CN112703164A

CN112703164A - Elevator system and portable terminal

Info

Publication number: CN112703164A
Application number: CN201880097230.0A
Authority: CN
Inventors: 井上淳; 滨田恭平
Original assignee: Mitsubishi Electric Building Techno Service Co Ltd
Current assignee: Mitsubishi Electric Building Solutions Corp
Priority date: 2018-09-26
Filing date: 2018-09-26
Publication date: 2021-04-23
Also published as: JPWO2020065764A1; JP6597937B1; KR102522955B1; WO2020065764A1; KR20210042958A

Abstract

The elevator system is provided with a transmission device (2), a storage unit (20), a setting unit (21), a setting unit (22), and a registration unit (23). The storage unit (20) stores a 1 st specific floor and a 2 nd specific floor. A setting unit (21) sets one of the 1 st specific floor and the 2 nd specific floor as a departure floor. A setting unit (22) sets the other of the 1 st specific floor and the 2 nd specific floor as a destination floor. A registration unit (23) registers a call based on the departure floor set by the setting unit (21) and the destination floor set by the setting unit (22).

Description

Elevator system and portable terminal

Technical Field

The invention relates to an elevator system and a portable terminal.

Background

Patent document 1 describes an elevator system. In the system described in patent document 1, a destination floor of a user is registered in advance in a mobile terminal. When the portable terminal receives a specific wireless signal, information of the destination floor is automatically transmitted from the portable terminal.

Documents of the prior art

Patent document

Patent document 1: japanese patent No. 6321124

Disclosure of Invention

Problems to be solved by the invention

In the system described in patent document 1, only one destination floor can be registered for one building. For example, when the user locates his or her own office at floor 7 of the building, floor 7 is registered as the destination floor in advance. Therefore, for example, there are the following problems: the user performs automatic registration of a call when traveling from floor 1 to floor 7 where the office is located, but cannot perform automatic registration of a call when traveling from floor 7 where the office is located to floor 1.

The present invention has been made to solve the above problems. The purpose of the present invention is to provide an elevator system capable of setting an appropriate floor from a plurality of floors as a destination floor when performing automatic registration of a call. Another object of the present invention is to provide a portable terminal capable of setting an appropriate floor as a destination floor from among a plurality of floors when performing automatic registration of a call.

Means for solving the problems

An elevator system of the present invention includes: a transmitting device that transmits a wireless signal for starting an application; a storage unit which stores a 1 st specific floor and a 2 nd specific floor; a 1 st setting means for setting, as a departure floor, one of a 1 st specific floor and a 2 nd specific floor stored in the storage means, in accordance with a 1 st signal transmitted from the portable terminal by the start of the application; a 2 nd setting means for setting the other of the 1 st specific floor and the 2 nd specific floor stored in the storage means as a destination floor; and a registration means for registering a call based on the departure floor set by the 1 st setting means and the destination floor set by the 2 nd setting means.

A portable terminal of the present invention includes: a storage unit which stores a 1 st specific floor and a 2 nd specific floor; a 1 st setting means for setting one of the 1 st specific floor and the 2 nd specific floor stored in the storage means as a departure floor in accordance with a wireless signal from the transmitter; a 2 nd setting means for setting the other of the 1 st specific floor and the 2 nd specific floor stored in the storage means as a destination floor; and a communication means for transmitting information on the departure floor set by the 1 st setting means and information on the destination floor set by the 2 nd setting means.

Effects of the invention

According to the present invention, when performing automatic registration of a call, an appropriate floor can be set as a destination floor from among a plurality of floors.

Drawings

Fig. 1 is a diagram showing an example of an elevator system according to embodiment 1.

Fig. 2 is a diagram showing an example of the control device.

Fig. 3 is a flowchart showing an example of the operation of the portable terminal.

Fig. 4 is a flowchart showing an example of the operation of the control device.

Fig. 5 is a diagram showing another example of the elevator system according to embodiment 1.

Fig. 6 is a diagram showing an example of the group control device and the control device.

Fig. 7 is a flowchart showing an example of the operation of the group control device.

Fig. 8 is a flowchart showing an example of the operation of the control device.

Fig. 9 is a diagram showing an example of an elevator system according to embodiment 2.

Fig. 10 is a diagram showing an example of a server and a control device.

Fig. 11 is a flowchart showing an example of the operation of the portable terminal.

Fig. 12 is a flowchart showing an example of the operation of the server.

Fig. 13 is a flowchart showing an example of the operation of the control device.

Fig. 14 is a diagram showing another example of an elevator system according to embodiment 2.

Fig. 15 is a diagram showing an example of the group control device and the control device.

Fig. 16 is a flowchart showing an example of the operation of the group control device.

Fig. 17 is a flowchart showing an example of the operation of the control device.

Fig. 18 is a diagram showing an example of a portable terminal and a control device.

Fig. 19 is a flowchart showing an example of the operation of the portable terminal.

Fig. 20 is a flowchart showing an example of the operation of the control device.

Fig. 21 is a diagram showing an example of hardware resources of the control device.

Fig. 22 is a diagram showing another example of hardware resources of the control device.

Detailed Description

The invention is described with reference to the accompanying drawings. The repeated explanation will be appropriately simplified or omitted. In the drawings, the same reference numerals denote the same or equivalent parts.

Embodiment 1.

Fig. 1 is a diagram showing an example of an elevator system according to embodiment 1. The elevator system shown in fig. 1 includes, for example, an elevator apparatus 1, a transmission apparatus 2, a portable terminal 3, and a reception apparatus 4.

