CN108025888B - Elevator operation confirmation system and operation confirmation method - Google Patents

Abstract

An elevator operation confirmation system capable of easily confirming the operation of an elevator while ensuring safety is obtained. An elevator operation confirmation system comprises: an elevator provided in a structure; a portable terminal held by an operator and used for sending an operation command to a control panel of the elevator to drive the elevator; and an information center that communicates with the portable terminal, the portable terminal including: a permission requesting unit that requests permission to send an operation command to the information center; and a command transmitting unit that transmits an operation command to the control panel when the transmission permission is obtained, the information center including: a storage unit for storing maintenance-related information of the elevator; and a determination unit that determines whether or not the transmission permission can be given, with reference to the storage unit, when the transmission permission is requested.

Description

Elevator operation confirmation system and operation confirmation method

Technical Field

The present invention relates to an elevator operation confirmation system and an elevator operation confirmation method for confirming an operation of an elevator using a real machine.

Background

Conventionally, there have been known elevator simulation apparatuses as follows: in a virtual space simulating an elevator used on a daily basis, an experience person is made to experience an elevator operation state selected by the experience person by virtually creating the elevator operation state, thereby promoting understanding of elevator functions and the like (for example, see patent literature 1).

Specifically, the elevator simulation device includes: a control operation control device which is provided in a box on which the experiencer takes and simulates control operation of the selected elevator; and a failure occurrence operation control device which virtually performs failure occurrence operation according to the failure of the selected elevator, wherein the elevator simulation device displays images corresponding to the controlled operation or the failure occurrence operation in the box body, and vibrates the box body according to the controlled operation or the failure occurrence operation.

Documents of the prior art

Patent document

Patent document 1: japanese patent laid-open No. 2008-265935

Disclosure of Invention

Problems to be solved by the invention

However, the prior art has the following problems.

That is, the elevator simulation apparatus of patent document 1 is not simulated using actual equipment of an elevator, and therefore, when an elevator is newly installed or retrofitted, there is a problem that it cannot be applied to operation confirmation when an explanation of the use of the elevator is given to an owner or manager (hereinafter, referred to as a "user") of the building.

In addition, when the elevator is connected to an information center, the information center can drive the elevator to confirm the operation, wherein the information center can remotely monitor the state of the elevator and remotely control the elevator according to the requirement. However, in a state where the maintenance contract is not entered after the elevator is installed, the elevator is not connected to the information center, and therefore the elevator cannot be driven by the information center.

Therefore, for example, when the operation of the earthquake time control operation device in the emergency operation is to be confirmed as the operation confirmation of the elevator, it is necessary for an operator such as a field engineer to actually operate the seismograph provided in the elevator to create the state of the occurrence of the earthquake, and thus a huge preparation work is required.

Here, it is conceivable to transmit an operation command to an elevator control panel using a portable terminal held by an operator and to drive an elevator to confirm the operation. However, in this case, although the operation of the elevator can be easily confirmed, it is not desirable from the viewpoint of safety that the elevator can be driven by the portable terminal without limitation.

The present invention has been made to solve the above-described problems, and an object of the present invention is to provide an elevator operation confirmation system and an elevator operation confirmation method capable of easily confirming an operation of an elevator while ensuring safety.

Means for solving the problems

An elevator operation confirmation system of the present invention comprises: an elevator provided in a structure; a portable terminal held by an operator and used for sending an operation command to a control panel of the elevator to drive the elevator; and an information center that communicates with the portable terminal, the portable terminal including: a permission requesting unit that requests permission to send an operation command to the information center; and a command transmitting unit that transmits an operation command to the control panel when the transmission permission is obtained, the information center including: a storage unit for storing maintenance-related information of the elevator; and a determination unit that determines whether or not the transmission permission can be given, with reference to the storage unit, when the transmission permission is requested.

Further, an elevator operation confirmation method according to the present invention is performed by an elevator operation confirmation system including: an elevator provided in a structure; a portable terminal held by an operator and used for sending an operation command to a control panel of the elevator to drive the elevator; and an information center having a storage unit storing information related to maintenance of the elevator and communicating with the portable terminal, the elevator operation confirmation method comprising: a permission requesting step of requesting, by the portable terminal, a permission to send the operation command to the information center; a determination step of, when the transmission permission is requested, determining whether or not the transmission permission can be given with reference to the storage unit; and a command transmission step of transmitting the operation command to the control panel when the transmission permission is obtained.

