JP6987901B2 - Remote monitoring support device - Google Patents

Description

The present invention relates to a remote monitoring support device for remotely monitoring an elevator.

Conventionally, inspection work (diagnosis and maintenance work) that involves a diagnosis for maintenance by a worker on an elevator installed in a multi-story building, etc., on a regular basis or when a failure occurs in the elevator. By doing this, the proper operation of the elevator was ensured.

In addition, conventionally, a communication function is provided in a control board (control device) that controls the operation operation of an elevator, and communication is performed between the control board and a management server computer installed in a remote location of the elevator. There was a remote monitoring system for elevators that monitors the status of the elevator in remote areas. As a result, the state of the elevator can be monitored at a remote location of the elevator without dispatching a worker to the site where the elevator is installed.

As a related technology, specifically, the data of the maintenance work performed by the worker while switching from the normal mode to the maintenance mode to prevent the notification from the building to the monitoring center and switching to the maintenance mode. Is stored in the maintenance work data storage unit, and when the mode is switched to the normal mode, the maintenance work data stored in the maintenance work data storage unit is imported, and whether or not the maintenance work is appropriate is determined based on the imported maintenance work data. There was a technique for making a judgment (see, for example, Patent Document 1 below).

Japanese Unexamined Patent Publication No. 2011-102180

However, the above-mentioned conventional technology is, for example, an old-type elevator, and in the case of an elevator that is not supposed to be remotely monitored at the time of installation, the control board of the elevator does not have a communication function. There was a problem that it was difficult to perform remote monitoring after the installation of the elevator.

For this reason, the above-mentioned conventional technique has a problem that it is troublesome because the worker has to go to the site for each diagnosis and maintenance work that is regularly performed at the site where the elevator is installed. In the above-mentioned conventional technology, when an abnormality occurs in the elevator, the manager of the building where the elevator is installed must contact the worker, and each time the worker is contacted, the worker must be contacted. However, there was a problem that it was bothersome because I had to go to the site.

Further, the above-mentioned conventional technique has a problem that when a failure occurs in an elevator that does not support remote monitoring, the discovery of the failure is delayed or the response for resolving the failure is delayed.

Further, when remote monitoring of an existing elevator is performed using the above-mentioned conventional technique, the control device of the existing elevator must be replaced with another control board to which a communication function is added. That is, when remote monitoring of an existing elevator is performed using the above-mentioned conventional technique, there is a problem that the work becomes large and troublesome because the entire control board must be replaced. Further, in this case, there is a problem that the elevator cannot be used during the replacement work of the control board, which may hinder the activities of the users of the high-rise building in particular.

An object of the present invention is to provide a remote monitoring support device capable of remotely monitoring an elevator regardless of the presence or absence of a communication function of the elevator itself, in order to solve the problems caused by the above-mentioned prior art.

Further, in order to solve the problems caused by the above-mentioned prior art, the present invention can improve the reliability of the elevator by remotely monitoring the elevator regardless of the presence or absence of the communication function of the elevator itself. The purpose is to provide a support device.

In order to solve the above-mentioned problems and achieve the object, the remote monitoring support device according to the present invention is a remote monitoring support device that communicates with a control board for controlling the operation of an elevator and a management server computer, respectively. , A contact provided on the control board to input / output a signal between the control board and the outside of the control board, and output a signal depending on whether or not the operating state of the elevator is a normal operating state. Whether or not the operating state is the normal operating state based on the acquisition means for acquiring the signal from the contact whose state changes or the wiring connected to the contact and the output state of the signal acquired by the acquisition means. A determination means for determining, a generation means for generating notification information including information on the state of the elevator when the determination means determines that the operation state is not the normal operation state, and notification information generated by the generation means. Is provided with a transmission means for transmitting the above to the management server computer.

Further, in the above invention, the remote monitoring support device according to the present invention is a relay whose operating state is switched according to a control signal output to each part of the elevator by the acquisition means for controlling each part. The signal is acquired from the contact or the wiring connected to the contact with the connection position with the contact, and the determination means, the acquisition means, and the relay in a state where the operating state of the elevator is not the normal operating state. When the signal output by the relay is acquired, it is determined that the operating state is not the normal operating state.

Further, in the above invention, the remote monitoring support device according to the present invention is a relay whose operating state is switched depending on whether or not the acquisition means supplies power of a predetermined voltage to each part included in the elevator. The signal is acquired from the contact or the wiring connected to the contact with the connection position with the contact, and the determination means, the acquisition means, and the relay in a state where the power supply of a predetermined voltage is not supplied. When the signal to be output is acquired, it is determined that the operating state is not the normal operating state.

Further, in the above invention, the remote monitoring support device according to the present invention has the acquisition means as a contact with a connection position with a power supply circuit for supplying a power supply of a predetermined voltage to each part provided in the elevator. The operating state when the signal is acquired from the contact or the wiring connected to the contact, and the determination means acquires zero in the output state because the acquisition means is not supplied with a power supply of a predetermined voltage. Is characterized in that it is determined that is not in the normal operating state.

According to the remote monitoring support device according to the present invention, information on the state of the elevator can be acquired via the management server computer at a remote location of the elevator, so that the remote monitoring of the elevator is performed regardless of the presence or absence of the communication function of the elevator itself. It has the effect of being able to do.

FIG. 1 is an explanatory diagram showing a system configuration of the remote monitoring system according to the first embodiment of the present invention. FIG. 2 is an explanatory diagram showing a hardware configuration of a remote monitoring support device constituting the remote monitoring system according to the first embodiment of the present invention. FIG. 3 is a block diagram showing a functional configuration of a remote monitoring support device constituting the remote monitoring system according to the first embodiment of the present invention. FIG. 4 is a flowchart showing a processing procedure of the remote monitoring support device according to the first embodiment of the present invention. FIG. 5 is a flowchart (No. 1) showing a processing procedure of the remote monitoring support device according to the second embodiment of the present invention. FIG. 6 is a flowchart (No. 2) showing a processing procedure of the remote monitoring support device according to the second embodiment of the present invention. FIG. 7 is an explanatory diagram showing a system configuration of the remote monitoring system according to the third embodiment of the present invention. FIG. 8 is an explanatory diagram showing a hardware configuration of a remote monitoring support device constituting the remote monitoring system according to the third embodiment of the present invention. FIG. 9 is a block diagram showing a functional configuration of a remote monitoring support device constituting the remote monitoring system according to the third embodiment of the present invention. FIG. 10 is a flowchart (No. 1) showing a processing procedure of the remote monitoring support device according to the third embodiment of the present invention. FIG. 11 is a flowchart (No. 2) showing a processing procedure of the remote monitoring support device according to the third embodiment of the present invention. FIG. 12 is an explanatory diagram showing a system configuration of the remote monitoring system according to the fourth embodiment of the present invention. FIG. 13 is an explanatory diagram showing a hardware configuration of a remote monitoring support device constituting the remote monitoring system according to the fourth embodiment of the present invention. FIG. 14 is a block diagram showing a functional configuration of a remote monitoring support device constituting the remote monitoring system according to the fourth embodiment of the present invention. FIG. 15 is a flowchart (No. 1) showing a processing procedure of the remote monitoring support device according to the fourth embodiment of the present invention. FIG. 16 is a flowchart (No. 2) showing a processing procedure of the remote monitoring support device according to the fourth embodiment of the present invention. FIG. 17 is an explanatory diagram showing a system configuration of the remote monitoring system according to the fifth embodiment of the present invention. FIG. 18 is an explanatory diagram showing a hardware configuration of a remote monitoring support device constituting the remote monitoring system according to the fifth embodiment of the present invention. FIG. 19 is a block diagram showing a functional configuration of a remote monitoring support device constituting the remote monitoring system according to the fifth embodiment of the present invention. FIG. 20 is a flowchart (No. 1) showing a processing procedure of the remote monitoring support device according to the fifth embodiment of the present invention. FIG. 21 is a flowchart (No. 2) showing a processing procedure of the remote monitoring support device according to the fifth embodiment of the present invention.

Hereinafter, preferred embodiments of the remote monitoring support device according to the present invention will be described in detail with reference to the accompanying drawings.

<Embodiment 1>
(System configuration of remote monitoring system)
First, a system configuration of an elevator remote monitoring system including the remote monitoring support device of the first embodiment according to the present invention will be described. FIG. 1 is an explanatory diagram showing a system configuration of the remote monitoring system according to the first embodiment of the present invention.

In FIG. 1, the remote monitoring system 100 of the first embodiment according to the present invention is composed of, for example, a control board (control device) 110, a remote monitoring support device 120, a management server computer 130, and a telephone 140. be able to. The remote monitoring system 100 monitors the operation of the elevator 101 by using the management server computer 130 installed at a remote location of the elevator 101. The management server computer 130 monitors the operation of the elevator 101 via the remote monitoring support device 120.

The management server computer 130 is installed in a remote place away from the place where the elevator 101 to be monitored is installed, which is different from the place where the elevator 101 to be monitored is installed. Specifically, the management server computer 130 can be installed in, for example, a maintenance management company 150 that is in charge of maintenance management of the elevator 101.

The telephone 140 is installed, for example, in the maintenance management company 150 in which the management server computer 130 is installed. By installing the management server computer 130 and the telephone 140 in the maintenance management company 150, a person in the basket 102 of the elevator 101 and the operator of the maintenance management company 150 can directly talk to each other.

The elevator 101 is installed in a multi-story building or the like, and is equipped with a basket 102 for carrying people and goods. One basket 102 is provided for each elevator 101. The basket 102 is provided in a hoistway (not shown) that penetrates each floor in the building along the vertical direction. The elevator 101 can be realized by, for example, a rope type (traction type) elevator.

The elevator 101 that can be monitored by the remote monitoring system 100 of the first embodiment according to the present invention is not limited to the rope type elevator. In the remote monitoring system 100 of the first embodiment according to the present invention, the hydraulic elevator 101 may be monitored, for example, in place of the rope type elevator 101 or in addition to the rope type elevator 101.

The basket 102 is provided with an operation panel 102a provided with an operation button including a destination floor button, a door open / close button, and a display for displaying the floor on which the basket 102 is located. The operation button may include an emergency call button that is operated during a call with an external administrator or operator of the basket 102. The operation panel 102a provided in the basket 102 includes a control board for the operation panel 102a, and is connected to the control board 110 via the control board for the operation panel 102a. Further, the basket 102 is provided with an intercom terminal device 102b. The terminal device 102b of the intercom includes a call button, a microphone, and a speaker (all of which are not shown). The terminal device 102b of the intercom is connected to the remote monitoring support device 120.

The hoistway is provided with a drive mechanism 104 involved in the raising and lowering operation of the basket 102. The drive mechanism 104 can be provided, for example, at the upper part of the hoistway. The drive mechanism 104 includes a hoist, a pulley, a rope 104a, a counterweight 104b, and the like. The drive mechanism 104 further includes an electromagnetic brake, a speed governor, and the like (both are not shown). Since the drive mechanism 104 can be easily realized by using a known technique, the description thereof will be omitted. The drive mechanism 104 is not limited to the one provided at the upper part of the hoistway. The drive mechanism 104 may be provided at the bottom (pit) of the hoistway, for example, in the case of the hydraulic elevator 101.

The basket 102 is connected to one end of the rope 104a, and the counterweight 104b is connected to the other end of the rope 104a. In the rope type elevator 101, the hoisting machine is driven in a state where the rope 104a having the basket 102 and the counterweight 104b connected to both ends is suspended on the pulley and the hoisting machine, and is between the rope 104a and the hoisting machine. The rope 102 is moved up and down by using the frictional force (traction) of. The hoistway is provided with a guide rail (not shown) that guides the elevating position of the basket 102.

Doors 105a and 102c are provided at positions (landings) 105 and baskets 102 corresponding to each floor in the hoistway, respectively. The basket 102 is provided with a motor (not shown) for opening and closing the door 102c provided in the basket 102 and the door 105a provided in the landing 105. The motor for opening and closing the doors 105a and 102c is connected to the control board 110.

The door 105a provided at the landing 105 is locked by a device called an interlock or the like. When the motor is driven while the elevator 101 has arrived at the stop floor, the drive mechanism portion of the door 102c provided in the basket 102 and the interlock are engaged with each other to release the lock by the interlock, and the door 102c provided in the basket 102 is released. And the door 105a provided at the landing 105 opens and closes in conjunction with each other.

The elevator 101 includes a door opening / closing sensor (not shown) that detects the opening / closing of the doors 102c and 105a. The output of the door open / close sensor changes depending on whether the doors 102c and 105a are in the open state or the closed state. The door open / close sensor can be realized by, for example, a micro switch or a photoelectric sensor. The door open / close sensor is connected to the control board 110 via wiring, and the signal output from the door open / close sensor is input to the control board 110 via the wiring.

Each landing 105 is provided with an operation panel 105b provided with a landing call button (not shown) and a display for displaying the floor on which the basket 102 is located. The operation panel 105b provided in each landing 105 is provided with a control board for the operation panel 105b, and is connected to the control board 110 via the control board for the operation panel 105b.

The remote monitoring support device 120 can be attached to, for example, a housing accommodating a control board 110 of an elevator 101, a hoistway wall, or the like. The remote monitoring support device 120 includes a main control board 121 and a voice communication board 122. The main control board 121 is connected to the control board 110. Further, the main control board 121 is connected to the management server computer 130 via a network 160 such as the Internet. By connecting the main control board 121 and the management server computer 130 via the Internet instead of the public voice network 170 such as a telephone line, it is possible to prevent the situation grasp of the elevator 101 from being delayed due to a flat tire on the telephone line in an emergency. And you can take prompt action.

The voice communication board 122 is connected to the terminal device 102b of the intercom and the public voice network 170. Specifically, the voice communication board 122 can be realized by, for example, a PHS (Personal Handy-phone System) board. The public voice network 170 includes a fixed telephone network (public switched telephone network) and a mobile telephone network. The public voice network 170 is composed of a plurality of exchanges (not shown), such as a subscriber line exchange for accommodating a telephone line, a relay exchange for bundling subscriber line exchanges, and a barrier exchange for connecting to a telephone network of another operator. There is. Since the public voice network 170 is a known technique, the description thereof will be omitted.

The main control board 121 may perform communication using the PHS board included in the voice communication board 122. In this case, the remote monitoring support device 120 uses the PHS board for voice communication as well as data communication. Since the installation location of the elevator 101 is fixed, it is possible to ensure the quality of communication and reduce the cost of communication by performing communication using PHS.

The management server computer 130 can be realized by a computer device such as a personal computer. An operation terminal device 131 may be connected to the management server computer 130. The management server computer 130 and the terminal device 131 for operation may be installed in the same place or may be installed in different places. The terminal device 131 for operation may be one unit or a plurality of units. The terminal device 131 for operation can be realized by, for example, an input device such as a keyboard or a mouse, or a computer device such as a personal computer provided with a display or the like. Further, a printer (not shown) for outputting a report or the like describing the state of the elevator 101 may be connected to the terminal device 131 for operation.

In addition to the management server computer 130 and the telephone 140, the maintenance management company 150 can install a PBX (Private Branch eXchange, see reference numeral 205 in FIG. 2). The telephone 140 is connected to the public voice network 170 via the PBX. In the remote monitoring system 100, the telephone 140 may be directly connected to the public voice network 170 without providing the PBX.

(Hardware configuration of remote monitoring system 100)
Next, the hardware configuration of the remote monitoring support device 120 constituting the remote monitoring system 100 of the first embodiment according to the present invention will be described. FIG. 2 is an explanatory diagram showing a hardware configuration of a remote monitoring support device 120 constituting the remote monitoring system 100 of the first embodiment according to the present invention.

In FIG. 2, the control board 110 controls the operation operation of the elevator 101 by driving and controlling each part constituting the elevator 101. The control board 110 outputs a control signal to each part of the elevator 101, and controls the operation of the elevator 101 based on the signal output from each part.

Each time the control board for the operation panel 102a described above receives an input operation for an operation button by a user of the elevator 101 or the like, a call signal corresponding to the input operation is generated, and the generated call signal is output to the control board 110. do. The control board 110 controls the operation of the elevator 101 by outputting a control signal for driving and controlling the drive mechanism 104, for example, based on a call signal output from the control board for the operation panel 102a.

Specifically, the control board 110 generates, for example, a control signal for the motor that raises and lowers the basket 102 based on the call signal output from the control board for the operation panel 102a, and the generated control signal. Is output to the motor that raises and lowers the basket 102. As a result, the motor that raises and lowers the basket 102 is rotationally driven in the direction of raising or lowering the basket 102. The motor for raising and lowering the basket 102 is controlled by using, for example, an inverter, and is driven and controlled by the control board 110 so as to stop the rotation on the floor where the basket 102 is stopped.

Each time the control board 110 outputs a control signal to the motor that raises and lowers the basket 102, the control board 110 acquires the rotation speed of each motor that operates according to the control signal. The rotation speed of each motor can be obtained by using, for example, an encoder. As a result, the control board 110 can determine whether or not the motor has normally operated according to the control signal output to the motor that raises and lowers the basket 102.

Specifically, the control board 110 is used for control, for example, to operate the brake so as to stop the basket 102 on a predetermined floor based on a call signal output from the control board for the operation panel 102a. A signal is generated and the generated control signal is output to the brake. The brake operates so as to stop the raising / lowering operation of the basket 102 and stop the basket 102 on a predetermined floor according to the control signal output from the control board 110. As a result, the basket 102 can be stopped on a predetermined floor.

Each time the control board 110 outputs a control signal to the brake, the control board 110 acquires an output signal from the brake sensor whose output changes according to the operation of the brake. The brake sensor can be realized by, for example, a micro switch, a photoelectric sensor, or the like. As a result, the control board 110 can determine whether or not the brake has normally operated according to the control signal output to the brake.