The elevator apparatus 1 includes, for example, a car 11 and a counterweight 12. The car 11 moves up and down in the hoistway 13. The car 11 and the counterweight 12 are suspended in the hoistway 13 by the main ropes 14. The main ropes 14 are wound around a drive sheave 16 of a hoisting machine 15. The hoisting machine 15 is controlled by a control device 17. That is, the control device 17 controls the movement of the car 11. The car 11 is provided with a car door. Landing doors are provided at each landing 5 of an elevator where the car 11 stops. The control device 17 opens and closes the car door after the car 11 stops at a certain landing 5. No means for driving the landing door is provided at the landing 5. When the car door opens and closes at the opposite position, the landing door opens and closes in conjunction with the opening and closing of the car door. That is, the controller 17 controls the opening and closing of the door.

The transmission device 2 is, for example, a beacon. The transmission device 2 transmits a radio signal of a specific frequency band. The transmission device 2 is provided at a plurality of landings 5 at which the car 11 stops. The transmission device 2 may be installed in all the landings 5 where the car 11 stops. The transmission device 2 may be provided at a part of the landing 5 where the car 11 stops.

The portable terminal 3 is a terminal owned by a user. The portable terminal 3 is, for example, a smartphone. In the present system, a user can register a call using the mobile terminal 3. In order to perform call registration by the mobile terminal 3, a specific application for call registration needs to be installed in advance in the mobile terminal 3. For example, the user can download the application to the mobile terminal 3 by accessing a homepage of a maintenance company that manages the elevator apparatus 1 from the mobile terminal 3. In the following description, this application is referred to as "application a".

The receiving device 4 is connected to a control device 17. Fig. 1 shows an example in which the receiving apparatus 4 is directly connected to the control apparatus 17. The receiving apparatus 4 may be connected to the control apparatus 17 via a specific device. The reception device 4 receives a signal from the portable terminal 3 in which the application a is installed. The receiving device 4 transmits the signal received from the portable terminal 3 to the control device 17.

Fig. 2 is a diagram showing an example of the control device 17. The control device 17 includes, for example, a storage unit 20, a setting unit 21, a setting unit 22, a registration unit 23, and an operation control unit 24.

Hereinafter, the operation of the present system will be described in detail. Fig. 3 is a flowchart showing an example of the operation of the mobile terminal 3.

In the landing 5, the transmission device 2 transmits a radio signal at a fixed cycle, for example. The mobile terminal 3 has a function of receiving a wireless signal transmitted from the transmission device 2. The mobile terminal 3 determines whether or not the wireless signal transmitted from the transmission device 2 is received (S101).

For example, consider an example in which the user B who holds the mobile terminal 3 moves from floor 1 of a workplace building to floor 7 where his office is located. In the description of this example, when it is necessary to specify a landing 5 specifically, a landing 5 of 1 floor is referred to as a landing 5-1. Similarly, a landing 5 with 7 floors is referred to as a landing 5-7. The transmission devices 2 are provided in the landings 5-1 and 5-7, respectively. In the description of this example, when it is necessary to specify the transmission device 2, the transmission device 2 installed in the hall 5-1 will be referred to as a transmission device 2-1. Similarly, the transmission devices 2 installed in the landings 5-7 will be referred to as transmission devices 2-7.

When the user B who has the mobile terminal 3 approaches the hall 5-1, the wireless signal transmitted from the transmission device 2-1 is received by the mobile terminal 3 (YES at S101). When the portable terminal 3 receives the wireless signal transmitted from the transmission device 2-1, the application a is automatically started in the portable terminal 3 (S102).

The wireless signal transmitted by the transmission device 2 is a signal for automatically starting the application a installed in the mobile terminal 3. The wireless signal transmitted by the transmitter 2 includes floor information, for example. The floor information is information for specifying the floor on which the transmission device 2 is set. For example, the wireless signal transmitted from the transmission device 2-1 includes floor information for specifying "floor 1". The wireless signal transmitted from the transmission device 2-7 includes floor information for specifying "7 floors".

When the application a is started in S102, the 1 st signal is automatically transmitted from the portable terminal 3 (S103). The 1 st signal includes, for example, floor information included in a radio signal from the transmitter 2. In the above example, the 1 st signal includes floor information "level 1" included in the radio signal from the transmitter 2-1. Furthermore, the 1 st signal from the portable terminal 3 also contains identification information. The identification information is information for identifying the mobile terminal 3, i.e., the user of the mobile terminal 3. The identification information is, for example, a terminal ID.

The 1 st signal from the portable terminal 3 is received by the receiving device 4. The receiving device 4, upon receiving the 1 st signal from the portable terminal 3, transmits the received 1 st signal to the control device 17. The receiving device 4 is provided, for example, at a specific location of a building so as to be able to receive the 1 st signal transmitted from the portable terminal 3.

Fig. 4 is a flowchart showing an example of the operation of the control device 17. The control device 17 determines whether or not the 1 st signal is received from the mobile terminal 3 (S201). When the receiving apparatus 4 receives the 1 st signal transmitted from the portable terminal 3 in S103, it is determined as yes in S201.

The storage unit 20 stores a floor table for each user in advance. The 1 st specific floor and the 2 nd specific floor are registered in advance in each floor table stored in the storage unit 20. The 1 st and 2 nd specific floors are floors that can be destination floors of users. For example, in the floor table of the user B stored in the storage unit 20, "1 st floor" is registered as the 1 st specific floor, and "7 th floor" is registered as the 2 nd specific floor. In the description of this example, the floor table of the user B is referred to as a floor table C and is distinguished from other floor tables stored in the storage unit 20. Table 1 shows an example of the floor table C stored in the storage unit 20. Table 2 shows another example of the floor table stored in the storage unit 20.

