yes), and proceeds to the next step S1'. And repeating the judgment.

(Step S1' (FIG. 2))

In step S1', the screen configuration unit 31 of the remote control server 30 executes the construction process of the call registration invalidation setting screen. The screen constructing unit 31 (see fig. 1) executes a process of constructing a call registration invalidation setting screen based on the floor information [ d1] stored in the elevator information storage unit 32 and the destination-floor-registration invalidation-layer information [ d2] and the hall call invalidation-layer information [ d3] stored in the destination-floor-registration invalidation setting storage unit 33.

Fig. 8 is a flowchart showing the construction process of the call registration invalidation setting screen according to the second embodiment, and shows the detailed procedure of the construction process of the call registration invalidation setting screen in step S1' shown in fig. 2. The flowchart shown in fig. 8 is a configuration in which steps S101a to S101c are added between step S101 and step S102 in the flowchart of fig. 3 described in the first embodiment. Therefore, the steps of the construction process of the call registration invalidation setting screen will be described with reference to fig. 1 and other figures in the order shown in the flow chart of fig. 8, without repeated description of the same steps as the flow chart of fig. 3.

Step S101 (FIG. 8)

In step S101, the screen configuration unit 31 acquires the floor information [ d1] from the elevator information storage unit 32, and acquires the destination-floor-registration invalid-layer information [ d2] and the hall-call invalid-layer information [ d3] from the destination-floor-registration invalid-setting storage unit 33 as current setting information.

Step S101a (FIG. 8)

In step S101a, the screen configuration unit 31 determines whether or not there is a setting of the destination layer registration invalid layer. The screen configuration unit 31 determines that there is a setting (yes) of the destination-layer-registration invalid layer if there are even 1 floors set as the destination-layer-registration invalid layer based on the destination-layer-registration invalid layer information [ d2] in the setting information acquired in step S101, and proceeds to step S102. On the other hand, when none of the floors 1 set as the destination registration invalid floors is found, the screen configuration unit 31 determines that no destination registration invalid floors are set (no), and the flow advances to step S101b.

Step S101b (FIG. 8)

In step S101b, the screen configuration unit 31 causes the screen display terminal 10 to display a guide screen for guiding to the destination layer registration invalidation setting screen. Fig. 9 shows a guide screen 300 displayed in the second embodiment. As shown in the figure, the screen configuration unit 31 causes the screen display terminal 10 to display a guide screen 300 for prompting the destination layer registration invalidation setting. A shortcut 301 for shifting to a car button invalidation setting screen described later is displayed on the guide screen 300.

By performing a flick operation on the shortcut 301 displayed on the guide screen 300 in accordance with the display of the guide screen 300, the screen display terminal 10 can display a destination-layer registration invalidation setting screen (see fig. 10 below) to perform invalidation setting of destination-layer registration.

Fig. 10 shows a destination layer registration invalidation setting screen 200a' constructed in the second embodiment. As shown in fig. 10, destination-layer registration invalidation setting icons 201a to 205a, a registration icon 206, and a return icon 207 for setting invalidation of destination-layer registration corresponding to each floor are displayed on the destination-layer registration invalidation setting screen 200a'. The registration icon 206 is an icon for registering an invalid setting. The return icon 207 is an icon for returning to the elevator remote control home screen 100' shown in fig. 7.

All of the destination layer registration invalidation setting icons 201a to 205a are activated icons whose setting and setting display are changed by a flick operation, and the setting of the invalidation layer is changed from non-setting to setting or vice versa by a flick operation. The destination layer registration invalidation setting icons 201a to 205a are displayed for determining whether to set an invalidation layer or not set an invalidation layer. When the destination-layer-registration invalidation setting screen 200a' of fig. 10 is displayed by the flick operation of the shortcut 301 shown in fig. 9, all the destination-layer-registration invalidation setting icons 201a to 205a are displayed as non-setting.

The manager H of the elevator apparatus 2 can perform the invalidation setting of the destination floor registration by performing a tap operation on an icon of the destination floor among the destination floor registration invalidation setting icons 201a to 205a on the destination floor registration invalidation setting screen 200a' displayed on the screen display terminal 10.

Step S101c (FIG. 8)

In step S101c, the screen configuration unit 31 deactivates the hall call deactivation setting icons of all floors in the hall call deactivation setting screen described later, and causes them to be displayed as deactivated. After that, the process ends.

Step S102 (FIG. 8)

In step S101a, steps S102 to S106, which are performed as a setting (yes) of the destination layer registration invalid layer, are performed in the same manner as the steps described in the first embodiment.

Fig. 11 shows an example of the destination layer registration invalidation setting screen 200a' constructed in the second embodiment. Fig. 12 shows an example of the hall call invalidation setting screen 200b' constructed in the second embodiment. On the landing call invalidation setting screen 200b' of fig. 12, landing call invalidation setting icons 201b to 205b, registration icon 206, and return icon 207 for setting invalidation of a landing call corresponding to each floor are displayed. The registration icon 206 is an icon for registering an invalid setting. The return icon 207 is an icon for returning to the elevator remote control home screen 100' shown in fig. 7. The destination layer registration invalidation setting screen 200a 'and the hall call invalidation setting screen 200b' shown in fig. 11 and 12 are examples of the screens constructed in steps S102 to S106.