Specifically, the control board 110 controls to open and close the doors 102c and 105a on the floor where the basket 102 is stopped by the brake, for example, based on the call signal output from the control board for the operation panel 102a. The generated signal for control is output to the motor that opens and closes the door 102c of the basket 102 and the door 105a of the landing 105. As a result, the doors 102c and 105a can be opened and closed on the floor where the basket 102 is stopped. As described above, the motor that opens and closes the door 105a is locked by a device called an interlock or the like, and therefore does not operate if the door 105a is not completely closed.

The control board 110 acquires an output signal from the door open / close sensor every time a control signal is output to the motor for opening / closing the doors 102c and 105a. Thereby, the control board 110 can determine whether or not the doors 102c and 105a have normally operated according to the control signal output to the motor that opens and closes the corresponding doors 102c and 105a.

Further, the control board 110 outputs, for example, a control signal including a floor signal indicating the floor on which the basket 102 is located to the control board for the operation panel 102a. The floor on which the basket 102 is located can be specified, for example, based on an output signal from a sensor (not shown) provided for each floor in the hoistway. When the control board for the operation panel 102a receives a control signal including a floor signal, the control board controls the display based on the received control signal, and controls the display on the floor where the basket 102 is located and the moving direction (ascending). (Whether it is descending) etc.) is displayed.

The control board 110 outputs a control signal including a floor signal to the control board for the operation panel 102a and the control board for the operation panel 105b every time the position of the basket 102 is switched, for example. Alternatively, the control board 110 periodically outputs a control signal including a floor signal to the control board for the operation panel 102a and the control board for the operation panel 105b regardless of the position of the basket 102, for example. It may be something to do.

Similar to the control board for the operation panel 102a, the control board for the operation panel 105b generates a call signal corresponding to the input operation each time the input operation for the landing call button by the user of the elevator 101 or the like is received. The generated call signal is output to the control board 110. When the call signal was output from the control board for the operation panel 105b, the control board 110 was output from the control board for the operation panel 105b in the same manner as when the signal was output from the control board for the operation panel 102a. The operation of the elevator 101 is controlled by generating various control signals based on the signals and outputting the generated control signals to the corresponding parts.

Each time the basket 102 is moved up and down in response to a signal output from the operation panel 102a and the operation panel 105b, the control board 110 outputs an activation signal indicating that each part has been activated in order to raise and lower the basket 102. .. For example, when the control board 110 moves from the first floor to the second floor, the control board 110 outputs a start signal once. Further, for example, when the control board 110 moves from the first floor to the fifth floor without stopping in the middle, the control board 110 outputs a start signal once. Further, for example, when the control board 110 moves from the first floor to the fifth floor after stopping at the third floor on the way (opening / closing the door), the control board 110 outputs a start signal twice.

The control board 110 may calculate the traveling distance and traveling time of the basket 102 each time the basket 102 is moved up and down. The mileage of the basket 102 can be calculated, for example, based on the number of activations. Further, the traveling time of the basket 102 can be calculated based on, for example, the above-mentioned floor signal. Specifically, for example, when a call operation is received from the operation panel 105b of the platform 105 on the 4th floor while the basket 102 is on the 1st floor, the basket 102 moves on the 3rd floor from the 1st floor to the 4th floor. do.

The control board 110 includes a memory (not shown), and stores the number of times the activation signal is output, that is, the number of activations, in the memory each time the activation signal is output. The control board 110 may store in the memory the history of the operation operation of each part driven during the raising / lowering operation of the basket 102 and the opening / closing operation of the doors 105a and 102c instead of the number of activations or in addition to the number of activations. Specifically, the control board 110 relates to, for example, the number of activations, the mileage of the basket 102, the traveling time of the basket 102, the number of operations of various relays operated during the raising / lowering operation of the basket 102 and the opening / closing operations of the doors 105a and 102c. The information may be stored in the memory as a history of operation operations.

Further, the control board 110 determines whether the doors 102c and 105a are in the open state or the closed state based on the output value of the door open / close sensor. The control board 110 outputs a control signal for opening and closing the doors 102c and 105a based on the control signal for opening and closing the doors 102c and 105a and the output value of the door open / close sensor. , It can be determined whether or not the doors 102c and 105a are actually opened and closed.

Further, when the operation mode of the elevator 101 changes, the control board 110 outputs a signal indicating that the operation mode has been switched. Specifically, the control board 110 externally informs that, for example, when the operation mode of the elevator 101 is switched from the normal operation mode to an operation mode other than the normal operation mode, the operation mode is switched. It outputs a signal to notify or a signal to notify the operation mode after switching (the operation mode is other than the normal operation mode). Further, specifically, the control board 110 indicates that, for example, when the operation mode of the elevator 101 is switched from an operation mode other than the normal operation mode to the normal operation mode, the operation mode is switched. It outputs a signal to notify the outside or a signal (signal for issuing an alarm) to notify the operation mode (which is the normal operation mode) after switching.

Further, when the elevator 101 detects a failure, the control board 110 outputs (issues) a signal (signal for issuing a report) notifying the occurrence of the failure. Specifically, although the control board 110 outputs, for example, a control signal for opening / closing the doors 105a and 102c, the corresponding doors 105a and 102c do not operate based on the output value of the door opening / closing sensor. When this is detected, a signal (reporting signal) notifying that a failure has occurred in the corresponding doors 105a and 102c in the elevator 101 is output (reporting).

The control board 110 can output (report) a signal for alarm to the outside of the control board 110, for example, via a wiring connecting the control board 110 and an external device. More specifically, in the control board 110, for example, the wiring connecting the control board 110 and the external device sends a signal for alarm to the outside of the control board 110 via a contact connected to the control board 110. Can be output (reported) to.

The control board 110 may output (report) a signal for issuing a signal to the outside of the control board 110, for example, via a terminal provided on the control board 110. Specifically, the control board 110 outputs (reports) a signal for issuing a signal to the outside of the control board 110 via, for example, a communication terminal that communicates with an external device of the elevator 101. can do. Alternatively, specifically, the control board 110 is provided on the control board 110, for example, via a terminal (hereinafter referred to as “maintenance / inspection terminal”) to which a terminal device for diagnosis can be connected to the control board 110. Then, the alarm signal may be output (reported) to the outside of the control board 110.

When the call button is operated, the terminal device 102b of the intercom outputs a call signal indicating that the operation has been performed to the remote monitoring support device 120. When the call signal output from the terminal device 102b of the intercom is input to the voice communication board 122, the remote monitoring support device 120 sends a call signal to the telephone 140 via the public voice network 170 or PBX 205. As a result, voice communication (call) can be performed between the terminal device 102b of the intercom and the telephone 140.

The intercom terminal device 102b remotely monitors the voice signal input to the microphone in a state where the connection between the remote monitoring support device 120 (voice communication board 122) and the telephone 140 installed in the maintenance management company 150 is established. Output to the support device 120. Further, the intercom terminal device 102b transmits the audio signal output from the remote monitoring support device 120 via the speaker in a state where the connection between the remote monitoring support device 120 (voice communication board 122) and the telephone 140 is established. Output.

The remote monitoring support device 120 acquires signals (control signals) output from the control board 110 to each part of the elevator 101, and generates and generates notification information based on the acquired control signals. The notification information is transmitted to the management server computer 130. The notification information includes information on the state of the elevator 101, identification information of the elevator 101 that is the transmission source of the notification information, and the like.

Information on the state of the elevator 101 includes, for example, the elevating direction of the basket 102, the floor to which the basket 102 is moved, whether or not the basket 102 is stopped on the floor to which the basket 102 is moved, and the motors for opening and closing the doors 105a and 102c. Indicates the presence or absence of the operation of. Further, the information regarding the state of the elevator 101 indicates, for example, the floor on which the basket 102 is currently located, whether or not various safety devices are activated, and the like.

The identification information of the elevator 101 may be, for example, the serial number of the elevator 101, a number set based on the installation location (address, etc.) of the elevator 101, or the elevator 101. The number may be arbitrarily set by a worker performing maintenance and inspection. The identification information of the elevator 101 can be configured by combining characters such as numbers and alphabets having a predetermined number of digits.

The main control board 121 included in the remote monitoring support device 120 can be configured by, for example, a relay board 201, a monitoring control board 202, a memory 203, and a communication I / F (interface) 204. The remote monitoring support device 120 acquires a control signal output from the control board 110 via the relay board 201 in the main control board 121.

The remote monitoring support device 120 is, for example, from a relay that connects a relay provided on the control board 110 and a relay board 201 and whose output (output state) changes according to a control signal output from the control board 110. The output of is acquired in the main control board 121. In this case, the remote monitoring support device 120 can acquire the control signal output from the control board 110 from the relay via the relay board 201 on the main control board 121.

The relay is provided corresponding to each part to be controlled by the control board 110, and the output state changes (for example, ON / OFF) according to the state of each part included in the elevator 101. As the relay, for example, an electromagnetic relay that opens and closes by physically moving the contacts by an electromagnet can be used. The contact of the electromagnetic relay may be, for example, a make contact (the contact closes when a current is passed) or a break contact (the contact opens when a current is passed). Further, the contact of the electromagnetic relay may be, for example, a transfer contact (switching a plurality of contacts by passing a current) or a ratchet contact (switching the opening and closing of the contact each time a current is passed). Further, as the relay, for example, a solid state relay or a program relay may be used.

The remote monitoring support device 120 may be connected to, for example, a wiring connected to a relay, and the output from the wiring may be acquired on the main control board 121. Also in this case, the remote monitoring support device 120 acquires the control signal output from the control board 110 from the relay (wiring connected to the relay) on the main control board 121 via the relay board 201. Can be done.

Specifically, the remote monitoring support device 120 has, for example, a contact point between the control board 110 and the relay board 201 on a foot (wiring connecting the control board 110 and the relay) that supports the relay with respect to the control board 110. It can be provided and connected to the control board 110 via the contact. The contact can be provided on a foot for a signal input from the control board 110 to the relay (wiring connecting the control board 110 and the relay). This contact may be provided on a foot for a signal output from the relay to the control board 110 (wiring connecting the control board 110 and the relay).

Further, the remote monitoring support device 120 has, for example, a control board 110 and a foot of an IC chip (wiring connecting the control board 110 and the IC chip) provided on the control board 110 corresponding to each part of the elevator 101. A contact with the relay board 201 can be provided and connected to the control board 110 via the contact. In this case, the contact may be provided on the foot for signals input from the control board 110 to the IC chip (wiring connecting the control board 110 and the IC chip), and for signals output from the IC chip to the control board 110. It may be provided on the foot (wiring connecting the control board 110 and the IC chip).

The control board 110 is provided with LEDs that turn on and off in conjunction with the operation of each part of the elevator 101 so that an operator or the like can visually check the operating state of each part of the elevator 101. In some cases. In this case, the remote monitoring support device 120 includes, for example, a photoelectric sensor (not shown) whose output changes according to the lighting / extinguishing of the LED, and connects the photoelectric sensor to the relay board 201 to connect the relay board 201. By acquiring the output value of the photoelectric sensor on the main control board 121 via the above, the control signal output from the control board 110 may be acquired.

Further, in the relay board 201 in the remote monitoring support device 120, for example, the wiring connecting the control board 110 and each part to be the output destination of the control signal is connected to the contact (terminal) connected to the control board 110. Can be done. As a result, the remote monitoring support device 120 can acquire a control signal from the contact point (terminal) with the wiring on the control board 110 via the relay board 201. The contact (terminal) in this case is not limited to the one provided on the control board 110, and the remote monitoring support device is in the middle of the wiring connecting the control board 110 and each part to be the output destination of the control signal. It may be connected to the relay board 201 in 120.

Alternatively, the relay board 201 in the remote monitoring support device 120 is connected to a wiring (branch line) for branching the wiring connecting the control board 110 and each part to be the output destination of the control signal from the control board 110. be able to. As a result, the remote monitoring support device 120 can acquire a control signal from the branch line via the relay board 201. A branch connector for branching a control signal output from the control board 110 in two directions may be provided at a branch position between the wiring connecting each part of the elevator 101 and the control board 110 and the branch line. As a result, the remote monitoring support device 120 can be easily connected to the control board 110 via the branch connector.

The relay board 201 analyzes the signal that has received the input, and outputs the analysis result to the monitoring control board 202. The monitoring control board 202 generates notification information based on the analysis result output from the relay board 201, and transmits the generated notification information to the management server computer 130 via the communication I / F 204. Further, the monitoring control board 202 stores the analysis result output from the relay board 201 in the memory 203. The monitoring control board 202 may directly store the signal received by the relay board 201 in the memory 203.

The memory 203 can be realized by a non-volatile storage medium that retains the stored information even when the power supply is cut off. Specifically, the memory 203 can be realized by, for example, a flash memory, an EEPROM (Electrically Erasable Read-Only Memory), an EPROM (Erasable Programmable Read Only Memory), or the like.

The various signals output from the control board 110 differ depending on the model of the elevator 101 and the like. At the time of analysis, the relay board 201 converts various signals output from the control board 110 into a format that can be processed by the monitoring control board 202. The remote monitoring support device 120 analyzes the signal received by the relay board 201 and converts it into a format that can be processed by the monitoring control board 202, so that the remote of the elevator 101 is remote regardless of the model of the elevator 101. It can be monitored.

Further, the remote monitoring support device 120 outputs various operation command signals to the control board 110 via the relay board 201 controlled by the monitoring control board 202 on the main control board 121. The remote monitoring support device 120 outputs an operation command signal when driving and controlling each part of the elevator 101 via the control board 110. The operation command signal is, for example, the same signal as the signal output from the operation panel 102a or the operation panel 105b when the operation panel 102a or the operation panel 105b receives an input operation for instructing the movement to a predetermined floor. It can be realized by (call signal, etc.). Specifically, the operation command signal is, for example, moving the basket 102 of the elevator 101 to a predetermined floor, stopping the moved basket 102 on the corresponding floor, or stopping the basket 102 on the stopped floor. Includes signals to open and close the door 102c and the door 105a of the landing 105.

When the control board 110 receives the operation command signal output from the main control board 121, the control board 110 generates the above-mentioned various control signals based on the received operation command signal, and the generated various control signals are used as an elevator. It is output to each part provided in 101. The main control board 121 transmits various operation command signals output from the monitoring control board 202 via the relay board 201 to the control board 110 via, for example, maintenance and inspection terminals (not shown) provided in the elevator 101. Enter in.

Terminals for maintenance and inspection are provided on the control board 110. Alternatively, the maintenance and inspection terminal may be electrically connected to the input terminal of the control board 110 and may be separate from the control board 110. The terminal for maintenance and inspection is provided, for example, for connecting a terminal device (terminal for maintenance diagnosis) used for the maintenance and inspection work when the worker performs the maintenance and inspection work at the site where the elevator 101 is installed. .. The terminal for maintenance and inspection is not limited to the elevator 101 installed for the purpose of remote monitoring, and a wide variety of elevators 101 are generally provided regardless of whether they are new or old.

When the relay board 201 and the control board 110 are connected via the maintenance / inspection terminal, the remote monitoring support device 120 is a connection terminal (not shown) that is disconnectedly connected to the maintenance / inspection terminal. May be provided. In such a remote monitoring support device 120, for example, the connection terminal and the terminal for maintenance and inspection can be connected by inserting and fitting the connection terminal into the terminal for maintenance and inspection.

Further, the remote monitoring support device 120 receives various instruction signals transmitted from the management server computer 130 via the communication I / F 204. The management server computer 130 outputs an instruction signal to the remote monitoring support device 120, for example, when the maintenance management company 150 accepts an input operation to the management server computer 130 by the operator.

Specifically, the management server computer 130 receives an instruction signal (transmission of notification information) instructing transmission of notification information regarding the result of the diagnostic operation executed in the elevator 101, for example, in response to the input operation received by the management server computer 130. Instructions) are sent. In this case, the management server computer 130 transmits an instruction to execute the diagnostic operation to the elevator 101 in addition to the instruction to transmit the notification information.

In the diagnostic operation, the control board 110 causes each part of the elevator 101 to output a signal for operating each part in a predetermined order, and a signal indicating whether or not each part operates normally according to the output signal. Is realized by outputting from the control board 110. The management server computer 130 may output the next diagnostic instruction periodically, that is, when a predetermined time has elapsed after outputting the diagnostic instruction (every predetermined period such as every month).

Specifically, the management server computer 130 instructs, for example, to transmit notification information regarding the history of operation operations stored in the control board 110 in response to an input operation received by the management server computer 130 or periodically. An instruction signal (instruction to transmit notification information) may be transmitted. The notification information regarding the history of the operation operation is, for example, information on the number of activations, the mileage of the basket 102, the travel time of the basket 102, the number of operations of various relays operated during the raising / lowering operation of the basket 102 and the opening / closing operation of the doors 105a and 102c. Can be realized by.

When the remote monitoring support device 120 receives various instruction signals transmitted from the management server computer 130, the remote monitoring support device 120 generates the above-mentioned operation command signal based on the received instruction signal, and the generated operation command signal is used as the control board 110. Output to. Further, the remote monitoring support device 120 outputs an operation command signal based on various instruction signals transmitted from the management server computer 130 to the control board 110, and as a result, the signal output from the control board 110 (for control). When a signal or the like is acquired, response information is generated based on the signal, and the generated response information is output to the management server computer 130.

The management server computer 130 generates report information based on the response information transmitted from the remote monitoring support device 120 in response to various instruction signals transmitted to the remote monitoring support device 120. The management server computer 130 generates report information based on the notification information received from the remote monitoring support device 120 as a result of transmitting the diagnosis instruction and the transmission instruction of the notification information, for example. In this case, the management server computer 130 generates report information including information on the mileage and the number of activations of the elevator 101, for example.

