WO2020049712A1 - Platform operation panel - Google Patents

Platform operation panel Download PDF

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Publication number
WO2020049712A1
WO2020049712A1 PCT/JP2018/033180 JP2018033180W WO2020049712A1 WO 2020049712 A1 WO2020049712 A1 WO 2020049712A1 JP 2018033180 W JP2018033180 W JP 2018033180W WO 2020049712 A1 WO2020049712 A1 WO 2020049712A1
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WO
WIPO (PCT)
Prior art keywords
floor
destination floor
button
display device
touch sensor
Prior art date
Application number
PCT/JP2018/033180
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French (fr)
Japanese (ja)
Inventor
英之 小川
拓也 山田
Original Assignee
三菱電機株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by 三菱電機株式会社 filed Critical 三菱電機株式会社
Priority to PCT/JP2018/033180 priority Critical patent/WO2020049712A1/en
Publication of WO2020049712A1 publication Critical patent/WO2020049712A1/en

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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B1/00Control systems of elevators in general
    • B66B1/02Control systems without regulation, i.e. without retroactive action
    • B66B1/06Control systems without regulation, i.e. without retroactive action electric
    • B66B1/14Control systems without regulation, i.e. without retroactive action electric with devices, e.g. push-buttons, for indirect control of movements
    • B66B1/18Control systems without regulation, i.e. without retroactive action electric with devices, e.g. push-buttons, for indirect control of movements with means for storing pulses controlling the movements of several cars or cages
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B1/00Control systems of elevators in general
    • B66B1/34Details, e.g. call counting devices, data transmission from car to control system, devices giving information to the control system
    • B66B1/46Adaptations of switches or switchgear
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B66HOISTING; LIFTING; HAULING
    • B66BELEVATORS; ESCALATORS OR MOVING WALKWAYS
    • B66B3/00Applications of devices for indicating or signalling operating conditions of elevators

Definitions

  • the present invention relates to a landing operation panel for inputting destination floor information.
  • DOAS Denssion Oriented Allocation System
  • the transportation efficiency can be improved by allowing the user to register the destination floor before boarding. For this reason, DOAS is often applied to all floors, especially in buildings with large inter-story traffic.
  • a touch panel is often used as a landing operation panel (for example, see Patent Document 1).
  • touch panels are more expensive than hall operating panels with one or more call buttons used outside of DOAS.
  • Expensive landing consoles are an obstacle to adopting DOAS.
  • the present invention has been made to solve such a problem, and an object of the present invention is to provide a landing operation panel that can be used as a DOAS at a lower cost.
  • the landing operation panel includes a hardware button, a display device capable of displaying destination floor information indicating a destination floor to be registered, an operator for performing an input operation of the destination floor information, and an operator.
  • the display processing of the destination floor information on the display device and the determination processing of the destination floor information are executed, and in response to the operation on the hardware button, based on the function assigned to the hardware button.
  • a control unit for executing a request process.
  • FIG. 1 is a diagram showing a configuration example of an elevator system to which a hall operating panel according to Embodiment 1 of the present invention is applied. It is a perspective view showing an example of a hall operation panel concerning Embodiment 1 of the present invention.
  • FIG. 2 is a diagram illustrating a hardware configuration example of a hall operating panel according to Embodiment 1 of the present invention. It is a perspective view which shows the example of the hall operation panel which concerns on Embodiment 2 of this invention. It is a figure showing the example of hardware constitutions of the hall operation panel concerning Embodiment 2 of the present invention. It is a perspective view which shows the example of the hall operation panel which concerns on Embodiment 3 of this invention. It is a perspective view showing an example of a hall operation panel concerning Embodiment 4 of the present invention.
  • FIG. 1 is a diagram showing a configuration example of an elevator system to which a hall operating panel according to Embodiment 1 of the present invention is applied.
  • the elevator system 1 is a system constructed to operate a plurality of elevator devices 2, and is provided, for example, in a building having a large traffic volume between floors.
  • Each elevator device 2 is managed by a group management control device 5.
  • Each hall operation panel 3 forms a hall operation panel group 4.
  • the hall operation panel group 4 is connected to a group management control device 5.
  • the hall operating panel group 4 is directly connected to the group management control device 5, but may be indirectly connected to the group management control device 5.
  • Elevator devices 2 include a car 21 on which a user rides, and an elevator control device 22 for controlling the elevation of the car 21.
  • the group management control device 5 processes a request from each landing operation panel 3 and manages the operation of each elevator device 2.
  • FIG. 2 is a perspective view showing an example of the landing operation panel 3 according to Embodiment 1 of the present invention.
  • the landing operation panel 3 is provided with an operation panel 31 as shown in FIG.
  • a display device 32 On the operation panel 31, a display device 32, two hardware buttons 33a and 33b, and a touch sensor 34 are provided.
  • the display device 32 is a versatile display device capable of displaying various information.
  • the two hardware buttons 33a and 33b are both call buttons. More specifically, the hardware button 33a is a call button whose destination is the upper floor, and the hardware button 33b is a call button whose destination is the lower floor.
  • the hardware button 33a is described as an “up call button 33a”, and the hardware button 33b is described as a “down call button 33b”.
  • the touch sensor 34 is an operator provided for an input operation on the destination floor.
  • the touch sensor 34 is visually divided into two operation areas 34u and 34d by printing or the like.
  • the destination floor is selected from the upper floor side and the lower floor side according to the area actually operated by the user in the operation areas 34u and 34d.
  • the operation areas 34u and 34d are referred to as “upper operation area 34u” and “lower operation area 34d”, respectively.
  • operation area 34n When it is not necessary to specify one of the upper operation area 34u and the lower operation area 34d, it is referred to as “operation area 34n” for convenience.
  • a numerical value is displayed on the display device 32 as destination floor information indicating a destination floor to be registered.
  • the initial value displayed first is a numerical value indicating the floor immediately above the floor where the hall operating panel 3 is installed or the floor immediately below the installed floor. From the upper operation area 34u and the lower operation area 34d, a numerical value according to the one touched by the user is selected as an initial value. Specifically, when the upper operation area 34u is touched, a numerical value indicating the floor immediately above the installed floor is selected, and when the lower operation area 34d is touched, the numerical value indicating one floor below the installed floor is selected. Is selected.
  • the floor on which the hall operating panel 3 operated by the user is installed is referred to as “installed floor”.
  • the initial value displayed on the display device 32 is updated by further operating the same operation area 34n as the touched operation area 34n.
  • Specific examples of the operation include, for example, a tap or a swipe.
  • the initial values are automatically updated one by one in a direction away from the numerical value indicating the installation floor. For example, if the operation area 34n first touched by the user is the upper operation area 34u, tapping is performed, and the numerical values are automatically updated in ascending order within a range from the initial value to the numerical value indicating the top floor. Is done. Such automatic updating stops, for example, when the user further taps the same operation area 34n.
  • the final value is treated as a numerical value indicating the destination floor desired by the user, and the destination floor is registered based on the final value.
  • the user may make a mistake in the timing of tapping to stop automatic updating. If the automatic update stop instruction is issued too early, the displayed numerical value is a numerical value before the destination floor in the numerical value updating direction. In this case, the user taps again on the operation area 34n that was just tapped. The tap automatically updates the numerical value in the same update direction as before. Therefore, the user can display the numerical value of the desired destination floor by tapping again on the operation area 34n that was just tapped after waiting for the update to the numerical value indicating the destination floor desired to be registered.
  • the displayed value is the value after the destination floor in the direction of updating the value. In that case, the user taps again the operation area 34n different from the operation area 34n that was tapped immediately before. The tap automatically updates the numerical value in the opposite direction. Therefore, even if the instruction to stop automatic updating is too late, the user waits for the value to be updated to the numerical value indicating the destination floor desired to be registered, and then taps again the operation area 34n that was just tapped. Thus, the numerical value of the desired destination floor can be displayed.
  • the initial value is updated according to, for example, the width of the swipe performed.
  • the initial value is updated to a value obtained by adding a numerical value according to the swipe width.
  • Such an update is performed every time the user performs a swipe to the same operation area 34n.
  • the displayed numerical value is updated to a value obtained by adding a numerical value according to the swipe width to the displayed numerical value.
  • the sign of the numerical value added at this time is a sign different from the update direction up to that time.
  • the displayed numerical value is updated to a value obtained by subtracting a numerical value corresponding to the swipe width.
  • the numerical value displayed as the destination floor can be increased or decreased.
  • the user can cause the display device 32 to display a numerical value indicating a desired destination floor by performing a tap operation or a swipe operation on the touch sensor 34. That is, the user can input a numerical value indicating a desired destination floor by operating the touch sensor 34.
  • the hall operating panel 3 After displaying the numerical value indicating the destination floor, if the user has not performed an operation for a preset time, the hall operating panel 3 requests the destination floor registration based on the displayed numerical value. When the update of the numerical value is stopped by tapping, the hall operating panel 3 displays the display by performing, for example, a double tap operation on the last tapped operation area 34n before a predetermined time elapses. Immediately request destination floor registration with the entered numerical value. If the user has updated the numerical value by swiping, the hall operating panel 3 immediately requests destination floor registration by the displayed numerical value, for example, by a tap operation or a double tap operation on the operation area 34n swiped last. I do.