Effects of the invention

According to the elevator operation confirmation system and the elevator operation confirmation method of the present invention, the portable terminal requests the information center for permission to send the operation command, the information center determines whether or not the permission to send is given with reference to the storage unit storing the maintenance-related information of the elevator when the permission to send is requested, and the portable terminal sends the operation command to the elevator control panel to drive the elevator when the permission to send is obtained.

Therefore, the operation of the elevator can be easily confirmed while ensuring safety.

Drawings

Fig. 1 is a unit configuration diagram showing an elevator operation checking system according to embodiment 1 of the present invention.

Fig. 2 is an explanatory diagram illustrating a screen displayed on the display unit shown in fig. 1.

Fig. 3 is a sequence diagram showing a process of an elevator operation checking system according to embodiment 1 of the present invention.

Fig. 4 is a sequence diagram showing a process of an elevator operation checking system according to embodiment 1 of the present invention.

Detailed Description

Preferred embodiments of an elevator operation confirmation system and an elevator operation confirmation method according to the present invention will be described below with reference to the accompanying drawings, and the same or corresponding parts are denoted by the same reference numerals in the respective drawings.

Embodiment mode 1

Fig. 1 is a unit configuration diagram showing an elevator operation checking system according to embodiment 1 of the present invention. In fig. 1, an elevator operation confirmation system 1 includes: an elevator 10 provided in a structure; a portable terminal 20 which is held by an operator and drives the elevator 10 by transmitting an operation command to the control panel 15 of the elevator 10; and an information center 30 that communicates with the portable terminal 20.

Here, the portable terminal 20 and the information center 30 are connected to each other through a network. The elevator 10 and the portable terminal 20 are connected to each other by wire or wirelessly. Since the elevator 10 and the information center 30 have not entered into a maintenance contract, they are not connected to each other. In addition, except for the case of the special description, a description will be given of a case where the elevator 10 is not connected to the information center 30 before the contract for maintenance is contracted.

A hoisting machine 11 is provided in, for example, an unillustrated machine room of the elevator 10. The main ropes 12 are wound around the hoisting machine 11. One end of the main rope 12 is connected to the car 13, and the other end is connected to the counterweight 14. The hoisting machine 11 is connected to a control panel 15 that controls the driving of the elevator 10.

The control panel 15 includes: an earthquake time control operation device 16 for performing control operation when an earthquake occurs; an automatic floor-stopping device 17 for automatic floor-stopping operation when power failure occurs; and a fire control operation device 18 for performing a control operation in the event of a fire. The specific operations of the earthquake-time control operation device 16, the power-failure-time automatic stopping device 17, and the fire-time control operation device 18 will be described later.

The control panel 15 may also include an earthquake recovery diagnosis operation device that automatically performs a diagnosis operation for recovering the elevator after the control operation during an earthquake, an air duct control operation device that performs a control operation during a strong wind, a long-period earthquake control operation device that performs a control operation during a long-period earthquake, and the like. The control panel 15 has a communication function, not shown, by a wireless or wired method for receiving an operation command from a transmission command unit 22 of the mobile terminal 20, which will be described later.

The mobile terminal 20 includes a permission requesting unit 21, a command transmitting unit 22, a trapping simulation unit 23, a display unit 24, an audio output unit 25, an operation unit 26, and an audio input unit 27. Here, the permission requesting unit 21, the command transmitting unit 22, and the trapping simulation unit 23 are installed in the mobile terminal 20 as applications.

The permission requesting unit 21 requests the information center 30 for permission to transmit the operation command. When the transmission permission is obtained, the command transmitting unit 22 transmits an operation command to the control panel 15. The trapping simulation unit 23 simulates a state in which passengers are trapped in the car 13. The specific operations of the permission requesting unit 21, the command transmitting unit 22, and the trouble simulation unit 23 will be described later.

The display unit 24 is, for example, a display, the audio output unit 25 is, for example, a speaker, the operation unit 26 is, for example, a hardware key or a software key formed of a touch panel, and the audio input unit 27 is, for example, a microphone.

Fig. 2 is an explanatory diagram illustrating a screen displayed on the display unit 24 shown in fig. 1. In fig. 2, the display unit 24 displays elevator information input as a menu of an elevator operation confirmation system, earthquake-time control operation, automatic floor-stopping operation at the time of power failure, fire-time control operation, and distress rescue operation. These individual menus can be selected by being pressed. Further, it is assumed that a menu other than elevator information input cannot be pressed until the transmission of the operation command is permitted by the information center 30.

