CN108367879B - Group management elevator apparatus - Google Patents

Abstract

The invention provides a group management elevator device, which can perform smooth guidance according to the state of a boarding place when displaying the allocated elevator information. The group management elevator device comprises: a destination floor input device (001) for inputting a destination floor; a group management control system (050) which receives a destination floor inputted from a destination floor input device (001), assigns a specific number ladder (041) from a plurality of number ladders (041), and outputs number ladder information; and a notification unit (012) that receives the number ladder information assigned by the group management control system (050) and notifies the assigned number ladder (041), wherein the group management control system (050) is provided with a display mode change processing unit (068) that changes the display format of the notification unit (012).

Description

Group management elevator apparatus

Technical Field

The present invention relates to a group management elevator apparatus including a destination floor registration device.

Background

As a background art in this field, there is japanese patent No. 4754765 (patent document 1). Patent document 1 describes an elevator destination floor registration device including: an input device provided at a boarding place for inputting information specifying a destination location; a storage device for storing layout information of each floor and route information from a boarding place of each floor to each destination place; a selection circuit that selects information corresponding to a destination location input to the input device from among the information stored in the storage device; a boarding place display device which is provided at the boarding place and displays the information selected by the selection circuit; and a CPU that outputs a signal for target registration to an elevator control device and outputs a signal for information selection to the selection circuit based on information input through the input device, wherein the input device is connected to an information registration device in which information corresponding to available destination locations is registered, and after inputting information to the input device, it is checked whether or not a destination location corresponding to the input information is registered in the information registration device, and only when there is registration, a signal for target floor registration is output from the CPU to the elevator control device, and a signal for information selection is output from the CPU to the selection circuit (see claims).

Documents of the prior art

Patent document

Patent document 1: japanese patent No. 4754765

Disclosure of Invention

Technical problem to be solved by the invention

The group management elevator apparatus described in patent document 1 includes a boarding place display device that selects and displays various information such as a destination place and an escape route corresponding to an input destination floor, but does not consider displaying a number assigned by a destination entry device and adjusting the display time.

The users include a user who is skilled in the elevator and a user who is used for the first time. In addition, the assigned number ladder is displayed in the same manner for all kinds of users, and the congestion situation is increased when the boarding area is congested.

Therefore, an object of the present invention is to provide a group management elevator apparatus capable of performing smooth guidance according to the situation of a boarding place when displaying assigned elevator information.

Technical scheme for solving technical problem

In order to solve the above problems, the present invention provides a group management elevator apparatus,

the disclosed device is provided with: a target floor input device that inputs a target floor; a group management control system that receives the destination floor inputted from the destination floor input device, assigns a specific number ladder from among a plurality of number ladders, and outputs number ladder information; a notification unit that receives the information of the assigned elevator number assigned by the group management control system and notifies the assigned elevator number,

the group management control system is provided with a display mode change processing unit that changes a display format of the notification unit.

Effects of the invention

According to the group management elevator apparatus of the present invention, when the number information assigned to the operation of the boarding destination floor registration device is displayed, smooth guidance can be provided according to the situation of the boarding location. Problems, structures, and effects other than those described above will be further apparent from the following description of the embodiments.

Drawings

Fig. 1 is a block configuration diagram showing a schematic configuration of a group management elevator apparatus according to an embodiment of the present invention.

Fig. 2 is a front view showing a display screen switching state (mark form) of the notification unit 012 of the group management control system 050 shown in fig. 1.

Fig. 3 is a front view showing another display screen switching state (mark form) of the notification part 012 of the group management control system 050 shown in fig. 1.

Fig. 4 is a block configuration diagram showing a schematic configuration of a group management elevator apparatus according to another embodiment of the present invention.

Fig. 5 is a front view showing a marker form of the boarding destination floor registration device 010 when the primary user is detected.

Detailed Description

Hereinafter, embodiments of the present invention will be described based on the drawings.

Example 1

Fig. 1 is a block configuration diagram showing a schematic configuration of a group management elevator apparatus according to an embodiment of the present invention.