Further, the management server computer 130 has a function of issuing a report (not shown) based on the generated report information. The report is, for example, every time the elevator 101 performs a diagnostic operation, that is, every time it receives response information in response to an instruction signal (diagnosis instruction) instructing the remote monitoring support device 120 to execute the diagnostic operation. Can be issued to. Specifically, the management server computer 130 generates print information for printing the report information on a recording medium such as paper based on the generated report information, and manages the generated print information. It is output to the terminal device 131 for operation connected to the server computer 130. When the operation terminal device 131 receives the print information, the operation terminal device 131 can issue a report by driving and controlling the printer connected to the operation terminal device 131.

(Functional configuration of remote monitoring system 100)
Next, the functional configuration of the remote monitoring system 100 of the first embodiment according to the present invention will be described. FIG. 3 is a block diagram showing a functional configuration of the remote monitoring support device 120 constituting the remote monitoring system 100 of the first embodiment according to the present invention.

(Functional configuration of remote monitoring support device 120)
In FIG. 3, each function of the remote monitoring support device 120 of the elevator 101 of the first embodiment according to the present invention includes a receiving unit 301, a storage unit 302, a generation unit 303, an output unit 304, and an acquisition unit 305. , The determination unit 306 and the transmission unit 307. Each function of the reception unit 301, the storage unit 302, the generation unit 303, the output unit 304, the acquisition unit 305, the determination unit 306, and the transmission unit 307 included in the remote monitoring support device 120 of the elevator 101 according to the first embodiment of the present invention is provided. This can be realized by each part of the remote monitoring support device 120.

The receiving unit 301 receives various instruction signals transmitted from the management server computer 130. The receiving unit 301 receives, for example, a transmission instruction of the notification information transmitted from the management server computer 130. When the receiving unit 301 receives the diagnostic instruction, the storage unit 302 stores information regarding the date and time when the diagnostic instruction is received. As a result, the operation of the elevator 101 can be periodically monitored without communicating with the management server computer 130.

The generation unit 303 generates an operation command signal for causing the elevator 101 to execute the above-mentioned diagnostic operation when the reception unit 301 receives the transmission instruction. The generation unit 303 generates an operation command signal converted into a format that can be analyzed by the control board 110 by the relay board 201. When the receiving unit 301 receives the transmission instruction, the generation unit 303 generates an operation command signal including an instruction to output a signal for operating each unit of the elevator 101 in a predetermined order.

Specifically, the generation unit 303 controls, for example, a motor that raises and lowers the basket 102 of the elevator 101, a brake that stops the basket 102 that is moving up and down, a motor that opens and closes the doors 105a and 102c of the landing 105 and the basket 102, and the like. An operation command signal to be driven and controlled by 110 is generated.

When the receiving unit 301 receives the transmission instruction, the output unit 304 outputs an operation command signal to the control board 110 to cause the elevator 101 to execute the above diagnostic operation. In the first embodiment, the output unit 304 outputs the operation command signal generated by the generation unit 303 to the control board 110.

The output unit 304 outputs an operation command signal, for example, via a terminal for connecting a portable terminal device (maintenance diagnosis terminal, not shown) for inspection work performed on-site by a worker. Since the operation command signal output by the output unit 304 is converted into a format that can be analyzed by the control board 110 by the relay board 201, it is the same as when the signal for performing the diagnosis operation is directly input from the maintenance diagnosis terminal. The control board 110 can perform a diagnostic operation.

The output unit 304 may output an operation command signal to the control board 110, for example, via a wiring connecting each part of the elevator 101 and the control board 110. In this case, specifically, the output unit 304 can output an operation command signal to the control board 110 via wiring in which each unit of the elevator 101 outputs a signal to the control board 110, for example.

The output unit 304 outputs an operation command signal for executing the next diagnostic operation not only when the receiving unit 301 receives the transmission instruction but also when a predetermined time has elapsed after outputting the operation command signal to the control board 110. It may be output. Specifically, the output unit 304 executes the next diagnostic operation when one month has passed since the output of the diagnostic operation execution instruction based on the information regarding the date and time stored in the storage unit 302, for example. An operation command signal may be output.

As a result, it is possible to periodically output an operation command signal for executing the diagnostic operation to the control board 110 without communicating with the management server computer 130. As a result, it is possible to periodically perform a diagnostic operation on the elevator 101 while reducing the burden on communication.

The acquisition unit 305 acquires a signal output from the control board 110 to the outside of the control board 110. The acquisition unit 305 is a contact provided on the control board 110 to input / output a signal between the control board 110 and the outside of the control board 110, and whether or not the operating state of the elevator 101 is a normal operating state. The signal is acquired from the contact whose output state of the signal changes according to the signal or the wiring connected to the contact. The contacts may be realized by a terminal in which a plurality of contacts are arranged, or may be realized by a connector that allows insertion and removal of the corresponding connector.

Specifically, the acquisition unit 305 uses, for example, a connection position with a relay whose operating state is switched according to a control signal output to each unit of the elevator 101 as a contact. Alternatively, a signal is acquired from the wiring connected to the contact. Alternatively, specifically, the acquisition unit 305 uses, for example, a connection position with a relay whose operating state is switched according to a signal input from each unit of the elevator 101 to the control board 110 as a contact to the contact or the contact. Signals may be obtained from the connected wiring. The output of the relay changes when the operating state of the elevator 101 is switched. The output of the relay changes according to the state of each part of the elevator 101, which switches the operating state according to the control signal.

More specifically, such a relay is provided in a safety circuit for determining whether or not the elevator 101 is in a state in which it can operate safely, for example, based on signals output from each unit included in the elevator 101. It can be realized by a relay. The output of the relay provided in the safety circuit changes depending on whether the elevator 101 can operate safely (normal operating state) or cannot operate safely (non-normal operating state).

The safety circuit is, for example, a stop switch operated by a worker who performs maintenance and inspection of the elevator 101 to stop the operation of the elevator 101 during the maintenance and inspection work, when the basket 102 moves beyond the normal traveling range. It is equipped with various switches such as a limit switch that operates to stop the basket 102 and a switch that operates when the speed at which the speed governor moves up and down the basket 102 exceeds a specified speed. The relay of the safety circuit is connected in series with various switches connected in series with each other, and the output changes when any one of the switches operates.

The state in which the operating state of the elevator 101 is not the normal operating state is not limited to the case where the safety circuit is activated. The elevator 101 controlled by the control board 110 cannot operate even if various switches constituting the safety circuit are not operated when a part of the control board 110 is not operating due to a failure or the like. When a part of the control board 110 is not operating due to a failure or the like, the control board 110 outputs a signal indicating that the control board 110 is stopped to each part provided in the elevator 101.

When the display included in the operation panel 105b receives a signal indicating that the control board 110 is stopped, for example, "pause", "failure", "call a staff member", etc. based on the signal. Display a message. The display included in the operation panel 105b may stop displaying (do not display anything on the screen) when it receives a signal indicating that the control board 110 is stopped.

Further, such a relay is realized by, for example, a relay provided in a non-startable circuit that determines whether or not the elevator 101 is in a startable state based on signals output from each part of the elevator 101. Can be done. The output of the relay provided in the non-startable circuit changes depending on whether the elevator 101 can be started or cannot be started.

Further, such a relay is, for example, a relay whose output state changes according to a signal input / output to the operation panel 105b of the landing 105 on each floor, or a basket 102 among the parts provided in the elevator 101. This can be realized by a relay whose output state changes according to the signal input / output to / from the operation panel 102a of the above. Specifically, such a relay can be realized by, for example, a relay of a door opening / closing sensor that detects the opening / closing of the doors 102c and 105a, and the output state changes according to the opening / closing state of the doors 102c and 105a.

Further, specifically, the acquisition unit 305 uses, for example, a connection position with a relay whose operating state is switched depending on whether or not a power supply of a predetermined voltage is supplied to each unit provided in the elevator 101 as a contact. The signal may be acquired from the contact or the wiring connected to the contact. More specifically, such a relay supplies a power supply of 100V to, for example, a component of each part of the elevator 101 that operates in a state where a power supply of 100V is supplied. It can be realized by a relay provided in a 100V power supply circuit.

The relay provided in the 100V power supply circuit is turned on when a power supply of 100V voltage is supplied to each corresponding part, and is turned off when a power supply of 100V voltage is not supplied to each corresponding part. .. In this case, the acquisition unit 305 acquires a signal from the contact with the connection position with the relay provided in the 100V power supply circuit as a contact.

Further, specifically, the acquisition unit 305 may acquire a signal from the connection position with the wiring connected to the 100V power supply circuit. In this case, the signal (voltage) acquired by the acquisition unit 305 changes depending on whether a power supply having a voltage of 100 V is supplied to each corresponding unit or not.

The predetermined voltage is not limited to 100V, and may be, for example, 200V. In this case, the acquisition unit 305 acquires a signal from the contact or the wiring connected to the contact with the connection position with the relay provided in the 200V power supply circuit to which the voltage of 200V is applied as a contact. The acquisition unit 305 is not limited to acquiring a signal from one contact, for example, a connection position with a relay provided in a 100V power supply circuit and a connection position with a relay provided in a 200V power supply circuit. Alternatively, a signal is acquired from the contact with a connection position with a plurality of relays as a contact, such as a relay corresponding to the operation panel 105b of the platform 105 on each floor and a relay corresponding to the operation panel 102a of the basket 102. May be good.

Further, the acquisition unit 305 acquires, for example, a control signal output from the control board 110 to each unit included in the elevator 101 in response to an operation command signal output by the output unit 304 to execute the diagnostic operation. Further, the acquisition unit 305 outputs a control signal output from the control board 110 when, for example, a predetermined input operation is received by the operation panel 105b of the landing 105 on each floor and the operation panel 102a of the basket 102 of the elevator 101. get. Further, the acquisition unit 305 acquires, for example, a floor signal output from the control board 110 to the operation panel 105b of the landing 105 on each floor and the operation panel 102a of the basket 102 of the elevator 101.

Further, the acquisition unit 305 controls, for example, when the operation mode of the elevator 101 is switched from the normal operation mode to the operation mode for the occurrence of an earthquake due to the detection that an earthquake of a predetermined seismic intensity or higher has occurred. The alarm signal output from the board 110 is acquired. Further, for example, when the acquisition unit 305 outputs a control signal to the motor for raising and lowering the basket 102 of the elevator 101, but the floor signal indicating the position of the basket 102 does not switch, the elevator 101. When a failure occurs in the above, a signal for issuing a notification is output in order to notify the occurrence of the failure to the outside.

In addition to acquiring control signals via a relay whose output changes according to the state of each part of the elevator 101, the acquisition unit 305 turns on or off in conjunction with the operation of each part of the elevator 101, for example. It may be the one that acquires the signal for control through the LED. Further, the acquisition unit 305 may acquire a control signal via, for example, a foot (wiring for connection) for fixing the relay or LED to the control board 110.

The acquisition unit 305 may acquire a control signal, for example, via a terminal to which a maintenance diagnosis terminal can be connected. Further, the acquisition unit 305 may acquire the control signal at the connection position between the wiring (or branch connector) connected to each unit to which the control signal is output and the control board 110, for example. good.

The determination unit 306 determines whether or not the operating state of the elevator 101 is the normal operating state based on the output state of the signal acquired by the acquisition unit 305. The determination unit 306 determines that the elevator 101 is in a state in which it can operate safely, and for example, a state in which each unit provided in the elevator 101 can operate in response to an operation of the operation button of the basket 102 or the landing call button is regarded as a normal operation state. do. Further, the determination unit 306 cannot operate safely if there is an inoperable part among the parts provided in the elevator 101 in response to the operation of the operation button of the basket 102 or the landing call button, that is, a state in which the elevator 101 is not in a normal operation state. Judge.

For example, when the connection position with the relay whose output changes according to the control signal output from the control board 110 to the outside of the control board 110 is used as a contact, the operating state of the elevator 101 is normally in the determination unit 306. When the signal output by the relay is acquired in a state other than the operating state, it is determined that the operating state of the elevator 101 is not the normal operating state. More specifically, the determination unit 306 is, for example, when a signal indicating that the emergency call button has been operated is input from the operation panel 102a of the basket 102 to the control board 110, or the operation of the emergency call button. When a signal is output from the control board 110 to each part of the elevator 101, it is determined that the operating state of the elevator 101 is not the normal operating state.

Further, for example, the acquisition unit 305 controls when the operation mode of the elevator 101 is switched from the normal operation mode to the operation mode for the occurrence of an earthquake due to the detection that an earthquake of a predetermined seismic intensity or higher has occurred. When acquiring the alarm signal output from the board 110, the determination unit 306 may determine that the operating state of the elevator 101 is not the normal operating state when the alarm signal is acquired. ..

Further, for example, when a signal is acquired from a contact with a relay provided in a 100V power supply circuit or a 200V power supply circuit, power is not supplied to the 100V power supply circuit or the 200V power supply circuit due to a power failure or the like. Alternatively, when the relay is operated because the power supply of a predetermined voltage is not supplied from the 100V power supply circuit or the 200V power supply circuit to the corresponding parts, the judgment unit 306 is in the normal operating state of the elevator 101. You may decide that it is not. Further, for example, when a signal is acquired from a connection position with a 100V power supply circuit or a 200V power supply circuit that supplies power of a predetermined voltage such as 100V or 200V, or a wiring connected to these circuits, the determination unit 306 acquires. The operating state of the elevator 101 may be determined according to the presence or absence of the signal (voltage) acquired by the unit 305. In this case, the determination unit 306 determines that the operating state of the elevator 101 is not the normal operating state when there is no signal (voltage) acquired by the acquisition unit 305, that is, when the level of the acquired signal (voltage) is zero. can do.

When the determination unit 306 determines that the operating state of the elevator 101 is not the normal operating state, the generation unit 303 generates notification information including information on the state of the elevator 101. Each time the determination unit 306 determines that the operating state of the elevator 101 is not the normal operating state, the generation unit 303 generates notification information including information on the state of the elevator 101.

Further, the generation unit 303 may generate notification information including information on the state of the elevator 101 based on the signal acquired by the acquisition unit 305. In this case, specifically, the generation unit 303 generates notification information indicating that the elevator 101 is operating normally, based on, for example, a control signal output from the control board 110. You may. Further, the generation unit 303 may generate notification information indicating the floor on which the basket 102 of the elevator 101 is currently located, based on the floor signal output from the control board 110, for example. Further, the generation unit 303 generates notification information indicating that the current operation mode of the elevator 101 has been switched or that a failure has occurred in the elevator 101, for example, based on the alarm signal output from the control board 110. You may.

The generation unit 303 may generate notification information each time the acquisition unit 305 acquires a signal. Alternatively, the generation unit 303 may generate notification information, for example, when the acquisition unit 305 acquires a specific signal. Specifically, the generation unit 303 may generate notification information when, for example, the acquisition unit 305 acquires a notification signal indicating that the current operation mode of the elevator 101 has been switched. ..

The transmission unit 307 transmits the notification information generated by the generation unit 303 to the management server computer 130. The transmission unit 307 transmits the notification information to the management server computer 130 each time the generation unit 303 generates the notification information. Alternatively, the transmission unit 307 may, for example, transmit the notification information to the management server computer 130 when the generation unit 303 generates specific notification information. Specifically, for example, when the generation unit 303 generates notification information based on an alarm signal indicating that the current operation mode of the elevator 101 has been switched, the transmission unit 307 manages the notification information on the management server computer. It may be transmitted to 130.

(Processing procedure of remote monitoring support device 120)
FIG. 4 is a flowchart showing a processing procedure of the remote monitoring support device 120 according to the first embodiment of the present invention. In the flowchart of FIG. 4, first, it waits until a signal output from the control board 110 to the outside of the control board 110 is acquired (step S401: No).

When the signal output from the control board 110 is acquired in step S401 (step S401: Yes), it is determined whether or not the operating state of the elevator 101 is the normal operating state based on the acquired signal (step S402). ). In step S402, when the operating state of the elevator 101 is the normal operating state (step S402: Yes), the operation history of the elevator 101 is stored based on the acquired signal (step S403), and the series of processes is terminated. ..

In step S403, for example, the elevating direction of the basket 102, the floor to which the basket 102 is moved, whether or not the basket 102 is stopped on the floor to which the basket 102 is moved, and the operation of the motor for opening and closing the doors 105a and 102c. Information on the presence / absence, the floor on which the basket 102 is currently located, the presence / absence of operation of various safety devices, and the like is stored. In step S403, the acquired signal may be stored, or the acquired signal may be stored in association with the information regarding the date and time when the signal was acquired.

The operation history stored in step S403 is used to generate notification information based on the stored operation history, for example, at the time of remote diagnosis of the elevator 101. The remote diagnosis of the elevator 101 is appropriately started, for example, when a notification information transmission instruction is received from the management server computer 130, or when a predetermined time has elapsed since the previous remote diagnosis was performed.

On the other hand, in step S402, when the operating state of the elevator 101 is not the normal operating state (step S402: No), notification information is generated based on the signal acquired in step S401: Yes (step S404). In step S404, based on the signal acquired in step S401: Yes, notification information for notifying that the operating state of the elevator 101 is not the normal operating state is generated. Specifically, in step S404, for example, notification information including a signal determined not to be in the normal operating state and information on the date and time when the signal was acquired is generated.

After that, the notification information generated in step S404 is transmitted to the management server computer 130 (step S405), and a series of processes is completed. In step S405, the notification information generated in step S404 is transmitted from the communication I / F 204 to the management server computer 130 via a network 160 such as the Internet.

As described above, the remote monitoring support device 120 of the first embodiment is provided on the control board 110 and is a contact for inputting / outputting a signal between the control board 110 and the control board 110, and is an elevator 101. The signal output state changes depending on whether or not the operating state of is the normal operating state. The signal is acquired from the contact or the wiring connected to the contact, and the operating state is based on the output state of the acquired signal. Judges whether or not is in the normal operating state. Then, when it is determined that the operating state of the elevator 101 is not the normal operating state, notification information including information on the state of the elevator 101 is generated, and the generated notification information is transmitted to the management server computer 130. There is.