Returning to fig. 1, the information center 30 has: a storage unit 31 that stores maintenance-related information of the elevator 10; and a determination unit 32 that determines whether or not the transmission permission can be given, with reference to the storage unit 31, when the transmission permission is requested. The specific operation of the determination unit 32 will be described later.

The storage unit 31 stores a structure in which the elevator 10 is installed, a car number in the structure, and maintenance-related information of the elevator 10 in association with each other. The maintenance-related information includes information such as whether a maintenance contract for the elevator 10 is entered, whether the contract is not entered, whether the contract is entered within a predetermined after-sales service period after installation of the elevator 10, or whether the contract is entered into another company. In addition, the storage unit 31 also stores maintenance-related information relating to other elevators manufactured by the manufacturer that manufactures the elevator 10.

When a maintenance contract is entered, the information center 30 is connected to the elevator 10 by wired communication or wireless communication via a monitoring device not shown, and the information center 30 can remotely monitor the state of the elevator 10 via the monitoring device in accordance with the maintenance contract and can remotely control the elevator via the monitoring device as needed. In this case, the operation command from the portable terminal 20 can be transmitted to the control panel 15 via the information center 30. Alternatively, elevator 10 may be temporarily connected to information center 30 before the contract is made.

Next, the processing of the elevator operation checking system according to embodiment 1 of the present invention will be described with reference to the timing charts of fig. 1, 2, and 3. In fig. 3, the earthquake time control operation, the automatic floor stop operation at the time of power failure, and the fire time control operation will be described. In fig. 3, first, the permission requesting unit 21 requests the information center 30 for permission to send an operation command (step S1). Here, this processing is executed by the operator inputting, for example, the structure and the number of the elevator 10 to the elevator information input shown in fig. 2.

Next, when the determination unit 32 has requested permission to send, it determines whether or not the elevator 10 is an elevator that can be driven by the portable terminal 20 with reference to the storage unit 31 (step S2), and when it is determined that the elevator can be driven by the portable terminal 20, it permits transmission of the operation command (step S3).

Specifically, the determination unit 32 allows the transmission of the operation command when the maintenance contract of the elevator 10 is not made or the contract with another company is not made. The permission of the operation command is notified to the mobile terminal 20 by using, for example, the one-time password generated by the determination unit 32. In this case, the mobile terminal 20 has an authentication function of determining whether or not the notified one-time password is a password that satisfies a predetermined logic. Here, the permission of the operation command is not limited to the one-time password, and the start of the application itself may be used as the key.

The determination unit 32 can allow the transmission of the operation command even when the maintenance contract of the elevator 10 is entered, but in this case, an abnormality signal generated by the elevator 10 is input to the information center 30, and therefore, it is necessary to perform processing for ignoring such an abnormality signal all at once.

Next, when the transmission of the operation command is permitted, the command transmitting unit 22 transmits the operation command to the control panel 15 (step S4). Here, the verification of the one-time password is performed after the operator continuously inputs the one-time password received from the determination unit 32 in the elevator information input shown in fig. 2, and the process is executed by selecting a menu of any operation among the earthquake time regulation operation, the power failure time automatic stop floor operation, and the fire time regulation operation, which can be pressed, when the verification is successful.

Next, the control panel 15 operates the earthquake time control operation device 16, the power failure time automatic stop device 17, or the fire time control operation device 18 in accordance with the operation command. Specifically, when the earthquake time control operation device 16 is operated, the broadcast is performed in the car 13, and the car 13 is moved to the nearest floor without stopping and the door is opened.

When the automatic floor stopping device 17 is operated at the time of power failure, the car 13 is stopped once, broadcasting is performed in the car 13, and the power supply is switched to the battery power supply, so that the car 13 is moved to the nearest floor and the door is opened. When the fire control operation device 18 is operated, the car 13 is moved to a predetermined evacuation floor without stopping, and the door is opened.

Next, the processing of the elevator operation checking system according to embodiment 1 of the present invention will be described with reference to the timing charts of fig. 1, 2, and 4. Fig. 4 illustrates the trapping rescue operation. In fig. 4, the operation command is first allowed to be transmitted to the mobile terminal 20 in the same manner as in fig. 3, and therefore, the description thereof is omitted.