[ Table 1]

[ Table 2]

The setting unit 21 sets one of the 1 st specific floor and the 2 nd specific floor stored in the storage unit 20 as a departure floor in response to the 1 st signal from the portable terminal 3. Specifically, the setting unit 21 selects one of the floor tables stored in the storage unit 20 based on the identification information included in the 1 st signal from the portable terminal 3 (S202). For example, when the receiving device 4 receives the 1 st signal from the mobile terminal 3 of the user B, the setting unit 21 selects the floor table C from the identification information "12345" included in the 1 st signal.

Next, the setting unit 21 sets one of the 1 st specific floor and the 2 nd specific floor registered in the floor table selected in S202 as the departure floor based on the floor information included in the 1 st signal from the portable terminal 3 (S203). In the above example, the 1 st signal includes floor information for determining "floor 1". The setting unit 21 sets the 1 st specific floor "floor 1" registered in the floor table C as the departure floor of the user B based on the floor information "floor 1" included in the 1 st signal.

The setting unit 22 sets a destination floor based on the floor selected by the setting unit 21 and the departure floor set by the setting unit 21 (S204). For example, the setting unit 22 sets the other of the 1 st specific floor and the 2 nd specific floor stored in the storage unit 20 as the destination floor. In the above example, the 1 st specific floor "floor 1" and the 2 nd specific floor "floor 7" are registered in the floor table C. Since the setting unit 21 sets the 1 st specific floor "floor 1" as the departure floor in S203, the setting unit 22 sets the 2 nd specific floor "floor 7" as the destination floor in S204.

The registration unit 23 registers a call based on the departure floor set by the setting unit 21 and the destination floor set by the setting unit 22 (S205). When a call is registered in S205, the operation control section 24 makes the car 11 respond to the registered call (S206). Specifically, the operation control unit 24 stops the car 11 at the departure floor and opens the door. The operation control section 24 moves the car 11 to the destination floor after the door is closed at the departure floor. The operation control unit 24 stops the car 11 at the destination floor and opens the door.

In the example shown in the present embodiment, the user can register a call using the mobile terminal 3. When the user approaches the hall 5 with the mobile terminal 3, a call can be automatically registered by setting an appropriate floor as a destination floor from among a plurality of floors (the 1 st specific floor and the 2 nd specific floor) registered in advance. The user does not need to operate the portable terminal 3 in order to register a call.

When the user B goes from floor 7 to floor 1 where the office is located, the user B only has to carry the portable terminal 3 to the hall 5-7. When the user approaches the hall 5-7 with the portable terminal 3, the wireless signal transmitted from the transmission device 2-7 is received by the portable terminal 3 (yes at S101). When the portable terminal 3 receives the wireless signal transmitted from the transmission device 2-7, the application a is automatically started in the portable terminal 3 (S102), and the 1 st signal is transmitted (S103). The 1 st signal includes floor information "7 th floor" included in the radio signal from the transmission device 2-7.

When the receiving device 4 receives the 1 st signal transmitted from the mobile terminal 3 in S103 (yes in S201), the setting unit 21 selects the floor table C based on the identification information "12345" included in the 1 st signal in the control device 17 (S202). Next, the setting unit 21 sets the 2 nd specific floor "floor 7" registered in the floor table C as the departure floor of the user B based on the floor information "floor 7" included in the 1 st signal (S203). Since the setting unit 21 sets the 2 nd specific floor "floor 7" as the departure floor in S203, the setting unit 22 sets the 1 st specific floor "floor 1" as the destination floor in S204. Thus, in S205, calls with a departure floor of 7 floors and a destination floor of 1 floor are automatically registered.

Another example of the present system is described below. The present system may also adopt a plurality of examples shown below in combination.

For example, the transmission device 2 may not communicate with the control device 17. The transmission device 2 may not be connected to the equipment provided in the elevator apparatus 1. The transmission device 2 may include a battery therein.

As another example, the transmission device 2 may communicate with the control device 17. The transmission control from the transmission device 2 may be performed by the control device 17. When the transmission device 2 communicates with the control device 17, the transmission device 2 may have the function of the reception device 4.

As another example, when the elevator system performs group management, the group control device 6 may include a part of the above-described functions of the control device 17. Fig. 5 is a diagram showing another example of the elevator system according to embodiment 1. The elevator system shown in fig. 5 includes, for example, a plurality of elevator devices 1, a group control device 6, a transmission device 2, a portable terminal 3, and a reception device 4.

The group control device 6 controls a plurality of elevator devices 1, i.e., a plurality of cars 11, as one group. As a simplest example, fig. 5 shows an example in which the group control device 6 controls 2 elevator devices 1 as one group. The group control device 6 is connected to the control device 17 of each elevator apparatus 1.

In the example shown in fig. 5, the receiving apparatus 4 is connected to the group control apparatus 6. The receiving apparatus 4 may be directly connected to the group control apparatus 6, or may be connected to the group control apparatus 6 via another device. When receiving a signal from the mobile terminal 3, the receiving device 4 transmits the received signal to the group control device 6.

Fig. 6 is a diagram showing an example of the group control device 6 and the control device 17. Fig. 6 shows an example in which the group control device 6 includes the respective functions of the storage unit 20, the setting unit 21, the setting unit 22, and the registration unit 23 included in the control device 17 in the example shown in fig. 2. That is, in the example shown in fig. 6, the group control device 6 includes a storage unit 20, a setting unit 21, a setting unit 22, and a registration unit 23. The group control device 6 further includes an assignment unit 25. The control device 17 includes, for example, an operation control unit 24.