According to the remote monitoring support device 120 of the first embodiment, every time the signal is output from the control board 110, the elevator is based on the signal output from the control board 110 to the outside of the control board 110. It is determined whether or not the operating state of the 101 is the normal operating state, and if the operating state of the elevator 101 is not the normal operating state, the operating state of the elevator 101 is not the normal operating state via the management server computer 130. It is possible to inform the operator of this.

As a result, the operator can quickly grasp that the operating state of the elevator 101 is not the normal operating state, and arranges an inspection worker as necessary to maintain the elevator 101 in a good state. It can be done quickly. As a result, the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can use the elevator 101 with peace of mind.

The control board 110 that controls the operation of the elevator 101 generally has a circuit configuration originally developed by the manufacturer (manufacturer) of the elevator 101, and is controlled by the manufacturer's own control program. Generally, the circuit configuration and control program related to the control board 110 are not disclosed, and a company other than the manufacturer's company or its affiliated company cannot know the contents, but the remote monitoring support of the first embodiment is performed. According to the device 120, it is directly connected to the control board 110, and it is determined whether or not the operating state of the elevator 101 is the normal operating state without analyzing the circuit configuration and the control program of the control board, and the elevator 101 is operated. When the operating state is not the normal operating state, it is possible to inform the operator that the operating state of the elevator 101 is not the normal operating state via the management server computer 130.

As a result, the operator can quickly grasp that the operating state of the elevator 101 is not the normal operating state, and arranges an inspection worker as necessary to maintain the elevator 101 in a good state. It can be done quickly. As a result, the so-called "independent elevator maintenance service company", which is different from the manufacturer itself or the affiliated maintenance service company related to the manufacturer, monitors the operating state of the elevator 101 from a remote location of the elevator 101, and the elevator 101. It is possible to improve the reliability of the elevator, ensure the safety of the user, and allow the user to use the elevator 101 with peace of mind.

Further, according to the remote monitoring support device 120 of the first embodiment, the remote monitoring of the elevator 101 can be performed regardless of the presence or absence of the communication function of the elevator 101 itself, so that the reliability of the elevator 101 can be improved. The safety of the user can be ensured, and the user can use the elevator 101 with peace of mind.

Further, the remote monitoring support device 120 of the first embodiment uses a connection position with a relay whose operating state is switched according to a control signal for controlling each part output to each part of the elevator 101 as a contact. It is characterized in that it is determined whether or not the operating state of the elevator 101 is the normal operating state based on the signal acquired from the contact or the wiring connected to the contact.

According to the remote monitoring support device 120 of the first embodiment, a dedicated terminal for outputting information on the state of the elevator 101 is separately provided on the control board, or a program for generating information on the state of the elevator 101 is controlled. It is possible to determine whether or not the operating state of the elevator 101 is the normal operating state without separately incorporating it into the board. As a result, the elevator 101 can be remotely monitored regardless of the model of the elevator 101, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the elevator 101 can be safely used by the user. It can be used.

Further, the remote monitoring support device 120 of the first embodiment uses a connection position with a relay whose operating state is switched depending on whether or not a power supply of a predetermined voltage is supplied to each part of the elevator 101 as a contact. It is characterized in that it is determined whether or not the operating state of the elevator 101 is the normal operating state based on the signal acquired from the contact or the wiring connected to the contact.

This also eliminates the need to separately provide a dedicated terminal for outputting information on the state of the elevator 101 on the control board, or to separately incorporate a program or the like for generating information on the state of the elevator 101 into the control board. It is possible to determine whether or not the operating state of is the normal operating state. As a result, the elevator 101 can be remotely monitored regardless of the model of the elevator 101, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the elevator 101 can be safely used by the user. It can be used.

Further, the remote monitoring support device 120 of the first embodiment is connected to the contact point or the contact point with the connection position with the power supply circuit for supplying the power supply of a predetermined voltage to each part of the elevator 101 as a contact point. It is characterized in that it is determined whether or not the operating state of the elevator 101 is a normal operating state according to the presence or absence of a voltage in the wiring.

This also eliminates the need to separately provide a dedicated terminal for outputting information on the state of the elevator 101 on the control board, or to separately incorporate a program or the like for generating information on the state of the elevator 101 into the control board. It is possible to determine whether or not the operating state of is the normal operating state. As a result, the elevator 101 can be remotely monitored regardless of the model of the elevator 101, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the elevator 101 can be safely used by the user. It can be used.

<Embodiment 2>
Next, the remote monitoring system for the elevator according to the second embodiment of the present invention will be described. In the second embodiment, the same parts as those in the first embodiment described above are designated by the same reference numerals, and the description thereof will be omitted.

(Functional configuration of remote monitoring support device 120)
Next, the functional configuration of the remote monitoring support device 120 of the elevator 101 of the second embodiment according to the present invention will be described. Each function of the remote monitoring support device 120 of the elevator 101 of the second embodiment according to the present invention includes a receiving unit 301, a storage unit 302, a generation unit 303, an output unit 304, an acquisition unit 305, and a determination unit 306. And, it is realized by the transmission unit 307.

The acquisition unit 305 acquires a signal output from the control board 110 to the outside of the control board 110. The acquisition unit 305 acquires, for example, a control signal output from the control board 110 to each unit included in the elevator 101 in response to an operation command signal output by the output unit 304 to execute the diagnostic operation.

Further, the acquisition unit 305 outputs a control signal output from the control board 110 when, for example, a predetermined input operation is received by the operation panel 105b of the landing 105 on each floor and the operation panel 102a of the basket 102 of the elevator 101. get. Further, the acquisition unit 305 acquires, for example, a floor signal output from the control board 110 to the operation panel 105b of the landing 105 on each floor and the operation panel 102a of the basket 102 of the elevator 101.

Further, the acquisition unit 305 controls, for example, when the operation mode of the elevator 101 is switched from the normal operation mode to the operation mode for the occurrence of an earthquake due to the detection that an earthquake of a predetermined seismic intensity or higher has occurred. The alarm signal output from the board 110 is acquired. Further, for example, when the acquisition unit 305 outputs a control signal to the motor for raising and lowering the basket 102 of the elevator 101, but the floor signal indicating the position of the basket 102 does not switch, the elevator 101. When a failure occurs in the above, a signal for issuing a notification is output in order to notify the occurrence of the failure to the outside.

The acquisition unit 305 can acquire a control signal, for example, via a terminal to which a maintenance diagnosis terminal can be connected. Further, the acquisition unit 305 may acquire the control signal at the connection position between the wiring (or branch connector) connected to each unit to which the control signal is output and the control board 110, for example. good.

Further, the acquisition unit 305 may be provided on the control board 110, for example, to acquire a control signal via a relay whose output changes according to the state of each unit included in the elevator 101. Further, the acquisition unit 305 may acquire a control signal via, for example, an LED that turns on and off in conjunction with the operation of each unit included in the elevator 101. Further, the acquisition unit 305 may acquire a control signal via, for example, a foot (wiring for connection) for fixing the relay or LED to the control board 110.

The generation unit 303 generates notification information including information on the state of the elevator 101 based on the signal acquired by the acquisition unit 305. The generation unit 303 generates, for example, notification information indicating that the elevator 101 is in a normal operating state, based on a control signal output from the control board 110. Further, the generation unit 303 generates, for example, notification information indicating the floor on which the basket 102 of the elevator 101 is currently located, based on the floor signal output from the control board 110. Further, the generation unit 303 generates notification information indicating that the current operation mode of the elevator 101 has been switched or that a failure has occurred in the elevator 101, for example, based on the alarm signal output from the control board 110. ..

The generation unit 303 generates notification information each time the acquisition unit 305 acquires a signal. Alternatively, the generation unit 303 may generate notification information, for example, when the acquisition unit 305 acquires a specific signal. Specifically, the generation unit 303 may generate notification information when, for example, the acquisition unit 305 acquires a notification signal indicating that the current operation mode of the elevator 101 has been switched. ..

The transmission unit 307 transmits the notification information generated by the generation unit 303 to the management server computer 130. The transmission unit 307 transmits the notification information to the management server computer 130 each time the generation unit 303 generates the notification information. Alternatively, the transmission unit 307 may, for example, transmit the notification information to the management server computer 130 when the generation unit 303 generates specific notification information. Specifically, for example, when the generation unit 303 generates notification information based on an alarm signal indicating that the current operation mode of the elevator 101 has been switched, the transmission unit 307 manages the notification information on the management server computer. It may be transmitted to 130.

Further, the remote monitoring support device 120 according to the second embodiment of the present invention further determines whether or not the operating state of the elevator 101 is the normal operating state based on the signal acquired by the acquisition unit 305 by the determination unit 306. However, when it is not in the normal operating state, notification information including information on the state of the elevator 101 may be generated and transmitted to the management server computer 130. As a result, the operator can quickly grasp that the operating state of the elevator 101 is not the normal operating state, and arranges an inspection worker as necessary to maintain the elevator 101 in a good state. It can be done quickly. As a result, the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can use the elevator 101 with peace of mind.

(Processing procedure of remote monitoring support device 120)
5 and 6 are flowcharts showing a processing procedure of the remote monitoring support device 120 according to the second embodiment of the present invention. In the flowchart of FIG. 5, first, it waits until the control signal output from the control board 110 is acquired (step S501: No).

When the control signal output from the control board 110 is acquired in step S501 (step S501: Yes), notification information is generated based on the acquired control signal (step S502). In step S502, for example, the elevating direction of the basket 102, the floor to which the basket 102 is moved, whether or not the basket 102 is stopped on the floor to which the basket 102 is moved, and the operation of the motor for opening and closing the doors 105a and 102c. Generates notification information including information on the presence / absence, the floor on which the basket 102 is currently located, the presence / absence of operation of various safety devices, and the like.

After that, the notification information generated in step S502 is transmitted to the management server computer 130 (step S503), and the series of processes is completed. In step S503, the notification information generated in step S502 is transmitted from the communication I / F 204 to the management server computer 130 via a network 160 such as the Internet.

In the flowchart of FIG. 6, first, it is determined whether or not the transmission instruction of the notification information transmitted from the management server computer 130 has been received (step S601). When the transmission instruction of the notification information transmitted from the management server computer 130 is received in step S601 (step S601: Yes), an operation command signal for executing the diagnostic operation in the elevator 101 is generated based on the received transmission instruction. (Step S602).

Then, the operation command signal generated in step S602 is output to the control board 110 (step S603), and the series of processes is completed. In step S603, for example, the operation command signal generated in step S602 is output via the connection terminal provided on the control board 110 for connecting the maintenance diagnosis terminal.

On the other hand, in step S601, when the transmission instruction of the notification information transmitted from the management server computer 130 is not received (step S601: No), the operation of causing the control board 110 to execute the diagnostic operation in the elevator 101 last time. It is determined whether or not a predetermined time has elapsed since the command signal was transmitted (step S604). In step S604, if a predetermined time has not elapsed since the operation command signal for executing the diagnostic operation in the elevator 101 was transmitted last time (step S604: No), the process returns to step S601 and is transmitted from the management server computer 130. Determine whether or not the notification information transmission instruction has been received.

In step S604, when a predetermined time has elapsed since the operation command signal for executing the diagnosis operation in the elevator 101 was transmitted last time (step S604: Yes), the process proceeds to step S602 and the operation for executing the diagnosis operation in the elevator 101 is performed. Generate a command signal. In this case, in step S602, for example, an operation command signal for executing the diagnostic operation in the elevator 101 is generated based on the information stored in advance in the remote monitoring support device 120.

As described above, the remote monitoring support device 120 of the second embodiment acquires a signal output from the control board 110 to the outside of the control board 110, and information on the state of the elevator 101 based on the acquired signal. It is characterized in that the notification information including the above is generated and the generated notification information is transmitted to the management server computer 130.

According to the remote monitoring support device 120 of the second embodiment, the control board by acquiring the notification information based on the signal output from the control board 110 to the outside of the control board 110 and transmitting it to the management server computer 130. The 110 is not limited to the elevator 101 having a communication function with an external device installed in a remote place, and even an elevator 101 not having the communication function can perform remote monitoring of each elevator 101.

As a result, the elevator 101 can be remotely monitored regardless of the presence or absence of the communication function of the elevator 101 itself, so that the reliability of the elevator 101 is improved, the safety of the user is ensured, and the user is safe. You can use the elevator 101 with your heart in mind.

Further, the remote monitoring support device 120 of the second embodiment is characterized in that it acquires a control signal for controlling each part output from the control board 110 to each part included in the elevator 101. There is.

According to the remote monitoring support device 120 of the second embodiment, the elevator by transmitting the notification information based on the control signal output from the control board 110 to each part of the elevator 101 to the management server computer 130. Remote monitoring of the elevator 101 is performed without separately providing a dedicated terminal for outputting information on the state of the elevator 101 on the control board or separately incorporating a program or the like for generating information on the state of the elevator 101 on the control board. be able to.

As a result, the elevator 101 can be remotely monitored regardless of the model of the elevator 101, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the elevator 101 can be safely used by the user. It can be used.

Further, the remote monitoring support device 120 of the second embodiment acquires a warning signal output from the control board 110 to the outside of the control board 110 in order to notify the outside of the failure that has occurred in the elevator 101. It is characterized by doing so.

According to the remote monitoring support device 120 of the second embodiment, the elevator 101 by transmitting the notification information based on the alarm signal output from the control board 110 to the outside of the control board 110 to the management server computer 130. It is possible to remotely monitor the elevator 101 by using the existing functions. As a result, the elevator 101 can be remotely monitored regardless of the model of the elevator 101, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the elevator 101 can be safely used by the user. It can be used.

Further, the remote monitoring support device 120 of the second embodiment detects the abnormality generated in the elevator 101 and the occurrence of an earthquake having a predetermined seismic intensity or higher at the installation location of the elevator 101, thereby detecting the operation mode of the elevator 101. However, when the normal operation mode is switched to an operation mode other than the normal operation mode, the control board 110 outputs the output to the outside of the control board 110 in order to notify the outside that the operation mode has been switched. It may be possible to acquire a signal notifying the operation mode.

As a result, even in an emergency situation such as an earthquake with a seismic intensity higher than the predetermined seismic intensity, if the elevator 101 is operating normally, the elevator 101 can be remotely operated by using the existing functions of the elevator 101. It can be monitored. As a result, the elevator 101 can be remotely monitored regardless of the model of the elevator 101, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the elevator 101 can be safely used by the user. It can be used.

Further, when the remote monitoring support device 120 of the second embodiment receives the transmission instruction of the notification information transmitted from the management server computer 130, the remote monitoring support device 120 outputs a diagnosis operation execution instruction to the control board 110. It is characterized in that the control signal output to each part of the elevator 101 is acquired from the control board 110 in response to the output instruction for executing the diagnostic operation.

According to the remote monitoring support device 120 of the second embodiment, the control board 110 outputs to each part of the elevator 101 during the diagnostic operation executed by the control board 110 in response to the instruction from the management server computer 130. By transmitting the notification information based on the control signal to the management server computer 130, the elevator 101 can be remotely monitored. As a result, the elevator 101 can be remotely monitored at an arbitrary timing set on the management server computer 130 side, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can be monitored. You can use the elevator 101 with confidence.

Further, the remote monitoring support device 120 of the second embodiment executes a diagnostic operation with respect to the control board 110 via a terminal (maintenance port) to which a terminal device for maintenance (maintenance / inspection terminal) can be connected. It is characterized by outputting instructions.

According to the remote monitoring support device 120 of the second embodiment, a diagnostic terminal device (maintenance and inspection terminal) used for diagnosis of the elevator 101, which is conventionally used at the site where the elevator 101 is installed, is connected. By outputting a diagnostic operation execution instruction via a possible terminal, the diagnostic operation can be easily executed on the control board 110 without newly providing a mechanism for inputting the diagnostic operation execution instruction to the control board 110. Can be made to. As a result, the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can use the elevator 101 with peace of mind.

Further, the remote monitoring support device 120 of the second embodiment can grasp the state of the elevator 101 at predetermined time intervals regardless of whether or not the management server computer 130 transmits a diagnostic instruction. As a result, it is possible to improve the reliability of the elevator 101 while reducing the processing load on the management server computer 130 for remote monitoring of the elevator 101.

<Embodiment 3>
Next, the remote monitoring system for the elevator according to the third embodiment of the present invention will be described. In the third embodiment, the same parts as those in the first and second embodiments described above are designated by the same reference numerals, and the description thereof will be omitted.

FIG. 7 is an explanatory diagram showing a system configuration of the remote monitoring system according to the third embodiment of the present invention. FIG. 8 is an explanatory diagram showing a hardware configuration of a remote monitoring support device constituting the remote monitoring system according to the third embodiment of the present invention. In FIGS. 7 and 8, the connection terminal 121a connected to the control board 110 is connected to the relay board 201 included in the remote monitoring support device 120 according to the third embodiment of the present invention. The connection terminal 121a is electrically connected to (the input terminal) of the relay board 201, and is realized by a connector or the like provided separately from the relay board 201 and connected to the relay board 201 by wiring 121b. Can be done. The connection terminal 121a may be electrically connected to (the input terminal of) the relay board 201, and may be provided integrally with the relay board 201 or may be provided separately from the relay board 201. ..

The remote monitoring support device 120 is provided on the control board 110, and connects the connection terminal 121a to a terminal (hereinafter referred to as “maintenance / inspection terminal”) 110a to which the terminal device for diagnosis can be connected to the control board 110. This is connected to the control board 110. The connection terminal 121a and the terminal 110a for maintenance and inspection are detachably connected.

Specifically, for example, a remote monitoring support device is provided by inserting and removing a connector (male type or female type) that realizes the connection terminal 121a into a connector (female type or male type) that realizes the terminal 110a for maintenance and inspection. The 120 and the control board 110 can be connected to or disconnected from each other. By using the connection terminal 121a and the terminal 110a for maintenance and inspection as connectors, the remote monitoring support device 120 and the control board 110 can be easily connected, and the remote monitoring support device 120 can be easily removed when the remote monitoring support device 120 is removed. Can be done.