Next, when the transmission of the operation command is permitted, the command transmitting portion 22 transmits the operation command for stopping the car 13 to the control panel 15 (step S11). Then, the boarding simulation unit 23 requests the information center 30 to perform the boarding rescue operation (step S12). Here, this process is executed by the operator selecting the menu of the emergency rescue operation shown in fig. 2, which becomes depressible.

Next, the information center 30 displays the operator of the information center 30 on the display unit 24 of the mobile terminal 20, for example, and creates the same environment as that in the car 13 by using the mobile terminal 20 using the audio output unit 25 and the audio input unit 27, as in the normal distress rescue operation during the remote monitoring (step S13).

This enables direct conversation with the operator via the portable terminal 20. After the series of dialogues with the operator is completed, the command transmitting unit 22 transmits an operation command for restarting the operation of the car 13 to the control panel 15 (step S14).

As described above, according to embodiment 1, the portable terminal requests the information center for permission to send the operation command, and when the information center requests permission to send, the information center determines whether or not the permission to send is allowed with reference to the storage unit in which the maintenance-related information of the elevator is stored, and when the permission to send is obtained, the portable terminal sends the operation command to the control panel of the elevator to drive the elevator.

Therefore, the operation of the elevator can be easily confirmed while ensuring safety.

In addition, when the elevator which is newly installed or modified is delivered to the user, even the operator of the business department can easily confirm the operation of the user by using the actual device in the state that the user is in the car by using the portable terminal, and the user can be sufficiently explained.

In addition, by creating the same environment as in the car using the portable terminal, the user can be explained about the emergency rescue operation that can be achieved by contracting the maintenance contract, and therefore the benefit of contracting the maintenance contract can be fully demonstrated to the user.

Claims (7)

1. An elevator operation confirmation system, comprising:

an elevator provided in a structure;

a portable terminal which is held by an operator and drives the elevator by sending an operation command to a control panel of the elevator; and

an information center communicating with the portable terminal,

the portable terminal has:

a permission requesting unit that requests the information center for permission to transmit the operation command; and

a command transmitting unit that transmits the operation command to the control panel when the transmission permission is obtained,

the information center has:

a storage unit that stores maintenance-related information of the elevator; and

a determination unit that determines whether or not the transmission permission can be given with reference to the storage unit when the transmission permission is requested,

the maintenance-related information contains information whether a maintenance contract for the elevator is entered,

the determination unit issues the transmission permission without issuing the maintenance contract by issuing the maintenance contract in response to the operation command of the operation that can be achieved up to this point.

2. The action confirmation system of an elevator according to claim 1,

in a state where the information center and the elevator are not directly connected to each other, and the information center and the portable terminal are directly connected to each other,

when the elevator is switched from a state in which the elevator and the information center are not directly connected to each other to a state in which the elevator and the information center are directly connected to each other, the portable terminal transmits the operation command to the control panel via the information center.

3. The action confirmation system of an elevator according to claim 1,

and the portable terminal directly sends the action instruction to the control panel.

4. The action confirmation system of an elevator according to claim 1,

when the elevator and the information center are connected to each other, the portable terminal transmits the operation command to the control panel via the information center.

5. The elevator operation confirmation system according to any one of claims 1 to 4,

the operation command is at least one of a controlled operation in the event of an earthquake, an automatic floor-stopping operation in the event of a power failure, and a controlled operation in the event of a fire.

6. The elevator operation confirmation system according to any one of claims 1 to 4,

the portable terminal also has a trapping simulation part for simulating the state that passengers are trapped in the elevator car.

7. An elevator operation confirmation method is executed by an elevator operation confirmation system, which comprises: an elevator provided in a structure; a portable terminal which is held by an operator and drives the elevator by sending an operation command to a control panel of the elevator; and an information center having a storage unit storing information related to maintenance of the elevator and communicating with the portable terminal,

the maintenance-related information contains information whether a maintenance contract for the elevator is entered,

the elevator action confirmation method comprises the following steps:

a permission requesting step of requesting, by the portable terminal, a transmission permission of the operation command to the information center;

a determination step of, when the transmission permission is requested, referring to the storage unit, determining whether or not the transmission permission can be given;

a permission step of giving the transmission permission without signing the maintenance contract by signing an action instruction of the maintenance contract with respect to the operation that can be achieved so far; and

and a command transmission step of transmitting the operation command to the control panel when the transmission permission is obtained.

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