The operation of the elevator system shown in fig. 5 and 6 will be described in detail below. The operation of the mobile terminal 3 is the same as the example shown in fig. 3. Fig. 7 is a flowchart showing an example of the operation of the group control device 6. The processing shown in S301 to S305 of fig. 7 is basically the same as the processing shown in S201 to S205.

For example, the group control device 6 determines whether or not the 1 st signal is received from the mobile terminal 3 (S301). When the receiving apparatus 4 receives the 1 st signal transmitted from the portable terminal 3 in S103, it is determined as yes in S301.

As described above, the floor table for each user is stored in advance in the storage unit 20. The 1 st specific floor and the 2 nd specific floor are registered in advance in each floor table stored in the storage unit 20. If it is determined as yes in S301, the setting unit 21 selects one of the floor tables stored in the storage unit 20 (S302). For example, when the receiving device 4 receives the 1 st signal from the mobile terminal 3 of the user B, the setting unit 21 selects the floor table C based on the identification information "12345" included in the 1 st signal.

Next, the setting unit 21 sets one of the 1 st specific floor and the 2 nd specific floor registered in the floor table selected in S302 as a departure floor (S303). For example, the setting unit 21 sets the 1 st specific floor "floor 1" registered in the floor table C as the departure floor of the user B based on the floor information "floor 1" included in the 1 st signal.

The setting unit 22 sets the other of the 1 st specific floor and the 2 nd specific floor registered in the floor table selected in S302 as a destination floor (S304). In the above example in which the 1 st specific floor "floor 1" and the 2 nd specific floor "floor 7" are registered in the floor table C, the setting portion 22 sets the 2 nd specific floor "floor 7" as the destination floor in S304.

The registration unit 23 registers a call based on the departure floor set by the setting unit 21 and the destination floor set by the setting unit 22 (S305). The assignment unit 25 determines an assigned car, which is a car responding to the call registered by the registration unit 23, from among the plurality of cars 11 managed (S306). When the assigned car is determined, the assignment section 25 gives a response instruction to the control device 17 that controls the assigned car (S307).

Fig. 8 is a flowchart showing an example of the operation of the control device 17. The control device 17 determines whether or not a response instruction is received from the group control device 6 (S401). When the control device 17 receives the response instruction transmitted from the group control device 6 in S307, it is determined as yes in S401.

The operation control unit 24 responds to the call registered in S306 to the car 11 in response to the response instruction from the group control device 6 (S402). Specifically, the operation control unit 24 stops the car 11 at the departure floor and opens the door. The operation control unit 24 moves the car 11 to the destination floor after closing the door at the departure floor. The operation control unit 24 stops the car 11 at the destination floor and opens the door.

Embodiment 2.

In embodiment 1, an example in which the storage unit 20 storing the 1 st specified floor and the 2 nd specified floor is provided in the control device 17 or the group control device 6, which is a building in which the elevator device 1 is installed, is described. In the present embodiment, an example will be described in which the storage unit 20 for storing the 1 st specific floor and the 2 nd specific floor is provided outside the building.

Fig. 9 is a diagram showing an example of an elevator system according to embodiment 2. The elevator system shown in fig. 9 includes, for example, an elevator device 1, a transmission device 2, a portable terminal 3, a communication device 7, and a server 8.

The communication device 7 is connected to the control device 17. The communication device 7 is a device for communicating the elevator apparatus 1 with the outside. The communication device 7 may have a maintenance function of the elevator apparatus 1.

The elevator apparatus 1 to which the communication device 7 is connected to a remote server 8 via a network 9, for example. The network 9 is, for example, an IP network. The IP network is a communication network using IP (Internet Protocol) as a communication Protocol. The network 9 may be a closed network or an open network. The elevator apparatus 1 is an example of an elevator apparatus that can communicate with the server 8. The server 8 is able to communicate with a number of remotely located elevator devices. The server 8 is installed in, for example, a maintenance company that manages the elevator apparatus 1.

Fig. 10 is a diagram showing an example of the server 8 and the control device 17. Fig. 10 shows an example in which the server 8 includes the respective functions of the storage unit 20, the setting unit 21, and the setting unit 22 included in the control device 17 in the example shown in fig. 2. That is, in the example shown in fig. 10, the server 8 includes a storage unit 20, a setting unit 21, and a setting unit 22. The group control device 6 further includes a communication unit 26. The control device 17 includes, for example, a registration unit 23 and an operation control unit 24.

Hereinafter, the operation of the present system will be described in detail. Fig. 11 is a flowchart showing an example of the operation of the mobile terminal 3. The processing shown in S501 to S503 of fig. 11 is basically the same as the processing shown in S101 to S103.

The mobile terminal 3 determines whether or not the wireless signal transmitted from the transmission device 2 is received (S501). For example, when the user B who holds the mobile terminal 3 approaches the hall 5-1, the wireless signal transmitted from the transmission device 2-1 is received by the mobile terminal 3 (yes in S501). When the portable terminal 3 receives the wireless signal transmitted from the transmission device 2-1, the application a is automatically started in the portable terminal 3 (S502).

In the example shown in the present embodiment, the wireless signal transmitted by the transmission device 2 includes, for example, floor information and building information. The building information is information for specifying the building in which the transmission device 2 is installed. For example, suppose that the office of user B is located at floor 7 of building X. In this case, the wireless signal transmitted from the transmission device 2-1 includes floor information "1 floor" and building information "X building". The wireless signals transmitted from the transmission devices 2 to 7 include floor information "7 floors" and building information "X buildings".