An elevator control device comprises: an input/output control system 020 for controlling input/output signals of each unit; a boarding destination floor registration device 010 that performs destination floor call registration; a security system 030; and a group management control system 050 that performs group management control on each number of ladders 041. The boarding destination floor registration device 010, the security system 030, and the group management control system 050 are connected to each other by an input/output control system 020. The keypad device 001 and the information reading terminal device 002 connected to the boarding area destination floor registration device 010 can be regarded as a part of the boarding area destination floor registration device 010 or can be regarded as a part of the elevator control device.

The boarding destination floor registration device 010 includes an input information reading unit 011, a notification unit 012, and the like. The input information reading unit 011 is connected to an information reading terminal device 002 and a keypad device 001, and acquires ID information and a destination floor, and the information reading terminal device 002 reads ID information (personal information) registered in advance from an IC information medium such as an IC tag or an IC card held by a user, and the keypad device 001 is operated to register the destination floor. The notification unit 012, upon receiving the assigned number ladder information from the group management control system 050, notifies the user of the information.

The boarding destination floor registration device 010 constitutes a destination floor reading device that reads the destination floor input from the keypad device 001.

The notification unit 012 displays guidance on a liquid crystal display, or performs voice guidance on a speaker, for example. In the present embodiment, the assumption notifying unit 012 is configured by a liquid crystal display provided together with the keypad apparatus 001. The keypad device 001 is a destination floor input device, but is not limited to the keypad device, and other input devices may be used. In the present embodiment, in consideration of the case of being disposed in a high-rise building, a keypad device is used in order to reduce the size of the target floor input device.

The security system 030 includes a registration ID management unit 031, a destination floor output processing unit 032, and a registration device use permission output unit 033. The registration ID management section 031 registers and manages elevator device users and ID information in advance. The destination floor output processing unit 032 determines whether or not the safety-related signal read out by the information reading terminal device 002 from the IC information medium held by the user is a registration ID. When it is determined that the ID is registered in advance by the registration ID management unit 031, the registration device permits subsequent input of the destination floor from the keypad device 001 by the permission output unit 033, and validates the input.

The number ladder control device 040 that controls the plurality of number ladders 041 respectively is connected to the group management control system 050 that performs group management control.

The group management control system 050 includes an operation management control system 060, and the operation management control system 060 includes a learning system 070 and an intelligent system 080. The operation management control system 060 includes a destination floor input reception processing unit 061, a display mode change processing unit 068, an assignment number elevator specifying processing unit 065, and an assignment number elevator guidance processing unit 066. The target floor input reception processing unit 061 is a processing unit that performs reception processing based on the input of the target floor. The display mode change processing unit 068 is a processing unit for changing the mark format of the assignment ladder information in the notification unit 012. The assigned elevator number determination processing unit 065 is a processing unit that assigns an appropriate elevator number based on the input of the target floor. The assignment number ladder guidance processing unit 066 is a processing unit that outputs information of the assignment number ladder to the notification unit 012 in order to guide the identified assignment number ladder.

In the present embodiment, the mark form includes the arrangement of characters, symbols, drawings, projections, and the like related to the car number ladder guide and the like, the display duration of the car number ladder guide, and the like. The change in the mark form is to change at least one display mode of the arrangement of characters, symbols, drawings, and projections related to the number ladder guide, the display duration of the number ladder guide, and the like. The form of the indicia is also sometimes referred to as the display form.

The display mode change processing unit 068 includes a congestion time period determination processing unit 062, an assignment number ladder flag switching processing unit 063, and an assignment number ladder display time switching processing unit 064. The congestion time zone determination processing unit 062 is a processing unit that determines whether or not the time zone received by the destination floor input reception processing unit 061 is a congestion time zone. The assignment number ladder flag switching processing unit 063 is a processing unit that switches the flag format of the assignment number ladder and outputs the result to the notification unit 012. The assignment number ladder display time switching processing unit 064 is a processing unit that switches the display duration of the assignment number ladder information so as to change the display duration in accordance with the congestion time period or a time period other than the congestion time period, and outputs the change to the notification unit 012.