As shown in fig. 11 and 12, the screen configuration unit 31 activates only the landing call invalidation setting icons 201b to 204b of floors (1 to 4 floors in this case) displayed for setting of the invalidation layer among the destination layer registration invalidation setting icons 201a to 205 a. On the other hand, the hall call invalidation setting icon 205b of the floor (here, 5 floors) of the destination floor registration invalidation setting icons 201a to 205a, which is not displayed for the invalidation floor setting, is set to be inactive. Note that, all of the hall call invalid setting icons 201b to 205b (here, the hall call invalid setting icon 205 b) are inactive, and the setting state to the invalid hall is not set.

In the hall call invalidation setting screen, the hall call invalidation setting icons 205b for floors (here, 5 floors) for which the destination floor registration invalidation setting icons 201a to 205a shown in fig. 11 are not set as invalidation floors may be set as non-display. By setting the inactive state to the inactive state, the setting of the inactive layer can be set to be unchanged.

After the above-described steps S101 to S106 (step S1 in fig. 2) are completed, the flow proceeds to step S2 in fig. 2. Step S2 is performed in the same manner as the steps described in the first embodiment.

(Effects of the second embodiment)

According to the second embodiment described above, it is possible to perform the flick operation only on the hall call invalidation setting icons 201b to 205b corresponding to floors at which the destination floor registration is invalidated by the operation of the destination floor registration invalidation setting icons 201a to 205a among the hall call invalidation setting icons 201b to 205 b. Therefore, as in the first embodiment, passengers can be prevented from getting trapped on the floor, and invalid settings for call registration can be made at any time.

The present invention is not limited to the above-described embodiments and modifications, and includes various modifications. For example, the above-described embodiments are embodiments described in detail for the purpose of easily explaining the present invention, and are not necessarily limited to having all the configurations described. In addition, a part of the structure of one embodiment may be replaced with the structure of another embodiment, and the structure of another embodiment may be added to the structure of one embodiment. In addition, some of the structures of the embodiments may be added, deleted, or replaced with other structures.

Description of the reference numerals

1 … Elevator control system

2 … Elevator device

10 … Picture display terminal (terminal device)

21. 22, 23 … Communication circuit

30 … Remote control server (control server)

31 … Picture forming part

32 … Elevator information storage

33 … Destination layer registration invalidation setting storage section

50 … Remote control terminal (control part)

70 … Control device (control unit)

200 … Call registration invalidation settings Screen

200A' … destination layer registration invalidation setting screen

200B' … landing call invalidation setting screen

201A to 205a … destination layer registration invalidation setting icon

201 B-205 b … landing call invalidation setting icon

300 … Guide screen

[D1] … floor information (Elevator floor)

[D2] … destination layer registration invalid layer information (setting information)

[D3] … the landing calls invalid layer information (setting information).

Claims (10)

1. An elevator control device for setting control of an elevator based on setting information inputted from a terminal device,

It is characterized in that the method comprises the steps of,

The elevator control device comprises:

An elevator information storage unit that stores floor information of an elevator;

A destination floor registration invalidation setting storage unit that stores whether or not destination floor registration for floors stored in the elevator information storage unit has been invalidated; and

And a screen configuration unit that outputs, to the terminal device, the floor stored as the destination floor registration invalidation layer in the destination floor registration invalidation setting storage unit as a floor on which the hall call invalidation setting can be changed.

2. The elevator control device according to claim 1, characterized in that,

The destination floor registration invalidation setting storage section stores whether or not a landing call for a floor stored in the elevator information storage section has been invalidated,

The screen configuration unit outputs, to the terminal device, a floor, which is stored as a hall call invalid floor in the destination floor registration invalid setting storage unit, among floors stored as destination floor registration invalid floors in the destination floor registration invalid setting storage unit as floors on which a change in destination floor registration invalid setting cannot be made.

3. The elevator control device of claim 2, wherein,

When a floor change input is made from the terminal device, the screen configuration unit outputs to the terminal device that the change cannot be performed.

4. The elevator control device according to claim 3, wherein,

The screen configuration unit outputs a screen for invalidating the setting,

The screen output from the screen configuration unit has an input unit for setting, for each floor, the destination floor registration and invalidation of the landing call, respectively.

5. The elevator control device of claim 4, wherein,

The screen configuration unit outputs a screen in which an icon indicating a floor where setting change of an invalid floor is possible is activated and an icon in which setting change is not possible is deactivated.

6. The elevator control device according to claim 5, wherein,

The screen configuration unit outputs a screen that can identify a floor where setting change of an invalid floor is possible and a floor where setting change is not possible.

7. The elevator control device of claim 6, wherein,

The screen configuration unit outputs a screen for displaying a floor for which the setting change is not possible.

8. The elevator control device according to claim 1, characterized in that,

The screen configuration outputs a destination floor registration invalidation setting screen and a landing call invalidation setting screen respectively,

When there is no floor where destination registration is invalidated, a guide screen for guiding to a screen for destination registration invalidation setting is displayed on a display unit of the terminal device.

9. An elevator control system is provided with:

A terminal device for setting control of the elevator device; and

A control unit for controlling the operation of the elevator based on the setting information in the terminal device, characterized in that,

The terminal device has an input section for setting, for each floor, destination floor registration for registering a destination floor of the elevator and invalidation of a landing call for calling the elevator to a landing,

The input unit is configured to be able to set, as an invalid floor, only a landing button of a floor where a car button is invalidated among call buttons.

10. A control setting method of an elevator, which sets the control of the elevator based on setting information input from a terminal device,

It is characterized in that the method comprises the steps of,

When a car button provided in a car and a landing button provided in a landing are invalidated for each floor among call buttons based on an input from an input unit of the terminal device, the input unit can set only the landing button of the floor on which the car button is invalidated as an invalid floor.