When the application a is started in S502, a 1 st signal is automatically transmitted from the portable terminal 3 to the server 8 (S503). In the example shown in the present embodiment, the 1 st signal from the portable terminal 3 includes floor information and building information included in the wireless signal from the transmitter 2. The 1 st signal from the portable terminal 3 also contains identification information. As described above, the identification information is information for identifying the user of the mobile terminal 3.

Fig. 12 is a flowchart showing an example of the operation of the server 8. The processing shown in S601 to S604 of fig. 12 is basically the same as the processing shown in S201 to S204. In the server 8, it is determined whether or not the 1 st signal is received from the portable terminal 3 (S601). When the server 8 receives the 1 st signal transmitted from the portable terminal 3 in S503, it is determined as yes in S601.

As described above, the server 8 communicates with many elevator apparatuses. Therefore, in the example shown in the present embodiment, the floor table for each building and for each user is stored in advance in the storage unit 20. The 1 st specific floor and the 2 nd specific floor are registered in the floor tables stored in the storage unit 20. The 1 st specific floor and the 2 nd specific floor are floors that can be destination floors of users in the corresponding buildings. For example, in the floor table C for the user B in the X building, "1 floor" is registered as the 1 st specific floor, and "7 floors" is registered as the 2 nd specific floor. Table 3 shows an example of the floor table C stored in the storage unit 20. Table 4 and table 5 show another example of the floor table stored in the storage unit 20.

[ Table 3]

[ Table 4]

[ Table 5]

The setting unit 21 sets one of the 1 st specific floor and the 2 nd specific floor stored in the storage unit 20 as a departure floor in response to the 1 st signal from the portable terminal 3. Specifically, the setting unit 21 selects one of the floor tables stored in the storage unit 20 based on the building information and the identification information included in the 1 st signal from the portable terminal 3 (S602). For example, when the server 8 receives the 1 st signal from the mobile terminal 3 of the user B, the setting unit 21 selects the floor table C based on the building information "X building" and the identification information "12345" included in the 1 st signal.

Next, the setting unit 21 sets one of the 1 st specific floor and the 2 nd specific floor registered in the floor table selected in S602 as the departure floor based on the floor information included in the 1 st signal from the portable terminal 3 (S603). For example, the setting unit 21 sets the 1 st specific floor "floor 1" registered in the floor table C as the departure floor of the user B based on the floor information "floor 1" included in the 1 st signal.

The setting unit 22 sets a destination floor based on the floor selected by the setting unit 21 and the departure floor set by the setting unit 21 (S604). For example, the setting unit 22 sets the other of the 1 st specific floor and the 2 nd specific floor registered in the floor table selected by the setting unit 21 as a destination floor. In the above example in which the setting unit 21 sets the 1 st specific floor "floor 1" as the departure floor in S603, the setting unit 22 sets the 2 nd specific floor "floor 7" registered in the floor table C as the destination floor.

When the destination floor is set in S604, the communication section 26 transmits a call registration request (S605). The communication unit 26 determines the transmission destination of the registration request based on the building information included in the 1 st signal from the portable terminal 3. In the above example, the communication unit 26 transmits a registration request to the control device 17 of the elevator device 1 provided in the building X specified by the building information. The registration request includes information on the departure floor set by the setting unit 21 in S603 and information on the destination floor set by the setting unit 22 in S604.

Fig. 13 is a flowchart showing an example of the operation of the control device 17. The control device 17 determines whether or not a registration request is received from the server 8 (S701). The registration request from the server 8 is received by the communication device 7. When receiving the registration request from the server 8, the communication device 7 transmits the received registration request to the control device 17. When the communication device 7 receives the registration request transmitted from the server 8 in S605, it is determined as yes in S701.

When the control device 17 receives a registration request from the server 8, the registration unit 23 registers a call based on the departure floor set by the setting unit 21 and the destination floor set by the setting unit 22 (S702). When a call is registered in S702, the operation control section 24 causes the car 11 to respond to the registered call (S703). Specifically, the operation control unit 24 stops the car 11 at the departure floor and opens the door. The operation control section 24 moves the car 11 to the destination floor after the door is closed at the departure floor. The operation control unit 24 stops the car 11 at the destination floor and opens the door.

When the user B goes from floor 7 to floor 1 where the office is located, the user B only has to carry the portable terminal 3 to the hall 5-7. When the user holds the portable terminal 3 and approaches the hall 5-7, the wireless signal transmitted from the transmission device 2-7 is received by the portable terminal 3 (yes in S501). When the portable terminal 3 receives the wireless signal transmitted from the transmission device 2-7, the application a is automatically started in the portable terminal 3 (S502), and the 1 st signal is transmitted (S503). The 1 st signal includes floor information "7 floors" and building information "X buildings" included in the wireless signal from the transmission device 2-7.

When the server 8 receives the 1 st signal transmitted from the mobile terminal 3 in S503 (yes in S601), the setting unit 21 selects the floor table C based on the building information "X building" and the identification information "12345" included in the 1 st signal (S602). Next, the setting unit 21 sets the 2 nd specific floor "floor 7" registered in the floor table C as the departure floor of the user B based on the floor information "floor 7" included in the 1 st signal (S603). Since the setting unit 21 has already set the 2 nd specific floor "floor 7" as the departure floor in S603, the setting unit 22 sets the 1 st specific floor "floor 1" as the destination floor in S604. When the destination floor is set in S604, the communication unit 26 transmits a call registration request to the control device 17 (S605). Thus, in S702, calls with a departure floor of 7 floors and a destination floor of 1 floor are automatically registered.