  • the request for destination floor registration is made to the group management control device 5.
  • the group management control device 5 for which destination floor registration has been requested from the landing operation panel 3 selects the elevator device 2 that stops the car 21 on the floor where the landing operation panel 3 is installed, from among the elevator devices 2.
  • the selection result is notified to the landing operation panel 3.
  • the elevator device 2 selected by the group management control device 5 with the highest priority is, for example, the elevator device 2 that stops both at the floor where the hall operating panel 3 is installed and at the destination floor where registration is requested. If such an elevator device 2 does not exist, the next candidate is, for example, the elevator device 2 that stops at the floor where the hall operating panel 3 is installed or at the destination floor where registration is requested.
  • the elevator device 2 that can make the car 21 arrive earlier on the floor where the hall operation panel 3 is installed is a selection candidate. Become.
  • the hall operating panel 3 causes the display device 32 to display information indicating the elevator device 2 received from the group management control device 5, for example, an elevator number. Thereby, the hall operating panel 3 guides the user who has registered the destination floor to move to the place where the elevator device 2 to be boarded is installed.
  • the input for setting the destination floor by the operation on the touch sensor 34 is described separately as the tap operation and the swipe operation, but different operations can be performed in combination. That is, for example, after a numerical value indicating a destination floor is automatically updated by a tap operation, a desired destination floor can be displayed by a swipe operation. The manner of updating the displayed numerical value by each operation is the same, and a detailed description thereof will be omitted.
  • the hall operating panel 3 When the user operates one of the up call button 33a and the down call button 33b, the hall operating panel 3 requests the group management control device 5 to register a call corresponding to the operated call button. .
  • the group management control device 5 selects, from the elevator devices 2, the elevator device 2 that stops the car 21 on the floor where the hall operation panel 3 is installed, and transmits the selection result to the hall operation panel 3. Notice.
  • the elevator device 2 selected by the group management control device 5 with the highest priority is, for example, the elevator device 2 that stops at the floor where the hall operating panel 3 is installed. If such an elevator device 2 does not exist, the next candidate is, for example, that the car 21 arrives earlier on the floor where the hall operating panel 3 is installed, among the elevator devices 2 for which the stop floor is undecided. It is a possible elevator device 2.
  • the hall operating panel 3 causes the display device 32 to display information indicating the elevator device 2 selected by the group management control device 5, for example, the elevator number, as in the case of requesting destination floor registration. Thereby, the hall operating panel 3 guides the user who has operated the up call button 33a or the down call button 33b to move to the place where the elevator device 2 to be boarded is installed.
  • the hall operating panel 3 shown in FIG. 2 is installed on an intermediate floor which is a floor other than the top floor and the bottom floor.
  • the functions of the hall operating panel 3 installed on the top floor and the hall operating panel 3 installed on the lowest floor are both limited by the hall operating panel 3 installed on the middle floor.
  • the ascending call button 33a is not installed, and it is impossible to register the destination floor of the upper floor.
  • the mounted functions are also mounted on the landing operation panel 3 installed on the intermediate floor, a detailed description of the landing operation panel 3 installed on the top floor and the lowest floor is omitted. This is the same in other embodiments described later.
  • FIG. 3 is a diagram showing an example of a hardware configuration of the hall operating panel according to Embodiment 1 of the present invention. With reference to FIG. 3, an example of a hardware configuration of the hall operating panel 3 will be described in detail.
  • the hall operating panel 3 whose hardware configuration example is shown in FIG. 3 is installed on an intermediate floor.
  • the hall operation panel 3 has a hardware configuration, as shown in FIG. 3, a communication IC (Integrated Circuit) 301, a RAM (Random Access), in addition to the display device 32, the two call buttons 33a and 33b, and the touch sensor 34.
  • Memory 302, a flash memory 303, an LED (Light Emitting Diode) group 304, an input controller 305, and a processor 306.
  • the communication IC 301 is a communication unit that enables communication with the group management control device 5.
  • the RAM 302 is a volatile memory used by the processor 306 for work.
  • the flash memory 303 is a non-volatile memory used to store various programs and various data. Among the various programs, an application program for operating as the hall operating panel 3 is included.
  • the various data include various numerical data indicating the lowest floor and the highest floor, various message data to be displayed on the display device 32 for guidance, and the touch sensor 34 indicating a boundary between the upper operation area 34u and the lower operation area 34d. And the like.
  • the LED group 304 includes those LEDs.
  • the input controller 305 is used to detect an operation on the two call buttons 33a and 33b.
  • the input controller 305 monitors operations on the two call buttons 33a and 33b, and when detecting an operation on any of them, notifies the processor 306 of information indicating the call button for which the operation was detected.
  • the processor 306 controls the hall operating panel 3 by reading various programs including the application programs stored in the flash memory 303 into the RAM 302 and executing them. For this reason, the control unit according to the first embodiment corresponds to the RAM 302, the flash memory 303, and the processor 306.
  • the operation on the touch sensor 34 is detected by the processor 306.
  • the display of information on the display device 32 and the selective lighting of the LEDs constituting the LED group 304 are performed by the processor 306. Further, the processor 306 communicates with the group management control device 5 via the communication IC 301.
  • the processor 306 detects whether or not the user touches the touch sensor 34. When touched, the touched position is detected. Therefore, the processor 306 can recognize which of the upper operation area 34u and the lower operation area 34d is touched. Further, the processor 306 can recognize the time of the touch, the moving direction of the position touched in the touched state, and the moving distance of the position. From these facts, the processor 306 displays the initial value of the destination floor on the display device 32, updates the numerical value displayed as the destination floor, and updates the numerical value displayed as the destination floor according to the operation actually performed by the user on the touch sensor 34. The destination floor can be specified.
  • the processor 306 transmits a call registration corresponding to the type of the call button to the group management control device 5 by communication via the communication IC 301. Executes the requested process.
  • the processor 306 turns on the LED corresponding to the call button in the LED group 304.
  • the processor 306 causes the display device 32 to display the information.
  • the lit LED is turned off when the car 21 of the elevator device 2 indicated by the information arrives. The arrival of the car 21 is notified, for example, by the group management control device 5.
  • the processor 306 executes the update display process for displaying the numerical value that can be set as the destination floor on the display device 32 and updating the displayed numerical value as described above. I do.
  • the processor 306 determines that the displayed numerical value is desired by the user. A determination process is performed to determine the destination floor information indicating the destination floor. After the execution of the determination processing, the processor 306 requests the group management control device 5 to register the displayed numerical value as the destination floor via the communication IC 301.
  • the processor 306 causes the display device 32 to display the information.
  • the user can specify the elevator device 2 on which the user is to get on, that is, the elevator device 2 that stops the car 21 at the designated destination floor.
  • the destination floor can be registered by operating the hall operating panel 3. 2 and 3, the landing operation panel 3 is based on a landing operation panel used in addition to the DOAS.
  • the landing operation panel 3 is provided with a touch sensor 34 as an operation element for setting a destination floor.
  • the configuration has been added. That is, the hall operating panel 3 according to the first embodiment has a configuration in which an operating element is added to a DOAS non-compliant hall operating panel provided with hardware buttons and a display device so as to support DOAS. For this reason, compared with the case where a touch panel is adopted, the hall operating panel 3 can be manufactured at lower cost. The hall operation panel 3 can be manufactured at a lower cost as compared with the case where a large number of hardware buttons are provided to support DOAS.
  • the landing operation panel 3 is provided with two hardware buttons, an up call button 33a and a down call button 33b. Therefore, for a user who does not know the operation method or a user who does not easily understand the operation method, the landing operation panel 3 can be used in a usage method different from the DOAS. That is, the user can use the elevator system 1 using the function assigned to the hardware button. Accordingly, an environment in which a wider range of users can comfortably use the elevator system 1 can be realized. By registering the destination floor, the transportation efficiency of the elevator system 1 can be further improved.
  • the touch sensor 34 is used as an operation element for setting the destination floor, but the operation element may be a hardware button.
  • the reason why the touch sensor 34 is employed is that the destination floor can be set with one operation element using a wider operation method.
  • a tap operation may be used in a situation where there is a relatively long time
  • a swipe operation may be used in a situation where there is a relatively little time.
  • the method of updating the numerical value indicating the destination floor according to the operation on the touch sensor 34 is not limited to the method described above.
  • the time interval at which automatic updating is performed may be changed according to the tapped position. Specifically, the time interval at which the automatic update is performed may be made shorter as the tap is made farther from the boundary between the upper operation area 34u and the lower operation area 34d.
  • the numerical value may be increased or decreased according to the distance from the position touched first. Various modifications are possible including these.
  • FIG. FIG. 4 is a perspective view showing an example of a landing operation panel according to Embodiment 2 of the present invention.
  • FIG. 5 is a diagram showing an example of a hardware configuration of a hall operating panel according to Embodiment 2 of the present invention.