For example, when the control board 110 outputs a control signal to each part of the elevator 101 based on the signal output from the terminal device for diagnosis and the elevator 101 does not perform an operation according to the control signal, the elevator 101 It is determined that an abnormality has occurred in the elevator 101, and a signal (a signal for issuing an alarm) for notifying the occurrence of the abnormality in the elevator 101 is output.

The control board 110 outputs a notification signal for notifying the occurrence of an abnormality to the remote monitoring support device 120 via, for example, the maintenance / inspection terminal 110a. A signal output from the control board 110 via the maintenance / inspection terminal 110a, such as a signal for issuing an alarm, is input from the relay board 201 to the remote monitoring support device 120.

(Functional configuration of remote monitoring system 100)
Next, the functional configuration of the remote monitoring system 100 according to the third embodiment of the present invention will be described. FIG. 9 is a block diagram showing a functional configuration of the remote monitoring support device 120 constituting the remote monitoring system 100 of the third embodiment according to the present invention.

In FIG. 9, each function of the remote monitoring support device 120 of the elevator 101 according to the embodiment of the present invention includes a receiving unit 301, a storage unit 302, a generation unit 303, an output unit 304, and an acquisition unit 305. It is realized by the determination unit 306 and the transmission unit 307. Each function of the reception unit 301, the storage unit 302, the generation unit 303, the output unit 304, the acquisition unit 305, the determination unit 306, and the transmission unit 307 included in the remote monitoring support device 120 of the elevator 101 according to the present invention This can be realized by each part of the remote monitoring support device 120.

The receiving unit 301 receives various instruction signals transmitted from the management server computer 130. The receiving unit 301 receives, for example, a transmission instruction of the notification information transmitted from the management server computer 130. When the receiving unit 301 receives the diagnostic instruction, the storage unit 302 stores information regarding the date and time when the diagnostic instruction is received. As a result, the operation of the elevator 101 can be periodically monitored without communicating with the management server computer 130.

The generation unit 303 generates an operation command signal for causing the elevator 101 to execute the above-mentioned diagnostic operation when the reception unit 301 receives the transmission instruction. The generation unit 303 generates an operation command signal converted into a format that can be analyzed by the control board 110 by the relay board 201. When the receiving unit 301 receives the transmission instruction, the generation unit 303 generates an operation command signal including an instruction to output a signal for operating each unit of the elevator 101 in a predetermined order.

Specifically, the generation unit 303 controls, for example, a motor that raises and lowers the basket 102 of the elevator 101, a brake that stops the basket 102 that is moving up and down, a motor that opens and closes the doors 105a and 102c of the landing 105 and the basket 102, and the like. An operation command signal to be driven and controlled by 110 is generated.

The output unit 304 outputs the operation command information (operation command signal for causing the elevator 101 to execute the above diagnostic operation) generated by the generation unit 303 when the reception unit 301 receives the transmission instruction to the control board 110. .. The output unit 304 outputs an operation command signal via the connection terminal. Since the operation command signal output by the output unit 304 is converted into a format that can be analyzed by the control board 110 by the relay board 201, it is the same as when the signal for performing the diagnosis operation is directly input from the maintenance diagnosis terminal. The control board 110 can perform a diagnostic operation.

The output unit 304 outputs an operation command signal for executing the next diagnostic operation not only when the receiving unit 301 receives the transmission instruction but also when a predetermined time has elapsed after outputting the operation command signal to the control board 110. It may be output. Specifically, the output unit 304 executes the next diagnostic operation when one month has passed since the output of the diagnostic operation execution instruction based on the information regarding the date and time stored in the storage unit 302, for example. An operation command signal may be output.

As a result, it is possible to periodically output an operation command signal for executing the diagnostic operation to the control board 110 without communicating with the management server computer 130. As a result, it is possible to periodically perform a diagnostic operation on the elevator 101 while reducing the burden on communication.

The acquisition unit 305 acquires a signal output from the control board 110 to the outside of the control board 110 via the maintenance / inspection terminal 110a. For example, the acquisition unit 305 acquires information regarding the result of the diagnostic operation performed in the elevator 101 in response to the operation command signal output by the output unit 304 via the maintenance / inspection terminal 110a.

Further, the acquisition unit 305 controls, for example, when the operation mode of the elevator 101 is switched from the normal operation mode to the operation mode for the occurrence of an earthquake due to the detection that an earthquake of a predetermined seismic intensity or higher has occurred. The alarm signal output from the board 110 is acquired via the maintenance / inspection terminal 110a.

Further, for example, when the acquisition unit 305 outputs a control signal to the motor for raising and lowering the basket 102 of the elevator 101, but the floor signal indicating the position of the basket 102 does not switch, the elevator 101. When a failure occurs in the above, a signal for issuing a notification is acquired via the terminal 110a for maintenance and inspection in order to notify the occurrence of the failure to the outside.

Further, the acquisition unit 305 may acquire a control signal output from the control board 110 to each unit included in the elevator 101 via the maintenance / inspection terminal 110a. Specifically, the acquisition unit 305 is for control output from the control board 110 when, for example, a predetermined input operation is received by the operation panel 105b of the landing 105 on each floor and the operation panel 102a of the basket 102 of the elevator 101. Signal may be acquired via the maintenance / inspection terminal 110a. Specifically, the acquisition unit 305 uses, for example, the floor signal output from the control board 110 to the operation panel 105b of the landing 105 on each floor and the operation panel 102a of the basket 102 of the elevator 101 for maintenance and inspection. It may be acquired via the terminal 110a.

Further, the acquisition unit 305 may acquire a signal output to the control board 110 from each unit included in the elevator 101, for example, via the maintenance / inspection terminal 110a. Specifically, when the acquisition unit 305 receives a predetermined input operation on the operation panel 105b of the landing 105 on each floor and the operation panel 102a of the basket 102 of the elevator 101, the acquisition unit 305 outputs from the operation panels 105b and 102a. The signal may be acquired via the maintenance / inspection terminal 110a.

Further, the acquisition unit 305 may acquire a signal output to the control board 110 from each unit included in the elevator 101 including the operation panel 105b of the landing 105 on each floor and the operation panel 102a of the basket 102. Specifically, for example, when each part of the elevator 101 operates in response to a control signal output from the control board 110, the control board 110 indicates that each part operates based on the control signal. Outputs a signal (operation notification signal) to be notified to. The acquisition unit 305 acquires a signal (operation notification signal) output to the control board 110 from each unit included in the elevator 101.

As described above, the acquisition unit 305 includes a signal (downstream signal) output from the control board 110 to each unit included in the elevator 101, and a signal (upstream signal) output from each unit to the control board 110. Get the bidirectional signal of. The position where the acquisition unit 305 acquires the uplink signal and the position where the acquisition unit 305 acquires the downlink signal may be at the same position or at different positions.

The generation unit 303 generates notification information including information on the state of the elevator 101 based on the signal acquired by the acquisition unit 305. The generation unit 303 generates, for example, notification information indicating that the elevator 101 is in a normal operating state, based on a control signal output from the control board 110. Further, the generation unit 303 generates, for example, notification information indicating the floor on which the basket 102 of the elevator 101 is currently located, based on the floor signal output from the control board 110. Further, the generation unit 303 generates notification information indicating that the current operation mode of the elevator 101 has been switched or that a failure has occurred in the elevator 101, for example, based on the alarm signal output from the control board 110. ..

The generation unit 303 generates notification information each time the acquisition unit 305 acquires a signal. Alternatively, the generation unit 303 may generate notification information, for example, when the acquisition unit 305 acquires a specific signal. Specifically, the generation unit 303 may generate notification information when, for example, the acquisition unit 305 acquires a notification signal indicating that the current operation mode of the elevator 101 has been switched. ..

The transmission unit 307 transmits the notification information generated by the generation unit 303 to the management server computer 130. The transmission unit 307 transmits the notification information to the management server computer 130 each time the generation unit 303 generates the notification information. Alternatively, the transmission unit 307 may, for example, transmit the notification information to the management server computer 130 when the generation unit 303 generates specific notification information. Specifically, for example, when the generation unit 303 generates notification information based on an alarm signal indicating that the current operation mode of the elevator 101 has been switched, the transmission unit 307 manages the notification information on the management server computer. It may be transmitted to 130.

Further, the remote monitoring support device 120 according to the third embodiment of the present invention further determines whether or not the operating state of the elevator 101 is the normal operating state based on the signal acquired by the acquisition unit 305 by the determination unit 306. However, when it is not in the normal operating state, notification information including information on the state of the elevator 101 may be generated and transmitted to the management server computer 130. As a result, the operator can quickly grasp that the operating state of the elevator 101 is not the normal operating state, and arranges an inspection worker as necessary to maintain the elevator 101 in a good state. It can be done quickly. As a result, the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can use the elevator 101 with peace of mind.

(Processing procedure of remote monitoring support device 120)
Next, the processing procedure of the remote monitoring support device 120 according to the third embodiment of the present invention will be described. 10 and 11 are flowcharts showing a processing procedure of the remote monitoring support device 120 according to the third embodiment of the present invention. In the flowchart of FIG. 10, first, it is determined whether or not the transmission instruction of the notification information transmitted from the management server computer 130 has been received (step S1001). When the transmission instruction of the notification information transmitted from the management server computer 130 is received in step S1001 (step S1001: Yes), an operation command signal for executing the diagnostic operation in the elevator 101 is generated based on the received transmission instruction. (Step S1002).

Then, the operation command signal generated in step S1002 is output to the control board 110 (step S1003). In step S1003, for example, the operation command signal generated in step S1002 is output via the connection terminal provided on the control board 110 for connecting the maintenance diagnosis terminal. Then, it waits until it receives the control signal output from the control board 110 in response to the operation command signal output in step S1003 (step S1004: No).

In step S1004, when a control signal output from the control board 110 is received in response to the operation command signal output in step S1003 (step S1004: Yes), notification information is generated based on the received control signal. (Step S1005). In step S1005, for example, the control board 110 includes each part of the elevator 101 based on the control signal output from the control board 110 to each part of the elevator 101 in response to the operation command signal output in step S1003. Generates notification information notifying whether or not the operation command signal is controlled as instructed.

Then, the notification information generated in step S1005 is transmitted to the management server computer 130 (step S1006), and the series of processes is completed. In step S1006, the notification information generated in step S1005 is transmitted from the communication I / F 204 to the management server computer 130 via a network 160 such as the Internet.

On the other hand, in step S1001, when the transmission instruction of the notification information transmitted from the management server computer 130 is not received (step S1001: No), the operation of causing the control board 110 to execute the diagnostic operation in the elevator 101 last time. It is determined whether or not a predetermined time has elapsed since the command signal was transmitted (step S1007). In step S1007, if a predetermined time has not elapsed since the operation command signal for executing the diagnostic operation in the elevator 101 was transmitted last time (step S1007: No), the process returns to step S1001 and is transmitted from the management server computer 130. Determine whether or not the notification information transmission instruction has been received.

In step S1007, when a predetermined time has elapsed since the operation command signal for executing the diagnosis operation in the elevator 101 was transmitted last time (step S1007: Yes), the process proceeds to step S1002 and the operation for executing the diagnosis operation in the elevator 101 is performed. Generate a command signal. In this case, in step S1002, for example, an operation command signal for executing a diagnostic operation in the elevator 101 is generated based on the information stored in advance in the remote monitoring support device 120.

In the flowchart of FIG. 11, first, it waits until the signal for issuing the alarm output from the control board 110 via the terminal for maintenance and inspection is acquired (step S1101: No). In step S1101, when the alarm signal output from the control board 110 via the maintenance / inspection terminal is acquired (step S1101: Yes), notification information is generated based on the acquired alarm signal. (Step S1102). In step S1102, for example, notification information is generated to notify that the operation mode of the elevator 101 has been switched from the normal operation mode to the operation mode other than the normal operation mode. Further, in step S1102, for example, notification information for notifying that the operation mode of the elevator 101 has been switched from an operation mode other than the normal operation mode to the normal operation mode is generated.

Then, the notification information generated in step S1102 is transmitted to the management server computer 130 (step S1103), and the series of processes is completed. In step S1103, the notification information generated in step S1102 is transmitted from the communication I / F 204 to the management server computer 130 via a network 160 such as the Internet.

As described above, the remote monitoring support device 120 of the third embodiment is a remote monitoring support device 120 that communicates with the control board 110 that controls the operation of the elevator 101 and the management server computer 130, respectively. , An abnormality that occurred in the elevator 101 via the maintenance / inspection terminal 110a connected to the control board 110 via the maintenance / inspection terminal 110a to which the diagnostic terminal device provided on the control board 110 can be connected. Is acquired from the control board 110 to the outside of the control board 110, and the notification including information on the state of the elevator 101 is based on the acquired signal for issuing the alarm. It is characterized in that information is generated and the generated notification information is transmitted to the management server computer 130.

According to the remote monitoring support device 120 according to the third embodiment of the present invention, maintenance capable of connecting a diagnostic terminal device used for diagnosing the elevator 101, which is conventionally used at the site where the elevator 101 is installed, can be connected. A mechanism for the control board 110 to communicate with an external device by acquiring a notification signal via the inspection terminal 110a and transmitting notification information based on the notification signal to the management server computer 130. It is possible to grasp the state of the elevator 101 at a remote location on the site without newly providing the elevator 101.

As a result, the control board 110 is not limited to the elevator 101 having a communication function with an external device installed in a remote place, and even if the elevator 101 does not have the communication function, the remote monitoring of each elevator 101 can be performed. You can do it. As a result, the elevator 101 can be remotely monitored regardless of the presence or absence of the communication function of the elevator 101 itself. Therefore, the reliability of the elevator 101 is improved, the safety of the user is ensured, and the user is concerned. You can use the elevator 101 with confidence.

Further, when the remote monitoring support device 120 according to the third embodiment of the present invention receives the transmission instruction of the notification information transmitted from the management server computer 130, the operation state of the elevator 101 is set with respect to the control board 110. The operation instruction information related to the execution instruction of the diagnostic operation to be diagnosed is output, and the control signal output from the control board 110 to each part of the elevator 101 is acquired according to the operation instruction information. It is a feature.

According to the remote monitoring support device 120 according to the third embodiment of the present invention, when the control board 110 is made to perform the diagnostic operation in response to the instruction from the management server computer 130, the control board 110 to each part provided in the elevator 101. By transmitting the notification information based on the output control signal to the management server computer 130, the elevator 101 can be remotely monitored. As a result, the elevator 101 can be remotely monitored at an arbitrary timing set on the management server computer 130 side, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can be monitored. You can use the elevator 101 with confidence.

Further, the remote monitoring support device 120 according to the third embodiment of the present invention outputs the execution instruction of the next diagnostic operation when a predetermined time has elapsed after outputting the execution instruction of the diagnostic operation. It is characterized by.

According to the remote monitoring support device 120 according to the third embodiment of the present invention, the state of the elevator 101 can be grasped at predetermined time intervals regardless of whether or not the management server computer 130 transmits a diagnostic instruction. As a result, it is possible to improve the reliability of the elevator 101 while reducing the processing load on the management server computer 130 for remote monitoring of the elevator 101.

<Embodiment 4>
Next, the remote monitoring system for the elevator according to the fourth embodiment of the present invention will be described. In the fourth embodiment, the same parts as those in the first to third embodiments described above are designated by the same reference numerals, and the description thereof will be omitted.

(System configuration of remote monitoring system)
First, a system configuration of an elevator remote monitoring system including the remote monitoring support device of the fourth embodiment according to the present invention will be described. FIG. 12 is an explanatory diagram showing a system configuration of the remote monitoring system according to the fourth embodiment of the present invention.

In FIG. 12, in the remote monitoring system 100 of the fourth embodiment according to the present invention, each landing 105 is provided with a landing call button (not shown), a display indicating the floor on which the basket 102 is located, and the like. The provided operation panel 105b (hereinafter referred to as "operation panel 105b of the landing 105") is installed respectively. The landing call button outputs a signal corresponding to the input operation received by the landing call button. The display can be realized by, for example, various known display devices that display the floor on which the basket 102 is located.

The operation panel 105b of each landing 105 is provided with a control board, and is connected to the control board 110 via the control board for the operation panel 105b of the landing 105. Specifically, the control board for the operation panel 105b of the landing 105 is, for example, an operation for outputting a signal corresponding to an input operation received by the landing call button to the control board 110 and a display board for controlling the display. It can be configured by a substrate for.

In this case, a display board and an operation board are provided at each landing 105. The control board 110 receives a signal output from the operation board. Further, the control board 110 outputs a signal indicating the floor on which the basket 102 is located to the display board.

Alternatively, the control board for the operation panel 105b of the landing 105 is not limited to the one composed of the display board and the operation board, and may be realized only by the display board. Alternatively, the control board for the operation panel 105b of the landing 105 is not limited to the one composed of the display board and the operation board, and may be realized only by the operation board. ..

Alternatively, the operation panel 105b of the landing 105 may be realized only by a display board or an operation board without including a landing call button or a display. Alternatively, the operation panel 105b of the landing 105 may be realized only by the display board without including the landing call button and the operation board or display. Further, the operation panel 105b of the landing 105 may be realized only by the operation board without including the landing call button, the display, and the display board.

The remote monitoring support device 120 can be attached to, for example, a housing accommodating a control board 110 of an elevator 101, a hoistway wall, or the like. The remote monitoring support device 120 includes a main control board 121 and a voice communication board 122. The main control board 121 is directly connected to the operation panel 105b of the landing 105 via wiring 200 or the like.

Specifically, the main control board 121 of the remote monitoring support device 120 is attached to, for example, a signal line 111 connecting the operation panel 105b of the landing 105 and the control board 110, and is transmitted by the signal line 111. The board 123 for acquiring the signal of the above is provided, and the board 123 and the main control board 121 can be connected to the operation panel 105b of the landing 105 by connecting the board 123 via the wiring 200.