As another example, when the elevator system performs group management, the group control device 6 may include a part of the above-described functions of the control device 17. Fig. 14 is a diagram showing another example of an elevator system according to embodiment 2. The elevator system shown in fig. 14 includes, for example, a plurality of elevator devices 1, a group control device 6, a transmission device 2, a mobile terminal 3, a communication device 7, and a server 8.

As a simplest example, fig. 14 shows an example in which the group control device 6 controls 2 elevator devices 1 as one group. The group control device 6 is connected to the control device 17 of each elevator apparatus 1.

In the example shown in fig. 14, the communication device 7 is connected to the group control device 6. The communication device 7 may be directly connected to the group control device 6, or may be connected to the group control device 6 via another device. The group control device 6 to which the communication device 7 is connected can communicate with a remote server 8 via a network 9, for example. When receiving a signal from the server 8, the communication device 7 transmits the received signal to the group control device 6.

Fig. 15 is a diagram showing an example of the group control device 6 and the control device 17. Fig. 15 shows an example in which the group control device 6 has the function of the registration unit 23 provided in the control device 17 in the example shown in fig. 10. That is, in the example shown in fig. 15, the group control device 6 includes the registration unit 23. The group control device 6 further includes an assignment unit 25. The control device 17 includes, for example, an operation control unit 24.

The operation of the elevator system shown in fig. 14 and 15 will be described in detail below. The operation of the mobile terminal 3 is basically the same as the example shown in fig. 11. The operation of the server 8 is basically the same as the example shown in fig. 12. When the destination floor is set in S604, the server 8 transmits a call registration request through the communication unit 26 (S605). In the above example, the communication unit 26 transmits a registration request to the group control device 6 provided in the building X specified from the building information.

Fig. 16 is a flowchart showing an example of the operation of the group control device 6. The processing shown in S801 to S802 of fig. 16 is basically the same as the processing shown in S701 to S702.

The group control device 6 determines whether or not a registration request is received from the server 8 (S801). Upon receiving the registration request from the server 8, the communication device 7 transmits the received registration request to the group control device 6. When the communication device 7 receives the registration request transmitted from the server 8 in S605, it is determined as yes in S801.

When the group control device 6 receives a registration request from the server 8, the registration unit 23 registers a call based on the departure floor set by the setting unit 21 and the destination floor set by the setting unit 22 (S802). The assigning unit 25 determines an assigned car, which is a car responding to the call registered by the registration unit 23, from among the plurality of cars 11 managed (S803). When the assigned car is determined, the assignment unit 25 gives a response instruction to the control device 17 that controls the assigned car (S804).

Fig. 17 is a flowchart showing an example of the operation of the control device 17. The processing illustrated in S901 to S902 illustrated in fig. 17 is basically the same as the processing illustrated in S401 to S402. The control device 17 determines whether or not a response instruction is received from the group control device 6 (S901). When the control device 17 receives the response instruction transmitted from the group control device 6 in S804, it is determined as yes in S901.

The operation control unit 24 responds to the call registered in S802 to the car 11 in response to the response instruction from the group control device 6 (S902). Specifically, the operation control unit 24 stops the car 11 at the departure floor and opens the door. The operation control section 24 moves the car 11 to the destination floor after the door is closed at the departure floor. The operation control unit 24 stops the car 11 at the destination floor and opens the door.

As for the elevator system shown in this embodiment, any of the examples disclosed in embodiment 1 can be applied if possible.

Embodiment 3.

In the present embodiment, an example will be described in which the storage unit 20 for storing the 1 st specific floor and the 2 nd specific floor is provided in the portable terminal 3 of the user. Fig. 18 is a diagram showing an example of the mobile terminal 3 and the control device 17. Fig. 18 shows an example of application to the elevator system shown in fig. 1.

In the example shown in the present embodiment, the mobile terminal 3 includes, for example, a storage unit 20, a setting unit 21, a setting unit 22, and a communication unit 27. The control device 17 includes, for example, a registration unit 23 and an operation control unit 24. Hereinafter, the operation of the present system will be described in detail. Fig. 19 is a flowchart showing an example of the operation of the mobile terminal 3.

The mobile terminal 3 determines whether or not the wireless signal transmitted from the transmission device 2 is received (S1001). For example, when the portable terminal 3 receives the wireless signal transmitted from the transmission device 2-1, the application a is automatically started in the portable terminal 3 (S1002). In the example shown in the present embodiment, the wireless signal transmitted by the transmission device 2 includes, for example, floor information and building information. For example, the transmission device 2-1 transmits a wireless signal including floor information "1 floor" and building information "X building". In the mobile terminal 3, the processes shown in S1003 to S1006 are automatically performed by the start of the application a.

In the example shown in the present embodiment, the storage unit 20 stores in advance a floor table for each building. The 1 st specific floor and the 2 nd specific floor are registered in the floor tables stored in the storage unit 20. The 1 st specific floor and the 2 nd specific floor are floors that can be destination floors of users in the corresponding buildings. For example, in the floor table C for the user B in the X building, "1 floor" is registered as the 1 st specific floor, and "7 floors" is registered as the 2 nd specific floor. Table 6 shows an example of the floor table C stored in the storage unit 20. Table 7 shows another example of the floor table stored in the storage unit 20.