  • the second embodiment is different from the first embodiment in that a reference floor button 33c is further provided as a hardware button, as shown in FIGS.
  • the reference floor button 33c is a button for requesting registration of a floor set in advance as a reference floor as a destination floor. Therefore, the following description will focus on the function of the reference floor button 33c.
  • the reference floor to be set is, for example, a floor that is likely to be moved by a person on a floor other than the reference floor using the elevator device 2.
  • a reference floor exists depending on the building in which the elevator device 2 is installed.
  • the reference floor button 33c on the hall operating panel 3 the user can easily register a desired destination floor by operating the reference floor button 33c. Therefore, convenience can be further improved.
  • information indicating the reference floor set on the reference floor button 33c is stored in, for example, the flash memory 303.
  • the processor 306 can request registration of the reference floor as the destination floor in response to an operation on the reference floor button 33c.
  • the processor 306 executes a determination process for determining the reference floor as the destination floor. After the execution of the determination process, the processor 306 executes a request process of requesting the group management control device 5 to register the reference floor as the destination floor by communication via the communication IC 301. The processor 306 turns on the LED corresponding to the reference floor button 33c in the LED group 304.
  • the processor 306 causes the display device 32 to display the information.
  • the lit LED is turned off when the car 21 of the elevator device 2 indicated by the information arrives. The arrival of the car 21 is notified, for example, by the group management control device 5.
  • the number of the reference floor buttons 33c is one, but the number of the reference floor buttons 33c may be two or more.
  • the reference floor set on the reference floor button 33c may be different depending on the floor.
  • FIG. FIG. 6 is a perspective view showing an example of a hall operating panel according to Embodiment 3 of the present invention.
  • the third embodiment is different from the first embodiment in that the touch sensor 34 is arranged beside the display device 32 as shown in FIG.
  • the reason why the touch sensor 34 is arranged beside the display device 32 is to make the distance between the display device 32 and the touch sensor 34 shorter. With such an arrangement, the operation of the touch sensor 34 after confirming the display content of the display device 32 becomes easier, and the operability can be improved.
  • the touch sensor 34 is disposed on the right side of the display device 32. This is because most users are right-handed, and the operation on the touch sensor 34 is often performed with the dominant arm. Therefore, by arranging the touch sensor 34 on the right side toward the display device 32, even if the majority of the users operate the touch sensor 34 using the dominant arm, the display content of the display device 32 is displayed by the dominant arm. It is possible to prevent the visual recognition from becoming difficult.
  • the hardware configuration in the third embodiment is the same as that in FIG. Therefore, description of the hardware configuration is omitted.
  • FIG. 7 is a perspective view showing an example of a landing operation panel according to Embodiment 4 of the present invention.
  • the fourth embodiment is different from the first embodiment in that the touch sensor 34 is arranged beside the display device 32 and the reference floor button 33c is further provided as shown in FIG.
  • the touch sensor 34 is arranged beside the display device 32 and the reference floor button 33c is further provided as shown in FIG.
  • the hardware configuration in the fourth embodiment is the same as that in FIG. Therefore, description of the hardware configuration is omitted.
  • the display of the destination floor information indicating the destination floor is performed by operating the touch sensor 34.
  • an operator for displaying the destination floor information for example, the input of the destination floor is input. May be provided separately from the touch sensor 34 to shift to a mode that enables the operation.
  • An operator for instructing destination floor registration may be provided separately. Even if such an operator is provided separately, the landing operating panel 3 can be manufactured at lower cost.
  • the number of operators may be provided according to the input method of the destination floor, and the number of operators, the function assigned to each operator, and the like are not particularly limited.
  • 1 elevator system 2 elevator device, 3 landing hall operation panel, 4 hall landing operation panel group, 5 group management control device, 31 operation panel, 32 display device, 33a, 33b call button (hardware button), 33c base floor button (hardware) Wear button), 34 touch sensor (operator), 34u upper operation area, 34d lower operation area, 301 communication IC (communication section), 302 RAM, 303 flash memory, 304 LED group, 305 input controller, 306 processor.

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  • Engineering & Computer Science (AREA)
  • Automation & Control Theory (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Indicating And Signalling Devices For Elevators (AREA)
  • Elevator Control (AREA)

Abstract

A platform operation panel to which the present invention is applied comprises: a hardware button; a display device capable of displaying destination floor information that indicates a destination floor subject to registration; an operation element for performing an input operation on the destination floor information; and a control unit that executes an update display process for updating the destination floor information to the display device and a definition process for defining the destination floor information in accordance with the input operation to the operation element, and executes a request process based on a function assigned to the hardware button in accordance with an operation on the hardware button.

Description

乗場操作盤Hall control panel
 本発明は、行先階情報の入力操作を行う乗場操作盤に関する。 (4) The present invention relates to a landing operation panel for inputting destination floor information.
 エレベーターシステムのなかには、DOAS(Destination Oriented Allocation System)が適用されたものがある。このDOASでは、利用者に乗車前に行先階を登録させることにより、輸送効率を向上させることができる。そのため、特に階間交通量の多いビルディングでは、DOASが全階床に適用されることが多くなっている。また、DOASが適用されるエレベーターシステムでは、乗場操作盤としてタッチパネルが用いられることが多い(例えば、特許文献1参照)。 Some elevator systems use DOAS (Destination Oriented Allocation System). In this DOAS, the transportation efficiency can be improved by allowing the user to register the destination floor before boarding. For this reason, DOAS is often applied to all floors, especially in buildings with large inter-story traffic. In an elevator system to which DOAS is applied, a touch panel is often used as a landing operation panel (for example, see Patent Document 1).
特許第6254177号公報Japanese Patent No. 6254177
 必要なハードウェアボタンを設ける場合、ハードウェアボタン数が多くなることで、操作性が低下してしまう問題がある。そこで、このような問題を解消するために、DOASでは、乗場操作盤としてタッチパネルが多く用いられている。 (4) When the necessary hardware buttons are provided, there is a problem that the operability is reduced due to an increase in the number of hardware buttons. Therefore, in order to solve such a problem, in the DOAS, a touch panel is often used as a landing operation panel.
 しかし、タッチパネルは、DOAS以外で用いられる、1つ以上の呼びボタンを備えた乗場操作盤と比較して、高価である。高価な乗場操作盤は、DOASの採用における障害となっている。 However, touch panels are more expensive than hall operating panels with one or more call buttons used outside of DOAS. Expensive landing consoles are an obstacle to adopting DOAS.
 本発明は、かかる課題を解決するためになされたもので、その目的は、より安価にDOASとして使用可能な乗場操作盤を提供することにある。 The present invention has been made to solve such a problem, and an object of the present invention is to provide a landing operation panel that can be used as a DOAS at a lower cost.
 本発明に係る乗場操作盤は、ハードウェアボタンと、登録対象となる行先階を示す行先階情報を表示可能な表示装置と、行先階情報の入力操作を行うための操作子と、操作子への入力操作に応じて、表示装置への行先階情報の更新表示処理、及び行先階情報の確定処理を実行し、ハードウェアボタンへの操作に応じて、ハードウェアボタンに割り当てられた機能に基づく要求処理を実行する制御部と、を備える。 The landing operation panel according to the present invention includes a hardware button, a display device capable of displaying destination floor information indicating a destination floor to be registered, an operator for performing an input operation of the destination floor information, and an operator. In response to the input operation, the display processing of the destination floor information on the display device and the determination processing of the destination floor information are executed, and in response to the operation on the hardware button, based on the function assigned to the hardware button. And a control unit for executing a request process.
 本発明によれば、より安価にDOASとして使用可能な乗場操作盤を提供することができる。 According to the present invention, it is possible to provide a landing operation panel that can be used as a DOAS at a lower cost.
本発明の実施の形態1に係る乗場操作盤が適用されたエレベーターシステムの構成例を示す図である。FIG. 1 is a diagram showing a configuration example of an elevator system to which a hall operating panel according to Embodiment 1 of the present invention is applied. 本発明の実施の形態1に係る乗場操作盤の例を示す斜視図である。It is a perspective view showing an example of a hall operation panel concerning Embodiment 1 of the present invention. 本発明の実施の形態1に係る乗場操作盤のハードウェア構成例を示す図である。FIG. 2 is a diagram illustrating a hardware configuration example of a hall operating panel according to Embodiment 1 of the present invention. 本発明の実施の形態2に係る乗場操作盤の例を示す斜視図である。It is a perspective view which shows the example of the hall operation panel which concerns on Embodiment 2 of this invention. 本発明の実施の形態2に係る乗場操作盤のハードウェア構成例を示す図である。It is a figure showing the example of hardware constitutions of the hall operation panel concerning Embodiment 2 of the present invention. 本発明の実施の形態3に係る乗場操作盤の例を示す斜視図である。It is a perspective view which shows the example of the hall operation panel which concerns on Embodiment 3 of this invention. 本発明の実施の形態4に係る乗場操作盤の例を示す斜視図である。It is a perspective view showing an example of a hall operation panel concerning Embodiment 4 of the present invention.