The main control board 121 acquires various signals output from the operation panel 105b of the landing 105. The main control board 121 is output from the operation panel 105b of the landing 105 in response to the input operation when, for example, a user of the elevator 101 performs an input operation on the operation buttons on the operation panel 105b of the landing 105. Get the call signal.

Further, the main control board 121 acquires various signals output from the control board 110 to the operation panel 105b of the landing 105 (control board for the operation panel 105b of the landing 105). The main control board 121 is, for example, in response to a call signal output from the operation panel 105b of the landing 105, among the signals output by the control board 110 to each part included in the elevator 101, to the operation panel 105b of the landing 105. The floor signal etc. output to it is acquired.

Further, the main control board 121 is connected to the control board 110. A connection terminal 121a connected to the control board 110 is connected to the main control board 121. The connection terminal 121a can be realized by, for example, a connector connected to the main control board 121 via wiring 121b or the like. The remote monitoring support device 120 is provided on the control board 110, and connects the connection terminal 121a to a terminal (hereinafter referred to as “maintenance / inspection terminal”) 110a to which the terminal device for diagnosis can be connected to the control board 110. This is connected to the control board 110. The connection terminal 121a and the terminal 110a for maintenance and inspection are detachably connected.

The maintenance / inspection terminal 110a is used, for example, to connect a diagnostic terminal device (maintenance / diagnosis terminal) used for the maintenance / inspection work when the worker performs the maintenance / inspection work at the site where the elevator 101 is installed. It is provided. The terminal 110a for maintenance and inspection is not limited to the elevator 101 installed for the purpose of remote monitoring, and is generally provided by a wide variety of elevators 101 regardless of whether they are new or old.

The terminal device for diagnosis has portability that can be carried by a worker, and is used, for example, for maintenance and inspection work performed by a worker at a site where an elevator 101 is installed. The terminal device for diagnosis includes a terminal detachably connected to the terminal 110a for maintenance and inspection. At the time of maintenance and inspection work, the worker connects the terminal provided in the terminal device for diagnosis to the terminal for maintenance and inspection provided on the control board 110, and performs a predetermined input operation to the terminal device for diagnosis. The diagnostic terminal device outputs a signal corresponding to the input operation by the worker to the control board 110.

For example, during maintenance and inspection work, when a signal output from a terminal device for diagnosis is input, the control board 110 operates each part of the elevator 101 in response to the input signal to diagnose a signal related to the operation result. Output to the terminal device for. The diagnostic terminal device notifies the information indicating whether or not the elevator 101 has normally operated in response to the input operation by the worker based on the signal related to the operation result of the elevator 101 output from the control board 110.

(Hardware configuration of remote monitoring system 100)
Next, the hardware configuration of the remote monitoring support device 120 constituting the remote monitoring system 100 of the fourth embodiment according to the present invention will be described. FIG. 13 is an explanatory diagram showing a hardware configuration of the remote monitoring support device 120 constituting the remote monitoring system 100 of the fourth embodiment according to the present invention.

In FIG. 13, the control board 110 controls the operation operation of the elevator 101 by driving and controlling each part constituting the elevator 101. The control board 110 outputs a control signal to each part of the elevator 101, and controls the operation of the elevator 101 based on the signal output from each part.

The control board for the operation panel 102a of the basket 102 and the control board for the operation panel 105b of the landing 105 described above receive a call signal corresponding to the input operation each time the input operation for the operation button by the user of the elevator 101 or the like is received. Is generated, and the generated call signal is output to the control board 110. The control board 110 outputs a control signal for driving and controlling the drive mechanism 104 based on a call signal output from, for example, a control board for the operation panel 102a of the basket 102 or a control board for the operation panel 105b of the landing 105. The operation of the elevator 101 is controlled by outputting the output.

Specifically, the control board 110 is for a motor that raises and lowers the car 102 based on a call signal output from, for example, a control board for the operation panel 102a of the car 102 and a control board for the operation panel 105b of the landing 105. A control signal is generated, and the generated control signal is output to a motor that raises and lowers the basket 102. As a result, the motor that raises and lowers the basket 102 is rotationally driven in the direction of raising or lowering the basket 102. The motor for raising and lowering the basket 102 is controlled by using, for example, an inverter, and is driven and controlled by the control board 110 so as to stop the rotation on the floor where the basket 102 is stopped.

Each time the control board 110 outputs a control signal to the motor that raises and lowers the basket 102, the control board 110 acquires the rotation speed of each motor that operates according to the control signal. The rotation speed of each motor can be obtained by using, for example, an encoder. As a result, the control board 110 can determine whether or not the motor has normally operated according to the control signal output to the motor that raises and lowers the basket 102.

Specifically, the control board 110 determines the basket 102 based on, for example, a call signal output from the control board for the operation panel 102a of the basket 102 or the control board for the operation panel 105b of the landing 105. A control signal for operating the brake so as to stop on the floor is generated, and the generated control signal is output to the brake. The brake operates so as to stop the raising / lowering operation of the basket 102 and stop the basket 102 on a predetermined floor according to the control signal output from the control board 110. As a result, the basket 102 can be stopped on a predetermined floor.

Each time the control board 110 outputs a control signal to the brake, the control board 110 acquires an output signal from the brake sensor whose output changes according to the operation of the brake. The brake sensor can be realized by, for example, a micro switch, a photoelectric sensor, or the like. As a result, the control board 110 can determine whether or not the brake has normally operated according to the control signal output to the brake.

Specifically, the control board 110 brakes the basket 102 based on, for example, a call signal output from the control board for the operation panel 102a of the basket 102 or the control board for the operation panel 105b of the landing 105. A control signal for opening and closing the doors 102c and 105a is generated on the stopped floor, and the generated control signal is output to the motor for opening and closing the door 102c of the basket 102 and the door 105a of the landing 105. As a result, the doors 102c and 105a can be opened and closed on the floor where the basket 102 is stopped. As described above, the motor that opens and closes the door 105a is locked by a device called an interlock or the like, and therefore does not operate if the door 105a is not completely closed.

The control board 110 acquires an output signal from the door open / close sensor every time a control signal is output to the motor for opening / closing the doors 102c and 105a. Thereby, the control board 110 can determine whether or not the doors 102c and 105a have normally operated according to the control signal output to the motor that opens and closes the corresponding doors 102c and 105a.

Further, the control board 110 is for control including, for example, a floor signal indicating the floor on which the basket 102 is located with respect to the control board for the operation panel 102a of the basket 102 and the control board for the operation panel 105b of the landing 105. Output the signal of. The floor on which the basket 102 is located can be specified, for example, based on an output signal from a sensor (not shown) provided for each floor in the hoistway. When the control board for the operation panel 102a of the basket 102 and the control board for the operation panel 105b of the landing 105 receive the control signal including the floor signal, the display is controlled based on the received control signal. Then, the floor on which the basket 102 is located, the moving direction (whether it is rising or falling), and the like are displayed.

The control board 110 transmits a control signal including a floor signal to the control board for the operation panel 102a of the basket 102 and the control board for the operation panel 105b of the landing 105, for example, every time the position of the basket 102 is switched. Output. Alternatively, the control board 110 periodically includes a floor signal with respect to the control board for the operation panel 102a of the basket 102 and the control board for the operation panel 105b of the landing 105, regardless of the position of the basket 102, for example. It may output a control signal.

The control board 110 is connected to the operation panel 102a and the operation panel 105b of the landing 105, and each time the basket 102 is moved up and down in response to a signal output from the operation panel 102a and the operation panel 105b of the landing 105, the basket is moved up and down. An activation signal indicating that each part has been activated in order to raise and lower the 102 is output. For example, when the control board 110 moves from the first floor to the second floor, the control board 110 outputs a start signal once. Further, for example, when the control board 110 moves from the first floor to the fifth floor without stopping in the middle, the control board 110 outputs a start signal once. Further, for example, when the control board 110 moves from the first floor to the fifth floor after stopping at the third floor on the way (opening / closing the door), the control board 110 outputs a start signal twice.

The control board 110 may calculate the traveling distance and traveling time of the basket 102 each time the basket 102 is moved up and down. The mileage of the basket 102 can be calculated, for example, based on the number of activations. Further, the traveling time of the basket 102 can be calculated based on, for example, the above-mentioned floor signal. Specifically, for example, when a call operation is received from the operation panel 105b of the platform 105 on the 4th floor while the basket 102 is on the 1st floor, the basket 102 moves on the 3rd floor from the 1st floor to the 4th floor. do.

The control board 110 includes a memory (not shown), and stores the number of times the activation signal is output, that is, the number of activations, in the memory each time the activation signal is output. The control board 110 may store in the memory the history of the operation operation of each part driven during the raising / lowering operation of the basket 102 and the opening / closing operation of the doors 105a and 102c instead of the number of activations or in addition to the number of activations. Specifically, the control board 110 relates to, for example, the number of activations, the mileage of the basket 102, the traveling time of the basket 102, the number of operations of various relays operated during the raising / lowering operation of the basket 102 and the opening / closing operations of the doors 105a and 102c. The information may be stored in the memory as a history of operation operations.

Further, the control board 110 determines whether the doors 102c and 105a are in the open state or the closed state based on the output value of the door open / close sensor. The control board 110 outputs a control signal for opening and closing the doors 102c and 105a based on the control signal for opening and closing the doors 102c and 105a and the output value of the door open / close sensor. , It can be determined whether or not the doors 102c and 105a are actually opened and closed.

Further, when the operation mode of the elevator 101 changes, the control board 110 outputs a signal indicating that the operation mode has been switched. Specifically, the control board 110 externally informs that, for example, when the operation mode of the elevator 101 is switched from the normal operation mode to an operation mode other than the normal operation mode, the operation mode is switched. It outputs a signal to notify or a signal to notify the operation mode after switching (the operation mode is other than the normal operation mode). Further, specifically, the control board 110 indicates that, for example, when the operation mode of the elevator 101 is switched from an operation mode other than the normal operation mode to the normal operation mode, the operation mode is switched. It outputs a signal to notify the outside or a signal (signal for issuing an alarm) to notify the operation mode (which is the normal operation mode) after switching.

Further, when the elevator 101 detects a failure, the control board 110 outputs (issues) a signal (signal for issuing a report) notifying the occurrence of the failure. Specifically, although the control board 110 outputs, for example, a control signal for opening / closing the doors 105a and 102c, the corresponding doors 105a and 102c do not operate based on the output value of the door opening / closing sensor. When this is detected, a signal (reporting signal) notifying that a failure has occurred in the corresponding doors 105a and 102c in the elevator 101 is output (reporting).

When the call button is operated, the terminal device 102b of the intercom outputs a call signal indicating that the operation has been performed to the remote monitoring support device 120. When the call signal output from the terminal device 102b of the intercom is input to the voice communication board 122, the remote monitoring support device 120 sends a call signal to the telephone 140 via the public voice network 170 or PBX 205. As a result, voice communication (call) can be performed between the terminal device 102b of the intercom and the telephone 140.

The intercom terminal device 102b remotely monitors the voice signal input to the microphone in a state where the connection between the remote monitoring support device 120 (voice communication board 122) and the telephone 140 installed in the maintenance management company 150 is established. Output to the support device 120. Further, the intercom terminal device 102b transmits the audio signal output from the remote monitoring support device 120 via the speaker in a state where the connection between the remote monitoring support device 120 (voice communication board 122) and the telephone 140 is established. Output.

The remote monitoring support device 120 receives the floor signal output from the operation panel 105b of the landing 105 as a result of each part operating in response to the control signal output from the control board 110 to the operation panel 105b of the landing 105. get. Then, the remote monitoring support device 120 generates notification information based on the acquired floor signal and the like, and transmits the generated notification information to the management server computer 130. The notification information includes, for example, the elevating direction of the basket 102, the floor to which the basket 102 is moved, whether or not the basket 102 has stopped on the floor to which the basket 102 is moved, and whether or not the motor for opening and closing the doors 105a and 102c is operating. , The floor on which the basket 102 is currently located, whether or not various safety devices are activated, identification information of the elevator 101 that is the source of the notification information, and the like are included.

The identification information of the elevator 101 may be, for example, the serial number of the elevator 101, a number set based on the installation location (address, etc.) of the elevator 101, or the elevator 101. The number may be arbitrarily set by a worker performing maintenance and inspection. The identification information of the elevator 101 can be configured by combining characters such as numbers and alphabets having a predetermined number of digits.

The main control board 121 included in the remote monitoring support device 120 can be configured by, for example, a relay board 201, a monitoring control board 202, a memory 203, and a communication I / F (interface) 204. The relay board 201 in the remote monitoring support device 120 is directly connected to the operation panel 105b of the landing 105 via the wiring 200.

Specifically, the relay board 201 is, for example, a control board 110 and a relay board on the foot of an IC chip provided on the operation panel 105b of the landing 105 (wiring connecting the operation panel 105b of the landing 105 and the IC chip). A contact with 201 can be provided and connected to the control board 110 via the contact. In this case, the contact may be provided on the foot for signals input from the control board 110 to the IC chip (wiring connecting the control board 110 and the IC chip), and for signals output from the IC chip to the control board 110. It may be provided on the foot (wiring connecting the control board 110 and the IC chip).

When the operation panel 105b of the landing 105 includes an LED indicating the floor on which the basket 102 is currently located, the relay board 201 in the remote monitoring support device 120 is, for example, a photoelectric sensor whose output changes depending on whether the LED is turned on or off. (Not shown), the photoelectric sensor and the relay board 201 are connected, and the floor signal is acquired by acquiring the output value of the photoelectric sensor on the main control board 121 via the relay board 201. You may do it.

Alternatively, if the operation panel 105b of the landing 105 does not include an LED that displays the floor on which the basket 102 is currently located, the relay board 201 in the remote monitoring support device 120 may, for example, turn on the LED with respect to the display board. By connecting to a board that outputs a signal that controls turning off, and acquiring the output value output from the board that outputs a signal that controls turning on / off of the LED to the board for display on the main control board 121, the floor The signal may be acquired.

Further, a connection terminal 121a connected to the control board 110 is connected to the relay board 201 in the remote monitoring support device 120. The connection terminal 121a is not limited to the one integrally provided on the relay board 201. The connection terminal 121a may be electrically connected to (the input terminal) of the relay board 201. For example, a connector provided separately from the relay board 201 and connected to the relay board 201 by wiring 121b or the like. Can be realized by.

The remote monitoring support device 120 is provided on the control board 110, and connects the connection terminal 121a to a terminal (hereinafter referred to as “maintenance / inspection terminal”) 110a to which the terminal device for diagnosis can be connected to the control board 110. This is connected to the control board 110. The connection terminal 121a and the terminal 110a for maintenance and inspection are detachably connected.

Specifically, for example, a remote monitoring support device is provided by inserting and removing a connector (male type or female type) that realizes the connection terminal 121a into a connector (female type or male type) that realizes the terminal 110a for maintenance and inspection. The 120 and the control board 110 can be connected to or disconnected from each other. By using the connection terminal 121a and the terminal 110a for maintenance and inspection as connectors, the remote monitoring support device 120 and the control board 110 can be easily connected, and the remote monitoring support device 120 can be easily removed when the remote monitoring support device 120 is removed. Can be done.

For example, the control board 110 outputs a control signal to each part of the elevator 101 based on the signal output from the diagnostic terminal device, and as a result, the elevator 101 does not operate according to the control signal. In this case, it is determined that an abnormality has occurred in the elevator 101, and a signal (a signal for issuing a notification) for notifying the occurrence of the abnormality in the elevator 101 is output.

The control board 110 outputs a notification signal for notifying the occurrence of an abnormality to the remote monitoring support device 120 via, for example, the maintenance / inspection terminal 110a. A signal output from the control board 110 via the maintenance / inspection terminal 110a, such as a signal for issuing an alarm, is input from the relay board 201 to the remote monitoring support device 120.

The relay board 201 analyzes the signal that has received the input, and outputs the analysis result to the monitoring control board 202. The monitoring control board 202 generates notification information based on the analysis result output from the relay board 201, and transmits the generated notification information to the management server computer 130 via the communication I / F 204. Further, the monitoring control board 202 stores the analysis result output from the relay board 201 in the memory 203. The monitoring control board 202 may directly store the signal received by the relay board 201 in the memory 203.

The memory 203 can be realized by a non-volatile storage medium that retains the stored information even when the power supply is cut off. Specifically, the memory 203 can be realized by, for example, a flash memory, an EEPROM (Electrically Erasable Read-Only Memory), an EPROM (Erasable Programmable Read-Only Memory), or the like.

The various signals output from the control board 110 differ depending on the model of the elevator 101 and the like. At the time of analysis, the relay board 201 converts various signals output from the control board 110 into a format that can be processed by the monitoring control board 202. The remote monitoring support device 120 analyzes the signal received by the relay board 201 and converts it into a format that can be processed by the monitoring control board 202, so that the remote of the elevator 101 is remote regardless of the model of the elevator 101. It can be monitored.

Further, the remote monitoring support device 120 outputs various operation command signals to the control board 110 via the relay board 201 controlled by the monitoring control board 202 on the main control board 121. The remote monitoring support device 120 outputs an operation command signal when driving and controlling each part of the elevator 101 via the control board 110. The operation command signal is output from the operation panel 102a or the operation panel 105b of the landing 105, for example, when the operation panel 102a or the operation panel 105b of the landing 105 receives an input operation instructing the movement to a predetermined floor. It can be realized by a signal similar to the signal (call signal, etc.). Specifically, the operation command signal is, for example, moving the basket 102 of the elevator 101 to a predetermined floor, stopping the moved basket 102 on the corresponding floor, or stopping the basket 102 on the stopped floor. Includes signals to open and close the door 102c and the door 105a of the landing 105.