[ Table 6]

[ Table 7]

The setting unit 21 sets one of the 1 st specific floor and the 2 nd specific floor stored in the storage unit 20 as a departure floor based on a radio signal from the transmitter 2. Specifically, the setting unit 21 selects one of the floor tables stored in the storage unit 20 based on the building information included in the radio signal from the transmission device 2 (S1003). For example, when the mobile terminal 3 receives a radio signal from the transmitter 2-1, the setting unit 21 selects the floor table C from the building information "X building" included in the radio signal.

Next, the setting unit 21 sets one of the 1 st specific floor and the 2 nd specific floor registered in the floor table selected in S1003 as a departure floor based on the floor information included in the radio signal (S1004). For example, the setting unit 21 sets the 1 st specific floor "floor 1" registered in the floor table C as the departure floor of the user B based on the floor information "floor 1" included in the radio signal.

The setting unit 22 sets a destination floor based on the floor selected by the setting unit 21 and the departure floor set by the setting unit 21 (S1005). For example, the setting unit 22 sets the other of the 1 st specific floor and the 2 nd specific floor registered in the floor table selected by the setting unit 21 as the departure floor. In the above example in which the setting unit 21 sets the 1 st specific floor "floor 1" as the departure floor in S1004, the setting unit 22 sets the 2 nd specific floor "floor 7" registered in the floor table C as the destination floor.

When the destination floor is set in S1005, the communication unit 26 transmits a call registration request (S1006). The registration request includes information on the departure floor set by the setting unit 21 in S1004 and information on the destination floor set by the setting unit 22 in S1005.

Fig. 20 is a flowchart showing an example of the operation of the control device 17. The processing shown in S1101 to S1103 shown in fig. 20 is basically the same as the processing shown in S701 to S703. The control device 17 determines whether or not a registration request is received from the mobile terminal 3 (S1101). The registration request from the portable terminal 3 is received by the receiving apparatus 4. The reception device 4, upon receiving the registration request from the portable terminal 3, transmits the received registration request to the control device 17. When the receiving apparatus 4 receives the registration request transmitted from the mobile terminal 3 in S1006, it is determined as yes in S1101.

When the control device 17 receives a registration request from the mobile terminal 3, the registration unit 23 registers a call based on the departure floor set by the setting unit 21 and the destination floor set by the setting unit 22 (S1102). When a call is registered in S1102, the operation control section 24 makes the car 11 respond to the registered call (S1103). Specifically, the operation control unit 24 stops the car 11 at the departure floor and opens the door. The operation control unit 24 causes the car 11 to move to the destination floor after the door is closed at the departure floor. The operation control unit 24 stops the car 11 at the destination floor and opens the door.

In the example shown in the present embodiment, the user can register a call using the mobile terminal 3. When the user approaches the hall 5 with the mobile terminal 3, a call is automatically registered by setting an appropriate floor as a destination floor from among a plurality of floors (the 1 st specific floor and the 2 nd specific floor) registered in advance. The user does not need to operate the portable terminal 3 in order to register a call. In addition, when the user B goes from the floor 7 to the floor 1 where the office is located, the call is automatically registered similarly.

The above description is an example in which a call registration request is transmitted from the mobile terminal 3 to the control device 17. The portable terminal 3 shown in fig. 18 can also be applied to the elevator system shown in fig. 5. In this case, the group control device 6 includes, for example, the registration unit 23 and the assignment unit 25. The control device 17 includes, for example, an operation control unit 24. In S1006, the communication unit 26 transmits a call registration request to the group control device 6 via the receiving device 4.

As another example, the mobile terminal 3 shown in fig. 18 may be applied to an elevator system shown in fig. 9 or 14. In this case, the communication section 26 transmits a registration request for a call to the server 8 via the network 9 in S1006. When the mobile terminal 3 shown in fig. 18 is applied to the elevator system shown in fig. 14, the determination of the assigned car may be performed by the server 8, or the determination of the assigned car may be performed by the group control device 6.

Each of the parts shown by reference numerals 20 to 27 represents a function of the device provided in the present system. These functions are implemented by the processor executing programs stored in the memory. For example, fig. 21 is a diagram showing an example of hardware resources of the control device 17. The control device 17 includes, as hardware resources, a processing circuit 30 including a processor 31 and a memory 32, for example. In the example shown in fig. 2, the function of the storage unit 20 is realized by the memory 32. The control device 17 realizes the functions of the respective parts shown by reference numerals 21 to 24 by executing a program stored in the memory 32 by the processor 31.

Fig. 22 is a diagram showing another example of the hardware resources of the control device 17. In the example shown in fig. 22, the control device 17 includes a processing circuit 30 including, for example, a processor 31, a memory 32, and dedicated hardware 33. Fig. 22 shows an example in which a part of the functions of the control device 17 is realized by dedicated hardware 33. All functions of the control device 17 may be realized by dedicated hardware 33.

As in the example shown in fig. 21, the group control device 6 includes, as hardware resources, processing circuits including, for example, a processor and a memory. The group control device 6 realizes the functions described in the embodiments by executing the program stored in the memory by the processor. As in the example shown in fig. 22, some of the functions of the group control device 6 may be realized by dedicated hardware. All the functions of the group control device 6 may be realized by dedicated hardware.

As in the example shown in fig. 21, the server 8 includes, as hardware resources, processing circuits including, for example, a processor and a memory. The server 8 realizes the functions described in the embodiments by executing the program stored in the memory by the processor. As in the example shown in fig. 22, a part of the functions of the server 8 may be realized by dedicated hardware. All functions of the server 8 may be realized by dedicated hardware.