 以下、本発明に係る乗場操作盤の各実施の形態を、図を参照して説明する。ここでは、同じ、或いは対応する構成要素には同一の符号を付している。 Hereinafter, each embodiment of the hall operating panel according to the present invention will be described with reference to the drawings. Here, the same or corresponding components are denoted by the same reference numerals.
 実施の形態1.
 図1は、本発明の実施の形態1に係る乗場操作盤が適用されたエレベーターシステムの構成例を示す図である。エレベーターシステム1は、図1に示すように、複数台のエレベーター装置2を運用するために構築されたシステムであり、例えば階間交通量の多いビルディングに設けられている。各エレベーター装置2は、群管理制御装置5により管理される。 Embodiment 1 FIG.
FIG. 1 is a diagram showing a configuration example of an elevator system to which a hall operating panel according to Embodiment 1 of the present invention is applied. As shown in FIG. 1, the elevator system 1 is a system constructed to operate a plurality of elevator devices 2, and is provided, for example, in a building having a large traffic volume between floors. Each elevator device 2 is managed by a group management control device 5.
 本実施の形態1に係る乗場操作盤3は、各階床に1つ以上、設置されている。それにより、各乗場操作盤3は、乗場操作盤群4を構成する。乗場操作盤群4は、群管理制御装置5に接続されている。乗場操作盤群4は、直接、群管理制御装置5に接続されているが、間接的に群管理制御装置5と接続させても良い。 乗 One or more hall operation panels 3 according to Embodiment 1 are installed on each floor. Thereby, each hall operation panel 3 forms a hall operation panel group 4. The hall operation panel group 4 is connected to a group management control device 5. The hall operating panel group 4 is directly connected to the group management control device 5, but may be indirectly connected to the group management control device 5.
 各エレベーター装置2は、利用者が乗車するかご21、及びかご21の昇降を制御するエレベーター制御装置22を含む。群管理制御装置5は、各乗場操作盤3からの要求を処理し、各エレベーター装置2の運行を管理する。 Elevator devices 2 include a car 21 on which a user rides, and an elevator control device 22 for controlling the elevation of the car 21. The group management control device 5 processes a request from each landing operation panel 3 and manages the operation of each elevator device 2.
 図2は、本発明の実施の形態1に係る乗場操作盤3の例を示す斜視図である。乗場操作盤3には、図2に示すように、操作パネル31が設けられている。操作パネル31上には、表示装置32、2つのハードウェアボタン33a及び33b、並びにタッチセンサ34が設けられている。 FIG. 2 is a perspective view showing an example of the landing operation panel 3 according to Embodiment 1 of the present invention. The landing operation panel 3 is provided with an operation panel 31 as shown in FIG. On the operation panel 31, a display device 32, two hardware buttons 33a and 33b, and a touch sensor 34 are provided.
 表示装置32は、各種情報が表示可能な汎用性を有する表示装置である。2つのハードウェアボタン33a、及び33bは共に、呼びボタンである。より具体的には、ハードウェアボタン33aは、上層階を行先とする呼びボタンであり、ハードウェアボタン33bは、下層階を行先とする呼びボタンである。以降、区別するために、ハードウェアボタン33aは「昇り呼びボタン33a」、ハードウェアボタン33bは「降り呼びボタン33b」とそれぞれ表記する。 The display device 32 is a versatile display device capable of displaying various information. The two hardware buttons 33a and 33b are both call buttons. More specifically, the hardware button 33a is a call button whose destination is the upper floor, and the hardware button 33b is a call button whose destination is the lower floor. Hereinafter, for distinction, the hardware button 33a is described as an “up call button 33a”, and the hardware button 33b is described as a “down call button 33b”.
 タッチセンサ34は、行先階の入力操作用に設けた操作子である。本実施の形態1では、図2に示すように、タッチセンサ34は、印刷等によって視覚的に2つの操作領域34u、及び34dに分けられている。行先階は、操作領域34u及び34dのなかで利用者が実際に操作する領域に応じて、上層階側、及び下層階側のうちのなかから選択される。以降、操作領域34u及び34dは、それぞれ、「上部操作領域34u」「下部操作領域34d」と表記する。上部操作領域34u、及び下部操作領域34dのうちの一方を特定する必要のないような場合、便宜的に「操作領域34n」と表記する。 The touch sensor 34 is an operator provided for an input operation on the destination floor. In the first embodiment, as shown in FIG. 2, the touch sensor 34 is visually divided into two operation areas 34u and 34d by printing or the like. The destination floor is selected from the upper floor side and the lower floor side according to the area actually operated by the user in the operation areas 34u and 34d. Hereinafter, the operation areas 34u and 34d are referred to as “upper operation area 34u” and “lower operation area 34d”, respectively. When it is not necessary to specify one of the upper operation area 34u and the lower operation area 34d, it is referred to as “operation area 34n” for convenience.
 タッチセンサ34への利用者によるタッチ操作により、表示装置32には、登録対象となる行先階を示す行先階情報として数値が表示される。最初に表示される初期値は、乗場操作盤3が設置された階の1つ上の階か、設置された階の1つ下の階を示す数値である。上部操作領域34u、及び下部操作領域34dのうち、利用者がタッチした方に応じた数値が初期値として選択される。具体的には、上部操作領域34uがタッチされた場合、設置された階の1つ上の階を示す数値が選択され、下部操作領域34dがタッチされた場合、設置された階の1つ下の階を示す数値が選択される。以降、利用者が操作した乗場操作盤3が設置されている階のことを、「設置階」と表記する。 数 値 By a user's touch operation on the touch sensor 34, a numerical value is displayed on the display device 32 as destination floor information indicating a destination floor to be registered. The initial value displayed first is a numerical value indicating the floor immediately above the floor where the hall operating panel 3 is installed or the floor immediately below the installed floor. From the upper operation area 34u and the lower operation area 34d, a numerical value according to the one touched by the user is selected as an initial value. Specifically, when the upper operation area 34u is touched, a numerical value indicating the floor immediately above the installed floor is selected, and when the lower operation area 34d is touched, the numerical value indicating one floor below the installed floor is selected. Is selected. Hereinafter, the floor on which the hall operating panel 3 operated by the user is installed is referred to as “installed floor”.
 表示装置32に表示された初期値は、タッチした操作領域34nと同じ操作領域34nを更に操作することにより、更新される。操作の具体例としては、例えばタップ、或いはスワイプが挙げられる。 The initial value displayed on the display device 32 is updated by further operating the same operation area 34n as the touched operation area 34n. Specific examples of the operation include, for example, a tap or a swipe.
 タップを利用者が行った場合には、初期値は、設置階を示す数値から離れる方向に1つずつ順次、自動的に更新される。例えば利用者が最初にタッチした操作領域34nが上部操作領域34uであった場合、タップが行われることで、数値が初期値から最上階を示す数値の範囲内で昇順に順次、自動的に更新される。そのような自動更新は、例えば更に同じ操作領域34nのタップを利用者が行うことにより、停止する。最終値は、利用者が望む行先階を示す数値として扱われ、その最終値により行先階登録が行われる。 When the user taps, the initial values are automatically updated one by one in a direction away from the numerical value indicating the installation floor. For example, if the operation area 34n first touched by the user is the upper operation area 34u, tapping is performed, and the numerical values are automatically updated in ascending order within a range from the initial value to the numerical value indicating the top floor. Is done. Such automatic updating stops, for example, when the user further taps the same operation area 34n. The final value is treated as a numerical value indicating the destination floor desired by the user, and the destination floor is registered based on the final value.
 自動更新の停止指示のためのタップを行うタイミングを利用者が誤る場合がある。自動更新の停止指示が早すぎた場合、数値の更新方向上、表示された数値は行先階よりも前の数値である。その場合、利用者は、直前にタップした操作領域34nを再度、タップする。そのタップにより、それまでと同じ更新方向に数値の自動更新が行われる。そのため、利用者は、登録を望む行先階を示す数値に更新されるのを待って、直前にタップした操作領域34nを再度タップすることにより、望む行先階の数値を表示させることができる。 タ イ ミ ン グ The user may make a mistake in the timing of tapping to stop automatic updating. If the automatic update stop instruction is issued too early, the displayed numerical value is a numerical value before the destination floor in the numerical value updating direction. In this case, the user taps again on the operation area 34n that was just tapped. The tap automatically updates the numerical value in the same update direction as before. Therefore, the user can display the numerical value of the desired destination floor by tapping again on the operation area 34n that was just tapped after waiting for the update to the numerical value indicating the destination floor desired to be registered.
 自動更新の停止指示が遅すぎた場合、数値の更新方向上、表示された数値は行先階よりも後の数値である。その場合、利用者は、直前にタップした操作領域34nとは異なる操作領域34nを再度、タップする。そのタップにより、それまでと反対の方向で数値の自動更新が行われる。そのため、利用者は、自動更新の停止指示が遅すぎた場合であっても、登録を望む行先階を示す数値に更新されるのを待って、直前にタップした操作領域34nを再度タップすることにより、望む行先階の数値を表示させることができる。 場合 If the instruction to stop automatic update is too late, the displayed value is the value after the destination floor in the direction of updating the value. In that case, the user taps again the operation area 34n different from the operation area 34n that was tapped immediately before. The tap automatically updates the numerical value in the opposite direction. Therefore, even if the instruction to stop automatic updating is too late, the user waits for the value to be updated to the numerical value indicating the destination floor desired to be registered, and then taps again the operation area 34n that was just tapped. Thus, the numerical value of the desired destination floor can be displayed.