When the control board 110 receives the operation command signal output from the main control board 121, the control board 110 generates the above-mentioned various control signals based on the received operation command signal, and the generated various control signals are used as an elevator. It is output to each part provided in 101. The main control board 121 inputs various operation command signals output from the monitoring control board 202 via the relay board 201 to the control board 110 via, for example, the maintenance / inspection terminal 110a provided in the elevator 101.

The terminal 110a for maintenance and inspection is provided on the control board 110. Alternatively, the maintenance and inspection terminal 110a may be electrically connected to the input terminal of the control board 110 and may be separate from the control board 110. The terminal for maintenance and inspection is provided, for example, for connecting a terminal device (terminal for maintenance diagnosis) used for the maintenance and inspection work when the worker performs the maintenance and inspection work at the site where the elevator 101 is installed. .. The terminal 110a for maintenance and inspection is not limited to the elevator 101 installed for the purpose of remote monitoring, and is generally provided by a wide variety of elevators 101 regardless of whether they are new or old.

Further, the remote monitoring support device 120 receives various instruction signals transmitted from the management server computer 130 via the communication I / F 204. The management server computer 130 outputs an instruction signal to the remote monitoring support device 120, for example, when the maintenance management company 150 accepts an input operation to the management server computer 130 by the operator.

Specifically, the management server computer 130 receives an instruction signal (transmission of notification information) instructing transmission of notification information regarding the result of the diagnostic operation executed in the elevator 101, for example, in response to the input operation received by the management server computer 130. Instructions) are sent. In this case, the management server computer 130 transmits an instruction to execute the diagnostic operation to the elevator 101 in addition to the instruction to transmit the notification information.

In the diagnostic operation, the control board 110 causes each part of the elevator 101 to output a signal for operating each part in a predetermined order, and a signal indicating whether or not each part operates normally according to the output signal. Is realized by outputting from the control board 110. The management server computer 130 may output the next diagnostic instruction periodically, that is, when a predetermined time has elapsed after outputting the diagnostic instruction (every predetermined period such as every month).

Specifically, the management server computer 130 instructs, for example, to transmit notification information regarding the history of operation operations stored in the control board 110 in response to an input operation received by the management server computer 130 or periodically. An instruction signal (instruction to transmit notification information) may be transmitted. The notification information regarding the history of the operation operation is, for example, information on the number of activations, the mileage of the basket 102, the travel time of the basket 102, the number of operations of various relays operated during the raising / lowering operation of the basket 102 and the opening / closing operation of the doors 105a and 102c. Can be realized by.

When the remote monitoring support device 120 receives various instruction signals transmitted from the management server computer 130, the remote monitoring support device 120 generates the above-mentioned operation command signal based on the received instruction signal, and the generated operation command signal is used as the control board 110. Output to. Further, the remote monitoring support device 120 outputs an operation command signal based on various instruction signals transmitted from the management server computer 130 to the control board 110, and as a result, the signal output from the control board 110 (for control). When a signal or the like is acquired, response information is generated based on the signal, and the generated response information is output to the management server computer 130.

The management server computer 130 generates report information based on the response information transmitted from the remote monitoring support device 120 in response to various instruction signals transmitted to the remote monitoring support device 120. The management server computer 130 generates report information based on the notification information received from the remote monitoring support device 120 as a result of transmitting the diagnosis instruction and the transmission instruction of the notification information, for example. In this case, the management server computer 130 generates report information including information on the mileage and the number of activations of the elevator 101, for example.

Further, the management server computer 130 has a function of issuing a report (not shown) based on the generated report information. The report is, for example, every time the elevator 101 performs a diagnostic operation, that is, every time it receives response information in response to an instruction signal (diagnosis instruction) instructing the remote monitoring support device 120 to execute the diagnostic operation. Can be issued to.

Specifically, the management server computer 130 generates print information for printing the report information on a recording medium such as paper based on the generated report information, and manages the generated print information. It is output to the terminal device 131 for operation connected to the server computer 130. When the operation terminal device 131 receives the print information, the operation terminal device 131 can issue a report by driving and controlling the printer connected to the operation terminal device 131.

(Functional configuration of remote monitoring system 100)
Next, the functional configuration of the remote monitoring system 100 according to the fourth embodiment of the present invention will be described. FIG. 14 is a block diagram showing a functional configuration of the remote monitoring support device 120 constituting the remote monitoring system 100 of the fourth embodiment according to the present invention.

(Functional configuration of remote monitoring support device 120)
In FIG. 14, each function of the remote monitoring support device 120 of the elevator 101 of the fourth embodiment according to the present invention includes a receiving unit 301, a storage unit 302, a generation unit 303, an output unit 304, and an acquisition unit 305. , The determination unit 306 and the transmission unit 307. Each function of the reception unit 301, the storage unit 302, the generation unit 303, the output unit 304, the acquisition unit 305, the determination unit 306, and the transmission unit 307 included in the remote monitoring support device 120 of the elevator 101 according to the present invention This can be realized by each part of the remote monitoring support device 120.

The receiving unit 301 receives various instruction signals transmitted from the management server computer 130. The receiving unit 301 receives, for example, a transmission instruction of the notification information transmitted from the management server computer 130. When the receiving unit 301 receives the diagnostic instruction, the storage unit 302 stores information regarding the date and time when the diagnostic instruction is received. As a result, the operation of the elevator 101 can be periodically monitored without communicating with the management server computer 130.

The generation unit 303 generates an operation command signal for causing the elevator 101 to execute the above-mentioned diagnostic operation when the reception unit 301 receives the transmission instruction. The generation unit 303 generates an operation command signal converted into a format that can be analyzed by the control board 110 by the relay board 201. When the receiving unit 301 receives the transmission instruction, the generation unit 303 generates an operation command signal including an instruction to output a signal for operating each unit of the elevator 101 in a predetermined order.

Specifically, the generation unit 303 controls, for example, a motor that raises and lowers the basket 102 of the elevator 101, a brake that stops the basket 102 that is moving up and down, a motor that opens and closes the doors 105a and 102c of the landing 105 and the basket 102, and the like. An operation command signal to be driven and controlled by 110 is generated.

When the receiving unit 301 receives the transmission instruction, the output unit 304 outputs an operation command signal to the control board 110 to cause the elevator 101 to execute the above diagnostic operation. In this embodiment, the output unit 304 outputs the operation command signal generated by the generation unit 303 to the control board 110.

The output unit 304 outputs an operation command signal via, for example, a maintenance / inspection terminal 110a for connecting a maintenance / diagnosis terminal used for inspection work performed on-site by a worker. Since the operation command signal output by the output unit 304 is converted into a format that can be analyzed by the control board 110 by the relay board 201, it is the same as when the signal for performing the diagnosis operation is directly input from the maintenance diagnosis terminal. The control board 110 can perform a diagnostic operation.

The output unit 304 outputs an operation command signal for executing the next diagnostic operation not only when the receiving unit 301 receives the transmission instruction but also when a predetermined time has elapsed after outputting the operation command signal to the control board 110. , May be output via the terminal 110a for maintenance and inspection. Specifically, the output unit 304 executes the next diagnostic operation when one month has passed since the output of the diagnostic operation execution instruction based on the information regarding the date and time stored in the storage unit 302, for example. The operation command signal is output via the maintenance / inspection terminal 110a.

As a result, it is possible to periodically output an operation command signal for executing the diagnostic operation to the control board 110 without communicating with the management server computer 130. As a result, it is possible to periodically perform a diagnostic operation on the elevator 101 while reducing the burden on communication.

The acquisition unit 305 acquires a signal output from the control board 110 to the outside of the control board 110. The acquisition unit 305 acquires, for example, a control signal output from the control board 110 to each unit included in the elevator 101 in response to an operation command signal output by the output unit 304 to execute the diagnostic operation.

Further, the acquisition unit 305 acquires, for example, signals input / output to the operation panel 105b of the landing 105 on each floor. Specifically, the acquisition unit 305 may receive a signal input from the control board 110 to the operation panel 105b of the landing 105 on each floor via the board 123 and wiring 200, or the landing 105 on each floor. The signal output from the operation panel 105b to the control board 110 is acquired.

More specifically, for example, when the acquisition unit 305 receives a predetermined input operation on the operation panel 105b of the landing 105 on each floor, the floor output from the operation panel 105b of the landing 105 to the control board 110. Get the floor signal. Further, the acquisition unit 305 acquires, for example, a control signal output from the control board 110 to the operation panel 105b of the landing 105 in response to the floor signal output from the operation panel 105b of the landing 105. May be good.

In this way, the acquisition unit 305 receives the signal (downstream signal) output from the control board 110 to the operation panel 105b of the landing 105 on each floor, and the operation panel 105b of the landing 105 on each floor to the control board 110. The bidirectional signal of the output signal (upstream signal) is acquired. The position where the acquisition unit 305 acquires the uplink signal and the position where the acquisition unit 305 acquires the downlink signal may be at the same position or at different positions.

Further, the acquisition unit 305 controls, for example, when the operation mode of the elevator 101 is switched from the normal operation mode to the operation mode for the occurrence of an earthquake due to the detection that an earthquake of a predetermined seismic intensity or higher has occurred. The alarm signal output from the board 110 to the operation panel 105b of the landing 105 may be acquired. Further, for example, when the acquisition unit 305 outputs a control signal to the motor that raises and lowers the basket 102 of the elevator 101, but the floor signal indicating the position of the basket 102 does not switch, the elevator 101. In order to notify the occurrence of the failure to the outside, a signal for issuing a warning output from the control board 110 to the operation panel 105b of the landing 105 may be acquired. These alarm signals can be acquired, for example, via the maintenance / inspection terminal 110a.

The generation unit 303 generates notification information including information on the state of the elevator 101 based on the signal acquired by the acquisition unit 305. The generation unit 303 generates, for example, notification information indicating that the elevator 101 is in a normal operating state, based on a control signal output from the control board 110. Further, the generation unit 303 generates, for example, notification information indicating the floor on which the basket 102 of the elevator 101 is currently located, based on the floor signal output from the control board 110. Further, the generation unit 303 generates notification information indicating that the current operation mode of the elevator 101 has been switched or that a failure has occurred in the elevator 101, for example, based on the alarm signal output from the control board 110. ..

The generation unit 303 generates notification information each time the acquisition unit 305 acquires a signal. Alternatively, the generation unit 303 may generate notification information, for example, when the acquisition unit 305 acquires a specific signal. Specifically, the generation unit 303 may generate notification information when, for example, the acquisition unit 305 acquires a notification signal indicating that the current operation mode of the elevator 101 has been switched. ..

The transmission unit 307 transmits the notification information generated by the generation unit 303 to the management server computer 130. The transmission unit 307 transmits the notification information to the management server computer 130 each time the generation unit 303 generates the notification information. Alternatively, the transmission unit 307 may, for example, transmit the notification information to the management server computer 130 when the generation unit 303 generates specific notification information. Specifically, for example, when the generation unit 303 generates notification information based on an alarm signal indicating that the current operation mode of the elevator 101 has been switched, the transmission unit 307 manages the notification information on the management server computer. It may be transmitted to 130.

Further, the remote monitoring support device 120 according to the fourth embodiment of the present invention further determines whether or not the operating state of the elevator 101 is the normal operating state based on the signal acquired by the acquisition unit 305 by the determination unit 306. However, when it is not in the normal operating state, notification information including information on the state of the elevator 101 may be generated and transmitted to the management server computer 130. As a result, the operator can quickly grasp that the operating state of the elevator 101 is not the normal operating state, and arranges an inspection worker as necessary to maintain the elevator 101 in a good state. It can be done quickly. As a result, the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can use the elevator 101 with peace of mind.

(Processing procedure of remote monitoring support device 120)
Next, the processing procedure of the remote monitoring support device 120 according to the fourth embodiment of the present invention will be described. 15 and 16 are flowcharts showing a processing procedure of the remote monitoring support device 120 according to the fourth embodiment of the present invention. In the flowchart of FIG. 15, first, the user waits until the signal input / output to / from the operation panel 105b of the landing 105 is acquired. In step S1501, the user waits until the signal input from the control board 110 to the operation panel 105b of the landing 105 is acquired, or the signal output from the operation panel 105b of the landing 105 to the control board 110 is acquired. do.

In step S1501, when the signal input / output to the operation panel 105b of the landing 105 is acquired (step S1501: Yes), the predetermined time has been since the last acquisition of the signal output from the operation panel 105b of the landing 105. It is determined whether or not it has passed (step S1502). In step S1502, for example, a predetermined time is set so that it can be determined that the basket 102 is stopped, and whether the predetermined time has elapsed since the last signal output from the operation panel 105b of the landing 105 was acquired. Judge whether or not. Specifically, for example, the time required for opening and closing the doors 105a and 102c can be set as a predetermined time.

In step S1502, if a predetermined time has not elapsed since the signal output from the operation panel 105b of the landing 105 was last acquired (step S1502: No), the process returns to step S1501 and is output from the operation panel 105b of the landing 105. It is determined whether or not the signal is acquired. On the other hand, in step S1502, when a predetermined time has elapsed since the last acquisition of the signal output from the operation panel 105b of the landing 105 (step S1502: Yes), acquisition by the time when the predetermined time elapses in step S1502: Yes. Notification information is generated based on the signal output from the operation panel 105b of the landing 105 (step S1503). As a result, when the floors are continuously changing, that is, when moving between multiple floors, notification information is not generated until the basket 102 is stopped, and the basket 102 is stopped. Notification information can be generated.

After that, the notification information generated in step S1503 is transmitted to the management server computer 130 (step S1504), and a series of processes is completed. In step S1504, the notification information generated in step S1503 is transmitted from the communication I / F 204 to the management server computer 130 via a network 160 such as the Internet.

On the other hand, in step S1501, when the signal output from the operation panel 105b of the landing 105 has not been acquired (step S1501: No), the alarm signal output via the maintenance / inspection terminal 110a has been acquired. Whether or not it is determined (step S1505). If the alarm signal output via the maintenance / inspection terminal 110a has not been acquired in step S1505 (step S1505: No), the process returns to step S1501. In step S1505, when the alarm signal output via the maintenance / inspection terminal 110a is acquired (step S1505: Yes), the process proceeds to step S1503.

In the flowchart of FIG. 16, first, it is determined whether or not the transmission instruction of the notification information transmitted from the management server computer 130 has been received (step S1601). When the transmission instruction of the notification information transmitted from the management server computer 130 is received in step S1601 (step S1601: Yes), an operation command signal for executing the diagnostic operation in the elevator 101 is generated based on the received transmission instruction. (Step S1602).

Then, the operation command signal generated in step S1602 is output to the control board 110 (step S1603), and the process proceeds to step S1604. In step S1603, for example, the operation command signal generated in step S1602 is output via the connection terminal 121a provided on the control board 110 for connecting the maintenance diagnosis terminal.

After that, in step S1604, it waits until the signal input / output to the operation panel 105b of the landing 105 is acquired (step S1604: No). In step S1604, for example, a control signal (input to the operation panel 105b of the landing 105) output from the control board 110 to the operation panel 105b of the landing 105 in response to the operation command signal output in step S1603. As a result of the operation of each part of the elevator 101 according to the signal) or the control signal, the elevator waits until the signal output from the operation panel 105b of the landing 105 is acquired.

In step S1604, when the signal input / output to the operation panel 105b of the landing 105 is acquired (step S1604: Yes), notification information is generated based on the acquired control signal (step S1605). In step S1605, for example, the control board 110 includes each part of the elevator 101 based on the control signal output from the control board 110 to each part of the elevator 101 in response to the operation command signal output in step S1603. Generates notification information notifying whether or not the operation command signal is controlled as instructed.

Then, the notification information generated in step S1605 is transmitted to the management server computer 130 (step S1606), and a series of processes is completed. In step S1606, the notification information generated in step S1605 is transmitted from the communication I / F 204 to the management server computer 130 via a network 160 such as the Internet.

On the other hand, in step S1601, when the transmission instruction of the notification information transmitted from the management server computer 130 is not received (step S1601: No), the operation of causing the control board 110 to execute the diagnostic operation in the elevator 101 last time. It is determined whether or not a predetermined time has elapsed since the command signal was transmitted (step S1607). In step S1607, if a predetermined time has not elapsed since the operation command signal for executing the diagnostic operation in the elevator 101 was transmitted last time (step S1607: No), the process returns to step S1601 and is transmitted from the management server computer 130. Determine whether or not the notification information transmission instruction has been received.

In step S1607, when a predetermined time has elapsed since the operation command signal for executing the diagnostic operation in the elevator 101 was transmitted last time (step S1607: Yes), the operation proceeds to step S1602 and the diagnostic operation is executed in the elevator 101. Generate a command signal. In this case, in step S1602, for example, an operation command signal for executing the diagnostic operation in the elevator 101 is generated based on the information stored in advance in the remote monitoring support device 120.

As described above, the remote monitoring support device 120 of the fourth embodiment is a remote monitoring support device 120 that communicates with the control board 110 that controls the operation of the elevator 101 and the management server computer 130, respectively. , The signal output from the control board 110 to the operation panel 105b (operation panel 105b of the platform 105) provided in each platform 105 of the elevator 101, and the operation of the platform 105 according to the operation of the elevator 101 in response to the signal. The signal output from the board 105b to the control board 110 is acquired, notification information regarding the state of the elevator 101 is generated based on the acquired signal, and the generated notification information is transmitted to the management server computer 130. It is characterized by.

According to the remote monitoring support device 120 of the fourth embodiment, the signal output from the control board 110 to the operation panel 105b of the landing 105 and the operation of the elevator 101 in response to the control signal are accompanied by the operation of the landing 105. By transmitting the notification information based on the signal output from the operation panel 105b to the control board 110 to the management server computer 130, the control board 110 is not limited to the control board 110 having a communication function with an external device installed in a remote place. Even an elevator 101 equipped with a control board 110 that does not have the communication function can perform remote monitoring.