The congestion time zone determination processing unit 062 can set a congestion time zone of a building in advance, set a congestion time zone by a management department of a building through a monitoring panel or the like, or compare a past traffic flow rate with a current traffic flow rate through the learning system 070 to determine a congestion time zone. The congestion time zone determination processing unit 062 is a processing unit that determines a congestion time zone in which users are congested and an idle time zone in which users are fewer, and is also a specific time zone determination processing unit that determines a specific time zone in order to change the flag format described below. The specific time zone determination processing unit is not limited to the case of determining congestion or the case of idle, and may be any unit as long as it determines the specific time zone in which the flag format should be changed.

The boarding destination floor registration device 010 including the keypad device 001 and the information reading terminal device 002 can have various configurations. Here, the notification unit 012 of the boarding destination floor registration device 010 will be described by taking a series of three-stage displays shown in fig. 2 and 3 as an example.

Fig. 2 is a front view showing a display screen switching state (mark form) of the notification unit 012 of the group management control system 050 shown in fig. 1.

Fig. 2 shows a marker format of the boarding destination floor registration device 010 in the case of congestion. Most users in the case of congestion use the elevator repeatedly almost every day, and are accustomed to the form of the mark of the notification unit 012. Fig. 2 shows a mark form of the habit informing unit 012 when the user is directed to the mark form.

The boarding area destination floor registration device 010 includes: a notification unit 012, a destination floor input button 013, a wheelchair user input button 014, and an information reading terminal device 002 that reads ID information registered in advance from an IC information medium. Further, the destination floor input button 013 is constituted by the above-described keypad device 001.

The notification unit 012 performs a series of three-stage notification, i.e., display. Initially, an initial screen 012A urging input of a destination floor as illustrated in the right side of fig. 2 is displayed. When the information reading terminal device 002 reads the ID information registered in advance from the IC information medium held by the user, it is effective to input the actual destination floor by the keypad device 001. The 2 nd display shows a destination floor display screen 012B which displays the destination floor inputted as shown on the left side of fig. 2 after the destination floor is actually inputted from the keypad apparatus 001. The 3 rd is displayed a hall ladder display screen 012C showing which hall ladder is assigned.

Subsequently, after a predetermined display duration has elapsed, the number ladder display screen 012C is switched to the original input screen 012A. The mark form in fig. 2 is intended for a user who is accustomed to the mark form of the notification unit 012, and the display duration of the hall call display screen 012C is set to 2 seconds.

Next, the processing operation of each unit will be described.

The keypad device 001 and the information reading terminal device 002 shown in fig. 1 detect that the user arrives at the elevator boarding area, and the information reading terminal device 002 reads ID information from the information medium held by the user. The ID information is provided from the boarding destination floor registration device 010 to the registration ID management section 031 of the security system 030 via the input/output control system 020.

The destination floor output processing unit 032 determines whether or not the received ID information is registered in the registration ID management unit 031. If the ID information is registered, the registration device provides permission by the permission output unit 033 so that the input operation of the destination floor by the keypad device 001 becomes effective. At this time, the notification unit 012 in the boarding destination floor registration device 010 changes to an initial screen 012A shown on the right side in fig. 2.

Subsequently, when the user inputs the destination floor from the keypad device 001, the notification unit 012 in the boarding destination floor registration device 010 displays the input destination floor "12" as in the destination floor display screen 012B shown on the left side in fig. 2.

The target floor input reception processing unit 061 of the group management control system 050 performs reception processing based on the input of the target floor. In accordance with this reception processing, the congestion time zone determination processing unit 062 of the display mode change processing unit 068 determines whether or not the reception time zone is a congestion time zone. For example, the setting is performed for a person who goes to and fro in an office building, and here, a case where it is determined that the time zone is a congestion time zone will be described. The assignment number ladder flag switching processing unit 063 sets the flag format of the assignment number ladder, and here, a case will be described where only "a" is displayed when the setting is fixed as the assignment number ladder a, and only "B" is displayed when the assignment number ladder B.