 一方、スワイプを利用者が行った場合、つまり操作領域34n上で利用者が指等をスライドさせた場合、初期値は、例えばスワイプが行われた幅に応じて更新される。例えば利用者が最初にタッチした操作領域34nが上部操作領域34uであった場合、初期値は、スワイプが行われた幅に応じた数値を加算した値に更新される。そのような更新は、同じ操作領域34nへのスワイプを利用者が行う毎に行われる。それまでと異なる操作領域34nへのスワイプを利用者が行った場合、表示される数値は、スワイプが行われた幅に応じた数値を表示された数値に加算した値に更新される。ただし、このときに加算される数値の符号は、それまでの更新方向とは異なる符号となる。例えばそれまでと異なる操作領域34nとして下部操作領域34dを利用者がスワイプした場合、表示される数値は、スワイプが行われた幅に応じた数値だけ減算した値に更新される。このように、利用者がスワイプを行った場合にも、行先階として表示される数値の増減が可能となっている。 On the other hand, when the user performs a swipe, that is, when the user slides a finger or the like on the operation area 34n, the initial value is updated according to, for example, the width of the swipe performed. For example, when the operation area 34n touched first by the user is the upper operation area 34u, the initial value is updated to a value obtained by adding a numerical value according to the swipe width. Such an update is performed every time the user performs a swipe to the same operation area 34n. When the user swipes to the operation area 34n different from that before, the displayed numerical value is updated to a value obtained by adding a numerical value according to the swipe width to the displayed numerical value. However, the sign of the numerical value added at this time is a sign different from the update direction up to that time. For example, when the user swipes the lower operation area 34d as an operation area 34n different from that before, the displayed numerical value is updated to a value obtained by subtracting a numerical value corresponding to the swipe width. As described above, even when the user swipes, the numerical value displayed as the destination floor can be increased or decreased.
 上記のようにして、利用者は、タッチセンサ34に対してタップ操作、或いはスワイプ操作を行うことにより、望む行先階を示す数値を表示装置32に表示させることができる。つまり、利用者は、タッチセンサ34への操作により、望む行先階を示す数値を入力することができる。 As described above, the user can cause the display device 32 to display a numerical value indicating a desired destination floor by performing a tap operation or a swipe operation on the touch sensor 34. That is, the user can input a numerical value indicating a desired destination floor by operating the touch sensor 34.
 行先階を示す数値を表示させた後、予め設定された時間、利用者が操作を行わなかった場合、乗場操作盤3は、表示させた数値により行先階登録を要求する。タップにより数値の更新を停止させていた場合、乗場操作盤3は、予め設定された時間が経過する前に、例えば最後にタップされた操作領域34nへのダブルタップ操作が行われることにより、表示された数値による行先階登録を直ちに要求する。スワイプにより数値を利用者が更新していた場合、乗場操作盤3は、例えば最後にスワイプされた操作領域34nへのタップ操作、或いはダブルタップ操作により、表示された数値による行先階登録を直ちに要求する。 た After displaying the numerical value indicating the destination floor, if the user has not performed an operation for a preset time, the hall operating panel 3 requests the destination floor registration based on the displayed numerical value. When the update of the numerical value is stopped by tapping, the hall operating panel 3 displays the display by performing, for example, a double tap operation on the last tapped operation area 34n before a predetermined time elapses. Immediately request destination floor registration with the entered numerical value. If the user has updated the numerical value by swiping, the hall operating panel 3 immediately requests destination floor registration by the displayed numerical value, for example, by a tap operation or a double tap operation on the operation area 34n swiped last. I do.
 行先階登録の要求は、群管理制御装置5に対して行われる。乗場操作盤3から行先階登録が要求された群管理制御装置5は、エレベーター装置2のなかから、その乗場操作盤3が設置された階にかご21を停止させるエレベーター装置2を選択し、その選択結果を乗場操作盤3に通知する。群管理制御装置5が最優先に選択するエレベーター装置2は、例えば乗場操作盤3が設置された階、及び登録が要求された行先階に共に停止させるエレベーター装置2である。そのようなエレベーター装置2が存在しない場合、次に候補となるのは、例えば乗場操作盤3が設置された階、或いは登録が要求された行先階に停止させるエレベーター装置2である。そのようなエレベーター装置2も存在しない場合、例えば停止階が未定のエレベーター装置2のなかで、乗場操作盤3が設置された階により早くかご21を到着させることができるエレベーター装置2が選択候補となる。 The request for destination floor registration is made to the group management control device 5. The group management control device 5 for which destination floor registration has been requested from the landing operation panel 3 selects the elevator device 2 that stops the car 21 on the floor where the landing operation panel 3 is installed, from among the elevator devices 2. The selection result is notified to the landing operation panel 3. The elevator device 2 selected by the group management control device 5 with the highest priority is, for example, the elevator device 2 that stops both at the floor where the hall operating panel 3 is installed and at the destination floor where registration is requested. If such an elevator device 2 does not exist, the next candidate is, for example, the elevator device 2 that stops at the floor where the hall operating panel 3 is installed or at the destination floor where registration is requested. When such an elevator device 2 does not exist, for example, among the elevator devices 2 whose stop floor is undecided, the elevator device 2 that can make the car 21 arrive earlier on the floor where the hall operation panel 3 is installed is a selection candidate. Become.
 乗場操作盤3は、群管理制御装置5から受信したエレベーター装置2を示す情報、例えばエレベーター番号を表示装置32に表示させる。それにより、乗場操作盤3は、行先階登録を行った利用者に対し、乗車すべきエレベーター装置2が設置された場所への移動を案内する。 The hall operating panel 3 causes the display device 32 to display information indicating the elevator device 2 received from the group management control device 5, for example, an elevator number. Thereby, the hall operating panel 3 guides the user who has registered the destination floor to move to the place where the elevator device 2 to be boarded is installed.
 なお、タッチセンサ34への操作による行先階の設定のための入力は、タップ操作、及びスワイプ操作とで分けて説明したが、異なる操作を組み合わせて行うこともできる。つまり、例えばタップ操作により、行先階を示す数値を自動更新させた後、スワイプ操作により、望む行先階を表示させることもできる。各操作により、表示された数値の更新の仕方自体は同じであるため、特に詳細な説明は省略する。 Note that the input for setting the destination floor by the operation on the touch sensor 34 is described separately as the tap operation and the swipe operation, but different operations can be performed in combination. That is, for example, after a numerical value indicating a destination floor is automatically updated by a tap operation, a desired destination floor can be displayed by a swipe operation. The manner of updating the displayed numerical value by each operation is the same, and a detailed description thereof will be omitted.
 利用者が昇り呼びボタン33a、及び降り呼びボタン33bのうちの何れかを操作した場合、乗場操作盤3は、操作された呼びボタンに応じた呼び登録を群管理制御装置5に対して要求する。 When the user operates one of the up call button 33a and the down call button 33b, the hall operating panel 3 requests the group management control device 5 to register a call corresponding to the operated call button. .
 その要求により、群管理制御装置5は、エレベーター装置2のなかから、その乗場操作盤3が設置された階にかご21を停止させるエレベーター装置2を選択し、その選択結果を乗場操作盤3に通知する。群管理制御装置5が最優先に選択するエレベーター装置2は、例えば乗場操作盤3が設置された階に停止させるエレベーター装置2である。そのようなエレベーター装置2が存在しない場合、次に候補となるのは、例えば停止階が未定のエレベーター装置2のなかで、乗場操作盤3が設置された階により早くかご21を到着させることができるエレベーター装置2である。 In response to the request, the group management control device 5 selects, from the elevator devices 2, the elevator device 2 that stops the car 21 on the floor where the hall operation panel 3 is installed, and transmits the selection result to the hall operation panel 3. Notice. The elevator device 2 selected by the group management control device 5 with the highest priority is, for example, the elevator device 2 that stops at the floor where the hall operating panel 3 is installed. If such an elevator device 2 does not exist, the next candidate is, for example, that the car 21 arrives earlier on the floor where the hall operating panel 3 is installed, among the elevator devices 2 for which the stop floor is undecided. It is a possible elevator device 2.
 乗場操作盤3は、行先階登録の要求時と同様に、群管理制御装置5が選択したエレベーター装置2を示す情報、例えばエレベーター番号を表示装置32に表示させる。それにより、乗場操作盤3は、昇り呼びボタン33a、或いは降り呼びボタン33bを操作した利用者に対し、乗車すべきエレベーター装置2が設置された場所への移動を案内する。 (4) The hall operating panel 3 causes the display device 32 to display information indicating the elevator device 2 selected by the group management control device 5, for example, the elevator number, as in the case of requesting destination floor registration. Thereby, the hall operating panel 3 guides the user who has operated the up call button 33a or the down call button 33b to move to the place where the elevator device 2 to be boarded is installed.