As in the example shown in fig. 21, the mobile terminal 3 includes, as hardware resources, a processing circuit including, for example, a processor and a memory. The portable terminal 3 realizes the functions described in the embodiments by executing the program stored in the memory by the processor. As in the example shown in fig. 22, some of the functions of the mobile terminal 3 may be realized by dedicated hardware. All the functions of the portable terminal 3 may be realized by dedicated hardware.

Industrial applicability

The present invention can be applied to an elevator system that registers a call using a portable terminal.

Description of the reference symbols

1: an elevator device; 2: a transmitting device; 3: a portable terminal; 4: a receiving device; 5: a landing; 6: a group management device; 7: a communication device; 8: a server; 9: a network; 11: a car; 12: a counterweight; 13: a hoistway; 14: a main rope; 15: a traction machine; 16: a drive sheave; 17: a control device; 20: a storage unit; 21: a setting unit; 22: a setting unit; 23: a registration unit; 24: an operation control unit; 25: a distribution section; 26: a communication unit; 27: a communication unit; 30: a processing circuit; 31: a processor; 32: a memory; 33: dedicated hardware.

Claims

1. An elevator system for registering a call using a portable terminal to which a specific application is installed, the elevator system comprising:

a transmitting device that transmits a wireless signal for starting the application;

a storage unit which stores a 1 st specific floor and a 2 nd specific floor;

a 1 st setting means for setting, as a departure floor, one of a 1 st specific floor and a 2 nd specific floor stored in the storage means, in accordance with a 1 st signal transmitted from the portable terminal by the activation of the application;

a 2 nd setting means for setting the other of the 1 st specific floor and the 2 nd specific floor stored in the storage means as a destination floor; and

and a registration means for registering a call based on the departure floor set by the 1 st setting means and the destination floor set by the 2 nd setting means.

2. The elevator system of claim 1,

the storage means stores a floor table for each user,

a 1 st specific floor and a 2 nd specific floor are registered in each of the floor tables,

the 1 st signal transmitted from the portable terminal contains identification information for identifying a user of the portable terminal,

the 1 st setting means selects one of the floor tables based on the identification information included in the 1 st signal from the portable terminal, sets one of the 1 st specific floor and the 2 nd specific floor registered in the selected floor table as a departure floor,

the 2 nd setting means sets the other of the 1 st specified floor and the 2 nd specified floor registered in the floor table selected by the 1 st setting means as a destination floor.

3. The elevator system of claim 2,

the elevator system further includes:

a control device for controlling the car; and

receiving means for receiving a 1 st signal from the portable terminal and transmitting the received signal to the control means,

the control device includes the storage means, the 1 st setting means, the 2 nd setting means, the registration means, and the operation control means,

the operation control means causes the car to respond to the call registered by the registration means.

4. The elevator system of claim 2,

the elevator system further includes:

a group management device that manages a plurality of cars as a group; and

a receiving means for receiving a 1 st signal from the portable terminal and transmitting the received signal to the group control means,

the group control device comprises the storage means, the 1 st setting means, the 2 nd setting means, the registration means, and the assignment means,

the assignment means determines a car that responds to the call registered by the registration means from among the plurality of cars.

5. The elevator system of claim 1,

the storage means stores a floor table for each building and for each user,

the 1 st signal transmitted from the portable terminal includes building information for specifying a building in which the transmission device is installed and identification information for specifying a user of the portable terminal,

the 1 st setting means selects one of the floor tables based on the identification information and building information included in the 1 st signal from the portable terminal, sets one of the 1 st specific floor and the 2 nd specific floor registered in the selected floor table as a destination floor,

6. The elevator system of claim 5,

the elevator system further includes:

a control device for controlling the car; and

a server capable of communicating with the control device via a network,

the server includes the storage means, the 1 st setting means, the 2 nd setting means, and the communication means,

the communication means transmits information on the departure floor set by the 1 st setting means and information on the destination floor set by the 2 nd setting means to the control device,

the control device is provided with the registration means and the operation control means,

7. The elevator system of claim 5,

the elevator system further includes:

a group management device that manages a plurality of cars as a group; and

a server capable of communicating with the group management device via a network,

the communication means transmits information on the departure floor set by the 1 st setting means and information on the destination floor set by the 2 nd setting means to the group control device,

the group control device comprises the registration means and the assignment means,

8. The elevator system of any of claims 1-7,

the 1 st signal transmitted from the portable terminal contains floor information for determining a floor on which the transmitting device is provided,

the 1 st setting means sets a departure floor based on floor information included in the 1 st signal from the portable terminal.

9. A portable terminal having a specific application installed therein, the application being started when a wireless signal is received from a transmitting device, the portable terminal comprising:

a storage unit which stores a 1 st specific floor and a 2 nd specific floor;

a 1 st setting means for setting one of the 1 st specific floor and the 2 nd specific floor stored in the storage means as a departure floor in accordance with a wireless signal from the transmitter;

and a communication means for transmitting information on the departure floor set by the 1 st setting means and information on the destination floor set by the 2 nd setting means.

10. The portable terminal according to claim 9,

the storage unit stores a floor table for each building,

the wireless signal sent by the sending device comprises building information used for determining the building provided with the sending device,

the 1 st setting means selects one of the floor tables based on the building information included in the wireless signal from the transmitter, and sets one of the 1 st specific floor and the 2 nd specific floor registered in the selected floor table as a destination floor,

11. The portable terminal according to claim 9 or 10,

the wireless signal sent by the sending device comprises floor information used for determining the floor provided with the sending device,

the 1 st setting means sets a departure floor based on floor information included in a wireless signal from the transmitter.