On the other hand, the assignment number ladder display time switching processing unit 064 of the display mode changing processing unit 068 extracts the flag duration corresponding to the congestion time zone determined by the congestion time zone determination processing unit 062, and performs a series of flag screen switching. Here, since it is determined as the congestion time zone, a series of switching of the mark screen as shown in fig. 2 described in detail below is performed.

Subsequently, the assigned elevator specifying processing unit 065 assigns an appropriate elevator number based on the input of the target floor, and the assigned elevator number guidance processing unit 066 outputs the assigned elevator number to the notification unit 012 to guide the specified assigned elevator number. At this time, since the assignment number ladder flag switching processing unit 063 adopts a form in which the assignment number ladder is represented by only the flag "a", the notification unit 012 displays the assignment number ladder by only the flag "a" as in the case of the number ladder display screen 012C shown in the middle portion of fig. 2.

Since the congestion time zone is set for, for example, a person who gets on or off a work in an office building, the destination floor inputter uses the elevator repeatedly almost every day. Therefore, even if only the mark "a" is marked on the elevator display screen 012C, these persons can accurately identify the elevator assigned to which position.

Subsequently, the notification unit 012 prepares to guide the assigned elevator for the destination floor input person who performs the next operation, and switches from the elevator display screen 012C shown in the middle part of fig. 2 to the initial screen 012A shown in the right side of fig. 2. In the marking process at the time of congestion, the mark duration is set to 2 seconds by the assignment ladder display time switching processing unit 064, and therefore, after the display of the number ladder display screen 012C shown in the middle portion of fig. 2 is started for 2 seconds, the screen is switched to the initial screen 012A shown in the right side of fig. 2.

In this way, in the case of congestion, the number ladder display screen 012C returns to the initial screen 012A after 2 seconds. Since the user in this time zone repeatedly uses the elevator almost every day as described above, the user is already familiar with this display method, and can accurately grasp and recognize which number elevator is assigned to the user from the 2-second display on the number elevator display screen 015. Since the display duration is limited to 2 seconds, which is short, for the destination floor input person who has come, it is possible to prevent the display from staying in the vicinity of the boarding destination floor registration device 010 and to perform efficient guidance.

Fig. 3 is a front view showing another display screen switching state (mark form) of the notification part 012 of the group management control system 050 shown in fig. 1. Fig. 3 shows a flag format of the boarding destination floor registration device 010 in a time zone other than the time of congestion.

When the congestion time period determination processing unit 062 of the display mode change processing unit 068 shown in fig. 1 determines that the reception time is a time period other than the congestion time period (idle time period), the assignment number ladder display time switching processing unit 064 performs a series of flag screen switching based on the flag time (flag format) in the idle time period.

When a user at leisure inputs a destination floor from the keypad device 001, the initial screen 012A shown on the right side of fig. 3 is changed to the destination floor display screen 012B shown on the left side of fig. 3, and the destination floor "12" that has been input is displayed.

Subsequently, the assigned elevator specifying processing unit 065 assigns an appropriate elevator number based on the input of the target floor, and the assigned elevator number guidance processing unit 066 outputs the assigned elevator number to the notification unit 012 to guide the specified assigned elevator number. The notification unit 012 at this time switches from the destination floor display screen 012B shown on the left side in fig. 3 to the stairway display screen 012C shown in the middle in fig. 3, and displays that the assigned stairway is "a".

After the idle-time display duration set by the assignment elevator display time switching processing unit 064 has elapsed, the notification unit 012 switches and displays the number elevator display screen 012C shown in the middle portion of fig. 3 to the initial screen 012A shown on the right side of fig. 3, and prepares to guide the assignment elevator for the destination floor input person who operates next. In the idle time flag processing, the assigned number ladder display time switching processing section 064 sets the display duration, and after the flag on the number ladder display screen 012C shown in the middle part of fig. 3 is switched, the set flag is switched to the initial screen 012A shown on the right side of fig. 3 after a lapse of 5 seconds.