 図2に示す乗場操作盤3は、最上階、及び最下階以外の階床である中間階に設置されたものである。最上階に設置された乗場操作盤3、及び最下階に設置された乗場操作盤3は共に、中間階に設置された乗場操作盤3から機能が制限される。例えば最上階に設置された乗場操作盤3では、昇り呼びボタン33aは設置されず、上層階の行先階の登録は不可能となっている。しかし、搭載された機能は中間階に設置の乗場操作盤3にも搭載されていることから、最上階、及び最下階に設置される乗場操作盤3についての特に詳細な説明は省略する。これは、後述する他の実施の形態でも同様である。 乗 The hall operating panel 3 shown in FIG. 2 is installed on an intermediate floor which is a floor other than the top floor and the bottom floor. The functions of the hall operating panel 3 installed on the top floor and the hall operating panel 3 installed on the lowest floor are both limited by the hall operating panel 3 installed on the middle floor. For example, in the hall operating panel 3 installed on the top floor, the ascending call button 33a is not installed, and it is impossible to register the destination floor of the upper floor. However, since the mounted functions are also mounted on the landing operation panel 3 installed on the intermediate floor, a detailed description of the landing operation panel 3 installed on the top floor and the lowest floor is omitted. This is the same in other embodiments described later.
 図3は、本発明の実施の形態1に係る乗場操作盤のハードウェア構成例を示す図である。図3を参照し、乗場操作盤3のハードウェア構成例について詳細に説明する。なお、図3にハードウェア構成例を示す乗場操作盤3は、中間階に設置されるものである。 FIG. 3 is a diagram showing an example of a hardware configuration of the hall operating panel according to Embodiment 1 of the present invention. With reference to FIG. 3, an example of a hardware configuration of the hall operating panel 3 will be described in detail. The hall operating panel 3 whose hardware configuration example is shown in FIG. 3 is installed on an intermediate floor.
 乗場操作盤3は、ハードウェア構成として、表示装置32、2つの呼びボタン33a及び33b、並びにタッチセンサ34に加え、図3に示すように、通信用IC(Integrated Circuit)301、RAM(Random Access Memory)302、フラッシュメモリ303、LED(Light Emitting Diode)群304、入力コントローラ305、及びプロセッサ306を備える。 The hall operation panel 3 has a hardware configuration, as shown in FIG. 3, a communication IC (Integrated Circuit) 301, a RAM (Random Access), in addition to the display device 32, the two call buttons 33a and 33b, and the touch sensor 34. Memory) 302, a flash memory 303, an LED (Light Emitting Diode) group 304, an input controller 305, and a processor 306.
 通信用IC301は、群管理制御装置5との通信を可能にする通信部である。RAM302は、プロセッサ306がワークに用いる揮発性メモリである。フラッシュメモリ303は、各種プログラム、及び各種データの保存に用いられる不揮発性メモリである。各種プログラムのなかには、乗場操作盤3として動作させるためのアプリケーション・プログラムが含まれる。各種データには、最下階及び最上階を示す各数値データ、表示装置32に案内用に表示させる各種メッセージデータ、上部操作領域34uと下部操作領域34dとの間の境界を示すタッチセンサ34上の位置情報等が含まれる。 The communication IC 301 is a communication unit that enables communication with the group management control device 5. The RAM 302 is a volatile memory used by the processor 306 for work. The flash memory 303 is a non-volatile memory used to store various programs and various data. Among the various programs, an application program for operating as the hall operating panel 3 is included. The various data include various numerical data indicating the lowest floor and the highest floor, various message data to be displayed on the display device 32 for guidance, and the touch sensor 34 indicating a boundary between the upper operation area 34u and the lower operation area 34d. And the like.
 2つの呼びボタン33a及び33bの各内部には、操作が検出されたことを利用者が認識できるように、LEDが設けられている。LED群304には、それらLEDが含まれる。 An LED is provided inside each of the two call buttons 33a and 33b so that the user can recognize that the operation has been detected. The LED group 304 includes those LEDs.
 入力コントローラ305は、2つの呼びボタン33a及び33bへの操作の検出に用いられる。入力コントローラ305は、2つの呼びボタン33a及び33bへの操作を監視し、それらのうちの何れかへの操作を検出した場合、操作が検出された呼びボタンを示す情報をプロセッサ306に通知する。 The input controller 305 is used to detect an operation on the two call buttons 33a and 33b. The input controller 305 monitors operations on the two call buttons 33a and 33b, and when detecting an operation on any of them, notifies the processor 306 of information indicating the call button for which the operation was detected.
 プロセッサ306は、フラッシュメモリ303に格納されたアプリケーション・プログラムを含む各種プログラムをRAM302に読み出して実行することにより、乗場操作盤3の制御を行う。このことから、本実施の形態1における制御部には、RAM302、フラッシュメモリ303、及びプロセッサ306が相当する。 The processor 306 controls the hall operating panel 3 by reading various programs including the application programs stored in the flash memory 303 into the RAM 302 and executing them. For this reason, the control unit according to the first embodiment corresponds to the RAM 302, the flash memory 303, and the processor 306.
 タッチセンサ34への操作は、プロセッサ306により検出される。また、表示装置32への情報の表示、およびLED群304を構成するLEDの選択的な点灯は、プロセッサ306によって行われる。また、プロセッサ306は、通信用IC301を介して、群管理制御装置5との間で通信を行う。 The operation on the touch sensor 34 is detected by the processor 306. The display of information on the display device 32 and the selective lighting of the LEDs constituting the LED group 304 are performed by the processor 306. Further, the processor 306 communicates with the group management control device 5 via the communication IC 301.
 プロセッサ306は、タッチセンサ34への利用者のタッチの有無を検出する。タッチされた場合には、タッチされた位置が検出される。そのため、プロセッサ306は、上部操作領域34u、及び下部操作領域34dのなかでタッチされた方を認識することができる。また、プロセッサ306は、タッチされた時間、タッチされた状態でタッチされた位置の移動方向、及び位置の移動距離を認識することができる。これらのことから、プロセッサ306は、タッチセンサ34に対して利用者が実際に行った操作に応じて、表示装置32への行先階の初期値の表示、行先階として表示した数値の更新、及び行先階の特定を行うことができる。 The processor 306 detects whether or not the user touches the touch sensor 34. When touched, the touched position is detected. Therefore, the processor 306 can recognize which of the upper operation area 34u and the lower operation area 34d is touched. Further, the processor 306 can recognize the time of the touch, the moving direction of the position touched in the touched state, and the moving distance of the position. From these facts, the processor 306 displays the initial value of the destination floor on the display device 32, updates the numerical value displayed as the destination floor, and updates the numerical value displayed as the destination floor according to the operation actually performed by the user on the touch sensor 34. The destination floor can be specified.
 操作が検出された呼びボタンを示す情報が入力コントローラ305から通知された場合、プロセッサ306は、通信用IC301を介した通信により、その呼びボタンの種類に応じた呼び登録を群管理制御装置5に対して要求する要求処理を実行する。プロセッサ306は、LED群304のなかで、その呼びボタンに対応するLEDを点灯させる。 When information indicating the call button for which the operation has been detected is notified from the input controller 305, the processor 306 transmits a call registration corresponding to the type of the call button to the group management control device 5 by communication via the communication IC 301. Executes the requested process. The processor 306 turns on the LED corresponding to the call button in the LED group 304.
 その要求により、群管理制御装置5からエレベーター装置2を示す情報を通信用IC301が受信した場合、プロセッサ306は、その情報を表示装置32に表示させる。点灯させたLEDは、その情報が示すエレベーター装置2のかご21の到着により、消灯させる。かご21の到着は、例えば群管理制御装置5によって通知される。 When the communication IC 301 receives the information indicating the elevator device 2 from the group management control device 5 according to the request, the processor 306 causes the display device 32 to display the information. The lit LED is turned off when the car 21 of the elevator device 2 indicated by the information arrives. The arrival of the car 21 is notified, for example, by the group management control device 5.
 タッチセンサ34への操作を検出した場合、プロセッサ306は、上記のように、行先階として設定可能な数値の表示装置32への表示、及び表示させた数値の更新のための更新表示処理を実行する。表示させた数値を更新した後、予め定めた時間が経過するか、或いは行先階の登録を指示するタッチセンサ34への操作を検出した場合、プロセッサ306は、表示させた数値が利用者の望む行先階を示す行先階情報であるとして確定する確定処理を実行する。確定処理の実行後、プロセッサ306は、通信用IC301を介して、表示させた数値を行先階とした登録を群管理制御装置5に対して要求する。 When the operation on the touch sensor 34 is detected, the processor 306 executes the update display process for displaying the numerical value that can be set as the destination floor on the display device 32 and updating the displayed numerical value as described above. I do. When a predetermined time has elapsed after updating the displayed numerical value or when an operation on the touch sensor 34 instructing registration of a destination floor is detected, the processor 306 determines that the displayed numerical value is desired by the user. A determination process is performed to determine the destination floor information indicating the destination floor. After the execution of the determination processing, the processor 306 requests the group management control device 5 to register the displayed numerical value as the destination floor via the communication IC 301.