In this way, the number ladder display screen 012C continues to display the assigned number ladder for 5 seconds in a time period other than the time of congestion, and returns to the initial screen 012A after 5 seconds have elapsed. Users in time periods other than the crowded hours are different from those in commuting hours, and many users rarely use elevators. Therefore, less accustomed to this guidance method, the associated display "a" of the number ladder assigned to itself may be overlooked. However, since the number ladder display screen 012C is held for a long time such as 5 seconds, the number ladder allocated to itself can be reliably confirmed and recognized. In addition, since the display is idle, even if the display is continued for a long period of 5 seconds, the display does not stay in the vicinity of the boarding destination floor registration device 010.

In the present embodiment, when the information on the assigned number elevator is provided to the notification unit 012 of the boarding destination floor registration device 010 in response to the operation of the boarding destination floor registration device 010, whether the boarding destination is congested or not is discriminated, and the assigned number elevator is guided with a shorter display duration in the case of congestion. On the other hand, in other cases, the assignment number ladder is guided by a longer display duration than that in the crowded state. Thus, the difference in the degree of use of the elevator device by the user between the time of congestion and the other times is fully utilized, and guidance is performed without adversely affecting the state of the boarding area, thereby enabling smoother guidance.

In the above description, the case where the congestion time zone determination processing unit 062 determines the congestion time zone and the other time zones has been described, but more detailed differentiation may be provided. Further, the display durations of the No. ladder display screen 015 in the assignment number ladder display time switching processing section 064 may be more finely divided, or the contents are not limited to the above-described embodiment. However, the following relationship cannot be changed: that is, in a time period other than the time of congestion, the assigned-number ladder display duration of the number ladder display screen 012C is longer than the assigned-number ladder display duration of the number ladder display screen 012C in the time of congestion.

In addition to the number display duration, the setting value of the boarding destination floor registration device 010 is changed according to the congestion time zone and other time zones. For example, the user may input the 12 th floor and the 3 rd floor by using the keypad device 001 of the boarding destination floor registration device 010. When the latter inputs floor 3, if "3" is input through the small keyboard 001, a waiting time for the 2 nd digit input is generated to specify the destination floor. When the boarding destination floor registration device 010 determines that no 2 nd digit is input, the destination floor is determined to be "3", the input waiting time is set by the group management control system 050, for example, and the input waiting time of the boarding destination floor registration device 010 is changed according to the set input waiting time.

For users on floors lower than 10 floors, the shorter the input waiting time is, the shorter the time for specifying the destination floor becomes, and the time for each person to input the boarding destination floor registration device 010 is shortened. Therefore, it is expected to improve the transportation ability or alleviate the congestion at the boarding area. However, if there is an unaccustomed user among users who have floors 10 or more, the user can use the boarding destination floor registration device 010 more leisurely as the input waiting time is longer, and the convenience of use is also improved.

Therefore, the crowded time zone places importance on the transportation capacity, and the other time zones place importance on the convenience of the user. For this purpose, in the present embodiment, a setting value changing unit 069 is provided which changes the setting value of the boarding destination floor registration device (destination floor reading device) 010 in accordance with the time slot or the traffic demand of the building so that the input waiting time of the congestion time slot is set to a short time and the input waiting time of the other time slots is set to a long time. In the present embodiment, the set value changing unit 069 is provided in the operation management control system 060 of the group management control system 050.

Example 2

Fig. 4 is a block configuration diagram showing a schematic configuration of a group management elevator apparatus according to another embodiment of the present invention.

The same reference numerals are given to the same components as those in embodiment 1, and detailed description thereof is omitted, and different portions are described in detail. In this embodiment, it is determined whether or not the user is an unaccustomed user, that is, whether or not the user is the first user, and when the user is determined to be the first user, the display mode changing unit 068 changes the mark form of the assigned number ladder to a mode that is easily understood by the first user.

The boarding area destination floor registration device 010 is newly provided with a first user determination unit 013 which is connected to a boarding area user detection device such as the human body sensor 003 or the camera 004 and determines whether or not a user who wants to input a destination floor is a first user based on input information generated thereby. Therefore, the boarding location user detection device is provided at the boarding location.

That is, the primary user determination unit 013 detects the presence of a user who wants to input a destination floor before the boarding destination floor registration device 010 by the human body sensor 003 and the camera 004, and measures the stay time of the user. Then, the first user determination section 013 determines whether or not the user is the first user, based on the stay time of the user. When the first user determination unit 013 determines that the user is the first user, it transmits a command signal to the first user determination processing unit 067 of the group management control system 050.

For example, the primary user determination unit 013 detects that the user input to the boarding destination floor registration device 010 is confused by the human body sensor 003 or the camera 004 provided in the boarding destination floor registration device 010. Specifically, when the time required for the user to input the boarding destination floor registration device 010 exceeds a preset threshold value (5 seconds) after the user is detected, the primary user determination unit 013 determines the user as the primary user.

Similarly, the security system 030 is added with a primary user information output processing unit 034 that detects (determines), based on the registered information, that the user who wants to input the destination floor is the primary user. When the primary user information output processing part 034 detects a primary user, it transmits a command signal to the primary user determination processing part 067 of the group management control system 050.

The present embodiment includes a primary user determination unit 013 and a primary user information output processing unit 034 for detecting a primary user. In general, depending on the detection method, the detection of the first user by the first user information output processing unit 034 takes less time than the detection of the first user by the first user determination unit 013. In this case, the completion of the detection of the primary user may be communicated from the primary user information output processing unit 034 to the primary user determination unit 013 at the time of completion of the detection of the primary user, and the detection of the primary user by the primary user determination unit 013 may be ended.

When the primary user determination unit 013 detects that the primary user has completed earlier than the detection of the primary user by the primary user information output processing unit 034, the completion of the detection of the primary user may be communicated from the primary user determination unit 013 to the primary user information output processing unit 034, and the detection of the primary user by the primary user information output processing unit 034 may be ended.

The first user determination unit 013 may be configured to determine whether or not the first user is unaccustomed to based on employee identification information in association with building management, for example.

The first user determination unit 013 may read ID information of an information terminal or an ID tag carried by a user and may check the ID information with the security system 030. The security system 030 registers a first user or an unaccustomed user (an unfamiliar user) in advance. The security system 030 can determine whether or not a user is registered as a primary user or an unskilled user based on ID information from the primary user determination unit 013.

This determination function in the security system 030 is performed by the first user information output processing unit 034. The first user determination unit 013 may have the determination function of the security system 030, or the security system 030 may have the function of the first user determination unit 013 for performing the determination. For example, the ID information of the user is transmitted from the primary user determination unit 013 to the security system 030, and the usage information of the user is returned from the security system 030 to the primary user determination unit 013. The primary user determination unit 013 determines whether or not the user is the primary user or an unskilled user based on the usage information of the user sent from the security system 030.

In any case, the primary user determination unit for determining the primary user is realized by either the primary user determination unit 013 or the primary user information output processing unit 034, or by the primary user determination unit 013 and the primary user information output processing unit 034 in cooperation.

On the other hand, a first user determination processing unit 067 for performing a process of distinguishing a first user from other users when receiving a determination signal from a first user determination unit 013 is added to a display pattern change processing unit 068 of the group management control system 050. When the initial user determination processing unit 067 receives the signal as the initial user, the allocation number ladder flag switching processing unit 063 switches to the initial user flag. In the above embodiment, the assignment number ladder flag switching processing unit 063 fixes the assignment number ladder as a letter flag format such as "a", and here changes the flag format to a format that is easily understood by the first user as described below.

The relationships among the primary user determination processing unit 067, the congestion time zone determination processing unit 062, and the assignment number ladder display time switching processing unit 064, which constitute the display mode change processing unit 068, may be variously combined. For example, when the initial user determination processing unit 067 determines that the user is the initial user, the assignment number ladder display time switching processing unit 064 may extract the display duration that is a time zone other than the time zone of congestion even when the congestion time zone determination processing unit 062 determines that the time zone is the congestion time zone. In another embodiment, even when the primary user is determined by the primary user determination processing unit 067, the determination processing by the congestion time zone determination processing unit 062 and the assignment number step display time switching processing unit 064, which are the same as those in embodiment 1, may be performed, and the assignment number step display may be changed to a format that is easily understood by a primary user, which is different from that in embodiment 1.