 その要求により、群管理制御装置5からエレベーター装置2を示す情報を通信用IC301が受信した場合、プロセッサ306は、その情報を表示装置32に表示させる。それにより、利用者は、自身が乗車すべきエレベーター装置2、つまり指定した行先階にかご21を停止させるエレベーター装置2を特定することができる。 When the communication IC 301 receives the information indicating the elevator device 2 from the group management control device 5 according to the request, the processor 306 causes the display device 32 to display the information. Thus, the user can specify the elevator device 2 on which the user is to get on, that is, the elevator device 2 that stops the car 21 at the designated destination floor.
 このように、本実施の形態1では、乗場操作盤3への操作により、行先階登録を行うことができる。乗場操作盤3は、図2及び図3に示すように、DOAS以外に用いられる乗場操作盤がベースであり、ベースとする乗場操作盤に、行先階の設定用に操作子としてタッチセンサ34を追加した構成となっている。すなわち、本実施の形態1に係る乗場操作盤3は、ハードウェアボタン及び表示装置を備えたDOAS非対応の乗場操作盤に対して操作子を追加し、DOASに対応させる構成を備えている。このため、タッチパネルを採用する場合と比較し、乗場操作盤3は、より安価に製造することができる。DOASへの対応のために、ハードウェアボタンを多く設けた場合と比較しても、乗場操作盤3は、より安価に製造することができる。 As described above, in the first embodiment, the destination floor can be registered by operating the hall operating panel 3. 2 and 3, the landing operation panel 3 is based on a landing operation panel used in addition to the DOAS. The landing operation panel 3 is provided with a touch sensor 34 as an operation element for setting a destination floor. The configuration has been added. That is, the hall operating panel 3 according to the first embodiment has a configuration in which an operating element is added to a DOAS non-compliant hall operating panel provided with hardware buttons and a display device so as to support DOAS. For this reason, compared with the case where a touch panel is adopted, the hall operating panel 3 can be manufactured at lower cost. The hall operation panel 3 can be manufactured at a lower cost as compared with the case where a large number of hardware buttons are provided to support DOAS.
 乗場操作盤3にタッチパネルを採用していないことから、必要な情報をタイムリーに利用者に提供することは困難となる。しかし、乗場操作盤3には、昇り呼びボタン33a、及び降り呼びボタン33bの2つのハードウェアボタンが設けられている。このため、操作方法を知らない利用者、或いは操作方法を理解し難い利用者にとっては、乗場操作盤3をDOASとは異なる使用方法で使用することができる。つまり、利用者は、ハードウェアボタンに割り当てられている機能を用いて、エレベーターシステム1を利用することもできる。従って、実質的に、より幅広い利用者がエレベーターシステム1を快適に利用する環境を実現させることができる。行先階の登録により、エレベーターシステム1の輸送効率をより向上させることができる。 こ と Since the hall operation panel 3 does not employ a touch panel, it is difficult to provide necessary information to the user in a timely manner. However, the landing operation panel 3 is provided with two hardware buttons, an up call button 33a and a down call button 33b. Therefore, for a user who does not know the operation method or a user who does not easily understand the operation method, the landing operation panel 3 can be used in a usage method different from the DOAS. That is, the user can use the elevator system 1 using the function assigned to the hardware button. Accordingly, an environment in which a wider range of users can comfortably use the elevator system 1 can be realized. By registering the destination floor, the transportation efficiency of the elevator system 1 can be further improved.
 なお、本実施の形態1では、行先階を設定するための操作子としてタッチセンサ34を採用しているが、操作子は、ハードウェアボタンであっても良い。タッチセンサ34を採用している理由は、1つの操作子での行先階の設定を、より幅広い操作方法で可能とするためである。上記の例では、比較的、時間的な余裕がある状況では、タップ操作を用いれば良く、比較的、時間的な余裕がないような状況では、スワイプ操作を用いれば良い。 In the first embodiment, the touch sensor 34 is used as an operation element for setting the destination floor, but the operation element may be a hardware button. The reason why the touch sensor 34 is employed is that the destination floor can be set with one operation element using a wider operation method. In the above example, a tap operation may be used in a situation where there is a relatively long time, and a swipe operation may be used in a situation where there is a relatively little time.
 タッチセンサ34への操作に応じた行先階を示す数値の更新方法は、上記のようなものに限定されない。例えばタップした位置に応じて、自動更新を行う時間間隔を変更しても良い。具体的には、上部操作領域34uと下部操作領域34dとの境界から離れた位置にタップするほど、自動更新を行う時間間隔を短くするようにしても良い。スワイプ操作では、最初にタッチされた位置との距離に応じて、数値を増減させるようにしても良い。これらを含め、様々な変形が可能である。 The method of updating the numerical value indicating the destination floor according to the operation on the touch sensor 34 is not limited to the method described above. For example, the time interval at which automatic updating is performed may be changed according to the tapped position. Specifically, the time interval at which the automatic update is performed may be made shorter as the tap is made farther from the boundary between the upper operation area 34u and the lower operation area 34d. In the swipe operation, the numerical value may be increased or decreased according to the distance from the position touched first. Various modifications are possible including these.
 実施の形態2.
 図4は、本発明の実施の形態2に係る乗場操作盤の例を示す斜視図である。また、図5は、本発明の実施の形態2に係る乗場操作盤のハードウェア構成例を示す図である。 Embodiment 2 FIG.
FIG. 4 is a perspective view showing an example of a landing operation panel according to Embodiment 2 of the present invention. FIG. 5 is a diagram showing an example of a hardware configuration of a hall operating panel according to Embodiment 2 of the present invention.
 本実施の形態2では、図4及び図5に示すように、ハードウェアボタンとして、基準階ボタン33cを更に設けている点が上記実施の形態1と異なっている。基準階ボタン33cは、予め基準階として設定された階を行先階とした登録を要求するためのボタンである。そこで、基準階ボタン33cの機能を中心に、以下に説明する。 The second embodiment is different from the first embodiment in that a reference floor button 33c is further provided as a hardware button, as shown in FIGS. The reference floor button 33c is a button for requesting registration of a floor set in advance as a reference floor as a destination floor. Therefore, the following description will focus on the function of the reference floor button 33c.
 設定される基準階とは、例えばその基準階以外の階に居る人がエレベーター装置2を利用して移動する可能性の高い階のことである。エレベーター装置2が設置されるビルディングによっては、そのような基準階が存在する。このため、そのようなビルディングに構築されたエレベーターシステム1では、基準階に相当する階以外に設置する乗場操作盤3に基準階ボタン33cを更に設けることが考えられる。乗場操作盤3に基準階ボタン33cを更に設けることで、利用者は、基準階ボタン33cへの操作により、望む行先階登録を簡単に行うことができるようになる。従って、利便性をより向上させることができる。 The reference floor to be set is, for example, a floor that is likely to be moved by a person on a floor other than the reference floor using the elevator device 2. Such a reference floor exists depending on the building in which the elevator device 2 is installed. For this reason, in the elevator system 1 constructed in such a building, it is conceivable to further provide a reference floor button 33c on the hall operation panel 3 installed on a floor other than the floor corresponding to the reference floor. By further providing the reference floor button 33c on the hall operating panel 3, the user can easily register a desired destination floor by operating the reference floor button 33c. Therefore, convenience can be further improved.
 各階に設置された乗場操作盤3では、基準階ボタン33cに設定された基準階を示す情報は、例えばフラッシュメモリ303に保存される。その情報がフラッシュメモリ303に保存されることにより、プロセッサ306は、基準階ボタン33cへの操作に応じて、基準階を行先階とした登録を要求することができる。 で は In the hall operating panel 3 installed on each floor, information indicating the reference floor set on the reference floor button 33c is stored in, for example, the flash memory 303. By storing the information in the flash memory 303, the processor 306 can request registration of the reference floor as the destination floor in response to an operation on the reference floor button 33c.
 操作の検出により、基準階ボタン33cを示す情報が入力コントローラ305から通知された場合、プロセッサ306は、基準階を行先階として確定する確定処理を実行する。確定処理の実行後、プロセッサ306は、通信用IC301を介した通信により、基準階を行先階とした登録を群管理制御装置5に対して要求する要求処理を実行する。プロセッサ306は、LED群304のなかで基準階ボタン33cに対応するLEDを点灯させる。 When the information indicating the reference floor button 33c is notified from the input controller 305 by the detection of the operation, the processor 306 executes a determination process for determining the reference floor as the destination floor. After the execution of the determination process, the processor 306 executes a request process of requesting the group management control device 5 to register the reference floor as the destination floor by communication via the communication IC 301. The processor 306 turns on the LED corresponding to the reference floor button 33c in the LED group 304.