However, here, the following is explained: that is, when the primary user is determined by the primary user determination processing unit 067, the assignment number ladder display time switching processing unit 064 selects the display duration of the time zone other than the congested time without being limited to the determination by the congested time zone determination processing unit 062.

When the initial user is determined by the initial user determination processing unit 067 in this manner, the assignment number ladder flag switching processing unit 063 switches to the initial user display, and the assignment number ladder display time switching processing unit 064 switches to the display duration of the time zone other than the time of congestion.

Fig. 5 is a front view showing a marker form of the boarding destination floor registration device 010 when the primary user is detected.

As in the case of embodiment 1, when the user inputs the destination floor from the keypad apparatus 001 for the first time, the initial screen 012A shown on the right side of fig. 5 is switched to the destination floor display screen 012B shown on the left side of fig. 5, and the destination floor "12" that has been input is displayed.

Subsequently, the assigned-number-elevator specifying processing unit 065 assigns an appropriate elevator number based on the input of the target floor, and the assigned-number-elevator guidance processing unit 066 outputs the assigned-number elevator number to the notification unit 012 in order to assign the assigned elevator number. The notification unit 012 at this time switches from the destination floor display screen 012B shown on the left side in fig. 5 to the elevator display screen 012C shown in the middle in fig. 5, and displays the assigned elevator information in the form of easily understandable marks.

Here, if 4 ladders are simultaneously provided at the boarding area, the marking format of the assigned ladder information on the ladder display screen 012C displays the 4 ladders in advance in the order of "a", "B", "C", and "D", respectively, according to the actual simultaneous installation state (arrangement). When the assigned number ladder is determined to be "a" by the assigned number ladder guidance processing unit 066, the mark form of the assigned number ladder information on the number ladder display screen 012C is such that the determined number ladder "a" is highlighted by adding an additional highlight to the marks of "a" to "D" and is displayed in a state of being distinguished from other number ladders. Further, an arrow or the like indicating a route or a direction from the current position to the assigned number ladder "a" is newly added to the display.

In this way, the assignment number ladder information is displayed in the form of a mark that is easier to understand, and visibility is further improved. Therefore, even the first user can easily deal with the number ladder display screen 012C and the 4-number ladders actually installed at the same time, and can easily determine the actual position of the assigned number ladder "a" assigned to himself/herself.

Subsequently, after the display duration set by the assigned number ladder display time switching processing unit 064 has elapsed, that is, after a longer time (5 seconds) than that set at the time of congestion has elapsed, the notification unit 012 switches from the number ladder display screen 012C shown in the middle portion of fig. 5 to the initial screen 012A shown on the right side of fig. 5. Then, in the state of the initial screen 012A, the notification unit 012 prepares to guide the assignment number elevator to the destination floor input person who operates next.

Here, the assigned number ladder is continuously displayed on the number ladder display screen 012C for 5 seconds for the first user as in the idle state, so that even the first user who is not familiar with the display method can reliably confirm and recognize without overlooking the display "a" related to the number ladder assigned to the first user.

In addition, even when the destination floor input person who is used to the elevator in a daily routine subsequently operates the elevator in a congested time zone, it can be determined that the destination floor input person is not the first user, and the assigned number elevator display time switching processing unit 064 can return the display duration to 2 seconds. Therefore, even in a congested time zone, it is possible to suppress occurrence of a large-scale stagnation in the vicinity of the boarding destination floor registration device 010.

In this embodiment, when the assigned elevator information is provided to the notification unit 012 of the boarding destination floor registration device 010 in response to the operation of the boarding destination floor registration device 010, the initial user to whom the operation is unaccustomed is determined, and the indication is changed to a mark format in which the assigned elevator information is easier to understand for the initial user than in the case of other users. Therefore, even in a congestion time zone, it is possible to provide a more smooth guidance without adversely affecting the situation of the boarding area by providing a careful guidance to the initial user and preventing the user from staying near the boarding area destination floor registration device 010.