 その要求により、群管理制御装置5からエレベーター装置2を示す情報を通信用IC301が受信した場合、プロセッサ306は、その情報を表示装置32に表示させる。点灯させたLEDは、その情報が示すエレベーター装置2のかご21の到着により、消灯させる。かご21の到着は、例えば群管理制御装置5によって通知される。 When the communication IC 301 receives the information indicating the elevator device 2 from the group management control device 5 according to the request, the processor 306 causes the display device 32 to display the information. The lit LED is turned off when the car 21 of the elevator device 2 indicated by the information arrives. The arrival of the car 21 is notified, for example, by the group management control device 5.
 なお、本実施の形態2では、基準階ボタン33cは1つとしているが、基準階ボタン33cは2つ以上であっても良い。階床により、基準階ボタン33cに設定する基準階を異ならせても良い。 In the second embodiment, the number of the reference floor buttons 33c is one, but the number of the reference floor buttons 33c may be two or more. The reference floor set on the reference floor button 33c may be different depending on the floor.
 実施の形態3.
 図6は、本発明の実施の形態3に係る乗場操作盤の例を示す斜視図である。 Embodiment 3 FIG.
FIG. 6 is a perspective view showing an example of a hall operating panel according to Embodiment 3 of the present invention.
 本実施の形態3では、図6に示すように、タッチセンサ34を表示装置32の横に配置している点が上記実施の形態1から異なっている。タッチセンサ34を表示装置32の横に配置した理由は、表示装置32とタッチセンサ34との間の距離をより短くするためである。このような配置により、表示装置32の表示内容を確認してのタッチセンサ34の操作が、より容易となり、操作性を向上させることができる。 The third embodiment is different from the first embodiment in that the touch sensor 34 is arranged beside the display device 32 as shown in FIG. The reason why the touch sensor 34 is arranged beside the display device 32 is to make the distance between the display device 32 and the touch sensor 34 shorter. With such an arrangement, the operation of the touch sensor 34 after confirming the display content of the display device 32 becomes easier, and the operability can be improved.
 本実施の形態3では、図6に示すように、タッチセンサ34は、表示装置32に向かって右横に配置している。これは、大部分の利用者は右利きであり、タッチセンサ34への操作が利き腕で行われることが多いからである。そのため、タッチセンサ34を表示装置32に向かって右側に配置することにより、利用者の大部分にとっては、利き腕を用いてタッチセンサ34を操作したとしても、その利き腕によって表示装置32の表示内容が視認し難くなるようなことを抑制できる。 In the third embodiment, as shown in FIG. 6, the touch sensor 34 is disposed on the right side of the display device 32. This is because most users are right-handed, and the operation on the touch sensor 34 is often performed with the dominant arm. Therefore, by arranging the touch sensor 34 on the right side toward the display device 32, even if the majority of the users operate the touch sensor 34 using the dominant arm, the display content of the display device 32 is displayed by the dominant arm. It is possible to prevent the visual recognition from becoming difficult.
 本実施の形態3におけるハードウェア構成は、図3と同じである。そのため、ハードウェア構成についての説明は省略する。 ハ ー ド The hardware configuration in the third embodiment is the same as that in FIG. Therefore, description of the hardware configuration is omitted.
 実施の形態4.
 図7は、本発明の実施の形態4に係る乗場操作盤の例を示す斜視図である。 Embodiment 4 FIG.
FIG. 7 is a perspective view showing an example of a landing operation panel according to Embodiment 4 of the present invention.
 本実施の形態4では、図7に示すように、タッチセンサ34を表示装置32の横に配置すると共に、基準階ボタン33cを更に設けている点が上記実施の形態1から異なっている。タッチセンサ34を表示装置32の横に配置することにより、表示装置32の表示内容を確認してのタッチセンサ34の操作がより容易となって、操作性が向上する。また、基準階ボタン33cを設けることにより、多くの利用者にとっての利便性を向上させることができる。 The fourth embodiment is different from the first embodiment in that the touch sensor 34 is arranged beside the display device 32 and the reference floor button 33c is further provided as shown in FIG. By arranging the touch sensor 34 beside the display device 32, the operation of the touch sensor 34 after confirming the display content of the display device 32 becomes easier, and the operability is improved. Further, by providing the reference floor button 33c, the convenience for many users can be improved.
 本実施の形態4におけるハードウェア構成は、図5と同じである。そのため、ハードウェア構成についての説明は省略する。 ハ ー ド The hardware configuration in the fourth embodiment is the same as that in FIG. Therefore, description of the hardware configuration is omitted.
 なお、上記実施の形態1~4では、行先階を示す行先階情報の表示は、タッチセンサ34への操作により行っているが、行先階情報を表示させるための操作子、例えば行先階の入力を可能にするモードに移行させるための操作子をタッチセンサ34とは別に設けても良い。行先階登録を指示するための操作子を別に設けても良い。そのような操作子を別に設けたとしても、乗場操作盤3はより安価に製造することができる。操作子は、行先階の入力方法に応じて設ければ良いことから、操作子の数、各操作子に割り当てる機能、等は、特に限定されない。 In the first to fourth embodiments, the display of the destination floor information indicating the destination floor is performed by operating the touch sensor 34. However, an operator for displaying the destination floor information, for example, the input of the destination floor is input. May be provided separately from the touch sensor 34 to shift to a mode that enables the operation. An operator for instructing destination floor registration may be provided separately. Even if such an operator is provided separately, the landing operating panel 3 can be manufactured at lower cost. The number of operators may be provided according to the input method of the destination floor, and the number of operators, the function assigned to each operator, and the like are not particularly limited.
 1 エレベーターシステム、2 エレベーター装置、3 乗場操作盤、4 乗場操作盤群、5 群管理制御装置、31 操作パネル、32 表示装置、33a、33b 呼びボタン(ハードウェアボタン)、33c 基準階ボタン(ハードウェアボタン)、34 タッチセンサ(操作子)、34u 上部操作領域、34d 下部操作領域、301 通信用IC(通信部)、302 RAM、303 フラッシュメモリ、304 LED群、305 入力コントローラ、306 プロセッサ。 1 elevator system, 2 elevator device, 3 landing hall operation panel, 4 hall landing operation panel group, 5 group management control device, 31 operation panel, 32 display device, 33a, 33b call button (hardware button), 33c base floor button (hardware) Wear button), 34 touch sensor (operator), 34u upper operation area, 34d lower operation area, 301 communication IC (communication section), 302 RAM, 303 flash memory, 304 LED group, 305 input controller, 306 processor.

Claims (4)

  1.  ハードウェアボタンと、
     登録対象となる行先階を示す行先階情報を表示可能な表示装置と、
     前記行先階情報の入力操作を行うための操作子と、
     前記操作子への前記入力操作に応じて、前記表示装置への前記行先階情報の更新表示処理、及び前記行先階情報の確定処理を実行し、前記ハードウェアボタンへの操作に応じて、前記ハードウェアボタンに割り当てられた機能に基づく要求処理を実行する制御部と、
     を備える乗場操作盤。     Hardware buttons,
    A display device capable of displaying destination floor information indicating a destination floor to be registered;
    An operator for performing an input operation of the destination floor information,
    In response to the input operation to the operation element, the display processing of the destination floor information on the display device, and performs the processing of determining the destination floor information, according to the operation of the hardware button, A control unit that performs a request process based on the function assigned to the hardware button,
    Hall operation panel equipped with
  2.  前記操作子は、タッチセンサであり、
     前記制御部は、前記タッチセンサへの前記入力操作に応じて、前記更新表示処理、及び前記確定処理を実行する、
     請求項1に記載の乗場操作盤。     The operation element is a touch sensor,
    The control unit executes the update display processing and the determination processing in accordance with the input operation to the touch sensor.
    The landing operation panel according to claim 1.
  3.  前記タッチセンサは、前記表示装置に向かって前記表示装置の右横に配置されている、
     請求項2に記載の乗場操作盤。     The touch sensor is disposed on the right side of the display device toward the display device,
    The landing operation panel according to claim 2.
  4.  前記ハードウェアボタンには、予め設定された階である基準階を登録するための基準階ボタンが含まれ、
     前記制御部は、前記基準階ボタンが操作された場合には、前記基準階ボタンに予め設定された前記基準階を前記行先階として、前記行先階情報の確定処理を実行する
     請求項1から3のいずれか1項に記載の乗場操作盤。     The hardware button includes a reference floor button for registering a reference floor that is a preset floor,
    The control unit, when the reference floor button is operated, executes the processing for determining the destination floor information by setting the reference floor preset on the reference floor button as the destination floor. The landing operation panel according to any one of the above items.
PCT/JP2018/033180 2018-09-07 2018-09-07 Platform operation panel WO2020049712A1 (en)

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Publication number Priority date Publication date Assignee Title
JP2006056700A (en) * 2004-08-23 2006-03-02 Mitsubishi Electric Corp Guide device for elevator
JP2010163249A (en) * 2009-01-16 2010-07-29 Hitachi Ltd Opening and closing operation device of elevator door
US20120024638A1 (en) * 2009-02-16 2012-02-02 Kone Corporation Call panel
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