The primary user determination unit 013 and the primary user information output processing unit 034 may be processing units that determine not only the primary user but also users who are not skilled in using the group management elevator apparatus (unskilled users) who have a small number of uses. The first user determination unit 013 and the first user information output processing unit 034 are specific user determination units for determining a specific user such as a first user from among users. The specific user determination unit is not limited to determining the first user and the unskilled user, and may be any determination unit that determines the specific user whose mark form should be changed.

In embodiment 1, the above description is also made, and the contents of the change may be changed by changing the setting value in addition to the flag form of the boarding destination floor registration device 010. In this case, both the flag form and the setting value can be changed.

In this embodiment, when the first user is detected, the input waiting time for the 2-digit input may be extended.

The present invention is not limited to the above embodiments, and includes various modifications. For example, the above embodiments have been described in detail so that the present invention can be easily understood, but the present invention is not limited to the embodiments having all the configurations described. The structures of other embodiments may be added to the structure of one embodiment.

Description of the reference symbols

A 010 … boarding destination floor registration device, a 012 … notification unit, a 013 … initial user determination unit, a 030 … security system, a 050 … group management control system, a 062 … congestion time period determination processing unit, a 063 … assignment number ladder flag switching processing unit, a 064 … assignment number ladder display time switching processing unit, a 065 … assignment number ladder determination processing unit, a 066 … assignment number ladder guidance processing unit, a 067 … … initial user determination processing unit, and a 068 … … display mode change processing unit.

Claims (8)

1. A group management elevator apparatus comprising:

a target floor reading device that reads a target floor from a boarding place; a group management control system that receives the target floors inputted from the target floor reading device, assigns a specific number ladder from among the plurality of number ladders, and outputs number ladder information; and a notification unit for receiving the information on the assigned elevator number and notifying the assigned elevator number, wherein the group management elevator apparatus,

the group management control system is provided with:

a display mode change processing unit that changes a display format of the notification unit; and

a congestion time zone determination processing unit that determines a congestion time zone in which a user is congested and an idle time zone in which the number of users is small as a specific time zone determination processing unit that determines a specific time zone,

when the congestion time zone determination processing unit determines that the time zone is in the idle time zone, the display mode change processing unit changes the display duration of the number ladder guidance in the display format to a time longer than the display duration in the congestion time zone.

2. Group management elevator arrangement according to claim 1,

the display mode change processing unit changes at least one display form of characters, symbols, drawings, or projections of the number ladder guide in addition to the display duration.

3. Group management elevator arrangement according to claim 1,

further comprises a set value changing unit for changing the set value of the destination floor reading device,

the set value changing unit changes an input waiting time when the destination floor is input.

4. Group management elevator arrangement according to any one of claims 1 to 3,

includes a specific user determination unit for determining a specific user from users,

the display mode change processing unit changes the display format when receiving a determination signal transmitted from the specific user determination unit.

5. Group management elevator arrangement according to claim 4,

comprises a passenger position user detection device arranged at a passenger position,

when the time required for the user to input the information on the destination floor input device exceeds a preset threshold after the user is detected, the specific user determination unit determines that the user is a primary user or an unskilled user.

6. Group management elevator arrangement according to claim 4,

comprises an information reading terminal device for reading information of an information terminal or an ID tag carried by a user,

the specific user determination unit determines the user to be a primary user or an unskilled user based on the information read by the information reading terminal device.

7. Group management elevator arrangement according to claim 4,

the specific user determination section is an initial user determination section for determining an initial user or an unskilled user,

the display mode change processing unit changes the display duration of the number ladder guide in the display format to a longer time than the display duration when the first user determination unit determines that the user is the first user.

8. Group management elevator arrangement according to claim 3,

further comprises a first user determination unit for determining a first user or an unskilled user as a specific user determination unit for determining a specific user from users,

when the first user determination unit determines that the user is a first user, the setting value change unit changes the input waiting time when the destination floor is input to a longer time than the input waiting time when the user is determined to be another user.

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