As a result, the elevator 101 can be remotely monitored regardless of the presence or absence of the communication function of the elevator 101 itself, so that the reliability of the elevator 101 is improved, the safety of the user is ensured, and the user is safe. You can use the elevator 101 with your heart in mind.

Further, according to the remote monitoring support device 120 of the fourth embodiment, the signal output from the operation panel 105b of the landing 105 can be directly transmitted to the remote monitoring support device 120 without going through the control board 110. .. As a result, the reliability of the notification information transmitted to the management server computer 130 can be improved as compared with the case where the control board 110 or other relay device is provided. Further, as a result, the reliability of the elevator 101 can be further improved, the safety of the user can be further ensured, and the user can use the elevator 101 with peace of mind.

Further, when the information regarding the state of the elevator 101 is acquired via the control board 110 by directly transmitting the information from the operation panel 105b (signal line 111) of the landing 105 to the remote monitoring support device 120 without going through the control board 110. It is possible to reduce the processing load on the control board 110 as compared with the above.

Further, the remote monitoring support device 120 of the fourth embodiment operates the elevator 101 with respect to the control board 110 when it receives a diagnostic instruction instructing transmission of notification information transmitted from the management server computer 130. Of the control signals output from the control board 110 to each part of the elevator 101 in response to the output instruction for executing the diagnostic operation for diagnosing the state, the operation panel 105b of the landing 105 It is characterized in that the signal output to the control board 110 and the signal output from the operation panel 105b of the landing 105 to the control board 110 in response to the control signal are acquired.

According to the remote monitoring support device 120 of the fourth embodiment, the control board 110 outputs to each part of the elevator 101 during the diagnostic operation executed by the control board 110 in response to the instruction from the management server computer 130. Among the control signals, the signal output to the operation panel 105b of the landing 105 and the notification information based on the signal output from the operation panel 105b of the landing 105 to the control board 110 according to the control signal are managed. Remote monitoring of the elevator 101 can be performed by transmitting to the server computer 130.

As a result, the elevator 101 can be remotely monitored at an arbitrary timing set on the management server computer 130 side, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can be monitored. You can use the elevator 101 with confidence.

Further, the remote monitoring support device 120 of the fourth embodiment is connected to the control board 110 via a maintenance / inspection terminal 110a to which a portable terminal device for outputting a diagnostic operation execution instruction to the control board 110 can be connected. On the other hand, it is characterized by outputting an execution instruction of a diagnostic operation.

According to the remote monitoring support device 120 of the fourth embodiment, the execution instruction of the diagnostic operation is output via the maintenance / inspection terminal 110a conventionally used at the site where the elevator 101 is installed. The control board 110 can easily execute the diagnostic operation without newly providing the control board 110 with a mechanism for inputting the execution instruction of the diagnostic operation. As a result, the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can use the elevator 101 with peace of mind.

Further, the remote monitoring support device 120 of the fourth embodiment is characterized in that when a predetermined time has elapsed after outputting the execution instruction of the diagnostic operation, the execution instruction of the next diagnostic operation is output.

According to the remote monitoring support device 120 of the fourth embodiment, the state of the elevator 101 can be grasped at predetermined time intervals regardless of whether or not the management server computer 130 transmits a diagnostic instruction. As a result, it is possible to improve the reliability of the elevator 101 while reducing the processing load on the management server computer 130 for remote monitoring of the elevator 101.

<Embodiment 5>
Next, the remote monitoring system for the elevator according to the fifth embodiment of the present invention will be described. In the fifth embodiment, the same parts as those in the first to fourth embodiments described above are designated by the same reference numerals, and the description thereof will be omitted.

(System configuration of remote monitoring system)
First, a system configuration of an elevator remote monitoring system including the remote monitoring support device of the fifth embodiment according to the present invention will be described. FIG. 17 is an explanatory diagram showing a system configuration of the remote monitoring system according to the fifth embodiment of the present invention.

In FIG. 17, the remote monitoring system 100 of the fifth embodiment according to the present invention is composed of, for example, a control board (control device) 110, a remote monitoring support device 120, a management server computer 130, and a telephone 140. be able to. The remote monitoring system 100 monitors the operation of the elevator 101 by using the management server computer 130 installed at a remote location of the elevator 101. The management server computer 130 monitors the operation of the elevator 101 via the remote monitoring support device 120.

The management server computer 130 is installed in a remote place away from the place where the elevator 101 to be monitored is installed, which is different from the place where the elevator 101 to be monitored is installed. Specifically, the management server computer 130 can be installed in, for example, a maintenance management company 150 that is in charge of maintenance management of the elevator 101.

The telephone 140 is installed, for example, in the maintenance management company 150 in which the management server computer 130 is installed. By installing the management server computer 130 and the telephone 140 in the maintenance management company 150, a person in the basket 102 of the elevator 101 and the operator of the maintenance management company 150 can directly talk to each other.

The elevator 101 is installed in a multi-story building or the like, and is equipped with a basket 102 for carrying people and goods. One basket 102 is provided for each elevator 101. The basket 102 is provided in a hoistway (not shown) that penetrates each floor in the building along the vertical direction. The elevator 101 can be realized by, for example, a rope type (traction type) elevator.

The elevator 101 that can be monitored by the remote monitoring system 100 according to the embodiment of the present invention is not limited to the rope type elevator. In the remote monitoring system of the embodiment according to the present invention, for example, the hydraulic elevator 101 may be the monitoring target instead of the rope type elevator 101 or in addition to the rope type elevator.

The basket 102 is provided with an operation panel 102a including an operation button including a destination floor button and a door open / close button, and a display for displaying the floor on which the basket 102 is located (hereinafter, “the operation panel 102a of the basket 102” as appropriate). ) Is provided. The operation buttons including the destination floor button and the door open / close button output a signal corresponding to the input operation received by the operation button. The display can be realized by, for example, various known display devices that display the floor on which the basket 102 is located.

The operation panel 102a of the basket 102 includes a control board for the operation panel 102a, and is connected to the control board 110 via the control board for the operation panel 102a. Specifically, the control board for the operation panel 102a of the basket 102 is, for example, an operation board that outputs a signal corresponding to an input operation received by an operation button to the control board 110, and a display board for controlling a display. It can be configured by the substrate of. In this case, the control board 110 receives the signal output from the operation board. Further, in this case, the control board 110 outputs a signal indicating the floor on which the basket 102 is located to the display board.

Alternatively, the control board for the operation panel 102a of the basket 102 is not limited to the one composed of the operation board and the display board, and may be realized only by the operation board. Alternatively, the control board for the operation panel 102a of the basket 102 is not limited to the one composed of the operation board and the display board, and may be realized only by the display board. ..

Alternatively, the operation panel 102a of the basket 102 may be realized only by the operation board or the display board without including the operation buttons and the display. Alternatively, the operation panel 102a of the basket 102 may be realized only by the display board without including the operation buttons and the operation board or display. Further, the operation panel 102a of the basket 102 may be realized only by the operation board without including the operation buttons, the display, and the display board.

Further, the basket 102 is provided with an intercom terminal device 102b. The terminal device 102b of the intercom includes a call button, a microphone, and a speaker (all of which are not shown). The terminal device 102b of the intercom is connected to the remote monitoring support device 120.

The hoistway is provided with a drive mechanism 104 involved in the raising and lowering operation of the basket 102. The drive mechanism 104 can be provided, for example, at the upper part of the hoistway. The drive mechanism 104 includes a hoist, a pulley, a rope 104a, a counterweight 104b, and the like. The drive mechanism 104 further includes an electromagnetic brake, a speed governor, and the like (both are not shown). Since the drive mechanism 104 can be easily realized by using a known technique, the description thereof will be omitted. The drive mechanism 104 is not limited to the one provided at the upper part of the hoistway. The drive mechanism 104 may be provided at the bottom (pit) of the hoistway, for example, in the case of the hydraulic elevator 101.

The basket 102 is connected to one end of the rope 104a, and the counterweight 104b is connected to the other end of the rope 104a. In the rope type elevator 101, the hoisting machine is driven in a state where the rope 104a having the basket 102 and the counterweight 104b connected to both ends is suspended on the pulley and the hoisting machine, and is between the rope 104a and the hoisting machine. The rope 102 is moved up and down by using the frictional force (traction) of. The hoistway is provided with a guide rail (not shown) that guides the elevating position of the basket 102.

Doors 105a and 102c are provided at positions (landings) 105 and baskets 102 corresponding to each floor in the hoistway, respectively. The basket 102 is provided with a motor (not shown) for opening and closing the door 102c provided in the basket 102 and the door 105a provided in the landing 105. The motor for opening and closing the doors 105a and 102c is connected to the control board 110.

The door 105a provided at the landing 105 is locked by a device called an interlock or the like. When the motor is driven while the elevator 101 has arrived at the stop floor, the drive mechanism portion of the door 102c provided in the basket 102 and the interlock are engaged with each other to release the lock by the interlock, and the door 102c provided in the basket 102 is released. And the door 105a provided at the landing 105 opens and closes in conjunction with each other.

The elevator 101 includes a door opening / closing sensor (not shown) that detects the opening / closing of the doors 102c and 105a. The output of the door open / close sensor changes depending on whether the doors 102c and 105a are in the open state or the closed state. The door open / close sensor can be realized by, for example, a micro switch or a photoelectric sensor. The door open / close sensor is connected to the control board 110 via wiring, and the signal output from the door open / close sensor is input to the control board 110 via the wiring.

Each landing 105 has an operation panel 105b (hereinafter referred to as "operation panel 105b of the landing 105") equipped with a landing call button (not shown) and a display for displaying the floor on which the basket 102 is located. Each is installed. The operation panel 105b of each landing 105 is provided with a control board, and is connected to the control board 110 via the control board for the operation panel 105b of the landing 105.

The operation panel 105b of the landing 105 may include a display board provided in each landing 105 to display the floor on which the basket 102 is located by turning on an LED or the like. Alternatively, the operation panel 105b of the landing 105 does not include a display board that displays the floor on which the basket 102 is located, but only a board that outputs a signal for controlling LED lighting / extinguishing to the display board. It may be realized by.

The remote monitoring support device 120 can be attached to, for example, a housing accommodating a control board 110 of an elevator 101, a hoistway wall, or the like. The remote monitoring support device 120 includes a main control board 121 and a voice communication board 122. The main control board 121 is directly connected to the operation panel 102a of the basket 102 via wiring 200 or the like.

Specifically, the main control board 121 of the remote monitoring support device 120 is attached to, for example, a signal line 111 connecting the operation panel 102a of the basket 102 and the control board 110, and is transmitted by the signal line 111. The board 1701 for acquiring the signal of the above is provided, and the board 1701 and the main control board 121 can be connected to the operation panel 102a of the basket 102 via the wiring 200.

The main control board 121 acquires various signals output from the operation panel 102a of the basket 102. The main control board 121 is output from the operation panel 102a of the basket 102 in response to the input operation when, for example, a user of the elevator 101 performs an input operation on the operation buttons on the operation panel 102a of the basket 102. Get the call signal.

Further, the main control board 121 acquires various signals output from the control board 110 to the operation panel 102a of the basket 102 (control board for the operation panel 102a of the basket 102). The main control board 121 is, for example, in response to a call signal output from the operation panel 102a of the basket 102, among the signals output by the control board 110 to each part included in the elevator 101, to the operation panel 102a of the basket 102. The floor signal etc. output to it is acquired.

Further, the main control board 121 is connected to the control board 110. A connection terminal 121a connected to the control board 110 is connected to the main control board 121. The connection terminal 121a can be realized by, for example, a connector connected to the main control board 121 via wiring 121b or the like. The remote monitoring support device 120 is provided on the control board 110, and connects the connection terminal 121a to a terminal (hereinafter referred to as “maintenance / inspection terminal”) 110a to which the terminal device for diagnosis can be connected to the control board 110. This is connected to the control board 110. The connection terminal 121a and the terminal 110a for maintenance and inspection are detachably connected.

The maintenance / inspection terminal 110a is used, for example, to connect a diagnostic terminal device (maintenance / diagnosis terminal) used for the maintenance / inspection work when the worker performs the maintenance / inspection work at the site where the elevator 101 is installed. It is provided. The terminal 110a for maintenance and inspection is not limited to the elevator 101 installed for the purpose of remote monitoring, and is generally provided by a wide variety of elevators 101 regardless of whether they are new or old.

The terminal device for diagnosis has portability that can be carried by a worker, and is used, for example, for maintenance and inspection work performed by a worker at a site where an elevator 101 is installed. The terminal device for diagnosis includes a terminal detachably connected to the terminal 110a for maintenance and inspection. At the time of maintenance and inspection work, the worker connects the terminal provided in the terminal device for diagnosis to the terminal for maintenance and inspection provided on the control board 110, and performs a predetermined input operation to the terminal device for diagnosis. The diagnostic terminal device outputs a signal corresponding to the input operation by the worker to the control board 110.

For example, during maintenance and inspection work, when a signal output from a terminal device for diagnosis is input, the control board 110 operates each part of the elevator 101 in response to the input signal to diagnose a signal related to the operation result. Output to the terminal device for. The diagnostic terminal device notifies the information indicating whether or not the elevator 101 has normally operated in response to the input operation by the worker based on the signal related to the operation result of the elevator 101 output from the control board 110.

Further, the main control board 121 is connected to the management server computer 130 via a network 160 such as the Internet. By connecting the main control board 121 and the management server computer 130 via the Internet instead of the public voice network 170 such as a telephone line, it is possible to prevent the situation grasp of the elevator 101 from being delayed due to a flat tire on the telephone line in an emergency. And you can take prompt action.

The voice communication board 122 is connected to the terminal device 102b of the intercom and the public voice network 170. Specifically, the voice communication board 122 can be realized by, for example, a PHS (Personal Handy-phone System) board. The public voice network 170 includes a fixed telephone network (public switched telephone network) and a mobile telephone network. The public voice network 170 is composed of a plurality of exchanges (not shown), such as a subscriber line exchange for accommodating a telephone line, a relay exchange for bundling subscriber line exchanges, and a barrier exchange for connecting to a telephone network of another operator. There is. Since the public voice network 170 is a known technique, the description thereof will be omitted.

The main control board 121 may perform communication using the PHS board included in the voice communication board 122. In this case, the remote monitoring support device 120 uses the PHS board for voice communication as well as data communication. Since the installation location of the elevator 101 is fixed, it is possible to ensure the quality of communication and reduce the cost of communication by performing communication using PHS.

The management server computer 130 can be realized by a computer device such as a personal computer. An operation terminal device 131 may be connected to the management server computer 130. The management server computer 130 and the terminal device 131 for operation may be installed in the same place or may be installed in different places. The terminal device 131 for operation may be one unit or a plurality of units. The terminal device 131 for operation can be realized by, for example, an input device such as a keyboard or a mouse, or a computer device such as a personal computer provided with a display or the like. Further, a printer (not shown) for outputting a report or the like describing the state of the elevator 101 may be connected to the terminal device 131 for operation.

In addition to the management server computer 130 and the telephone 140, the maintenance management company 150 can install a PBX (Private Branch eXchange, see reference numeral 205 in FIG. 2). The telephone 140 is connected to the public voice network 170 via the PBX. In the remote monitoring system 100, the telephone 140 may be directly connected to the public voice network 170 without providing the PBX.

(Hardware configuration of remote monitoring system 100)
Next, the hardware configuration of the remote monitoring support device 120 constituting the remote monitoring system 100 of the fifth embodiment according to the present invention will be described. FIG. 18 is an explanatory diagram showing a hardware configuration of a remote monitoring support device 120 constituting the remote monitoring system 100 of the fifth embodiment according to the present invention.

In FIG. 18, the control board 110 controls the operation operation of the elevator 101 by driving and controlling each part constituting the elevator 101. The control board 110 outputs a control signal to each part of the elevator 101, and controls the operation of the elevator 101 based on the signal output from each part.

The control board for the operation panel 102a of the basket 102 described above generates a call signal corresponding to the input operation each time an input operation for an operation button by a user of the elevator 101 or the like is received, and the generated call signal is used as a control board. Output to 110. The control board 110 controls the operation of the elevator 101 by outputting a control signal for driving and controlling the drive mechanism 104, for example, based on a call signal output from the control board for the operation panel 102a of the basket 102. do.

Specifically, the control board 110 generates, for example, a control signal for the motor that raises and lowers the basket 102 based on the call signal output from the control board for the operation panel 102a of the basket 102, and the generated control. Signal is output to the motor that raises and lowers the basket 102. As a result, the motor that raises and lowers the basket 102 is rotationally driven in the direction of raising or lowering the basket 102. The motor for raising and lowering the basket 102 is controlled by using, for example, an inverter, and is driven and controlled by the control board 110 so as to stop the rotation on the floor where the basket 102 is stopped.

Each time the control board 110 outputs a control signal to the motor that raises and lowers the basket 102, the control board 110 acquires the rotation speed of each motor that operates according to the control signal. The rotation speed of each motor can be obtained by using, for example, an encoder. As a result, the control board 110 can determine whether or not the motor has normally operated according to the control signal output to the motor that raises and lowers the basket 102.

Specifically, the control board 110 operates a brake so as to stop the car 102 on a predetermined floor based on a call signal output from the control board for the operation panel 102a of the car 102, for example. A control signal is generated, and the generated control signal is output to the brake. The brake operates so as to stop the raising / lowering operation of the basket 102 and stop the basket 102 on a predetermined floor according to the control signal output from the control board 110. As a result, the basket 102 can be stopped on a predetermined floor.

Each time the control board 110 outputs a control signal to the brake, the control board 110 acquires an output signal from the brake sensor whose output changes according to the operation of the brake. The brake sensor can be realized by, for example, a micro switch, a photoelectric sensor, or the like. As a result, the control board 110 can determine whether or not the brake has normally operated according to the control signal output to the brake.

Specifically, the control board 110 has doors 102c and 105a on the floor where the car 102 is stopped by a brake based on a call signal output from the control board for the operation panel 102a of the car 102, for example. A control signal for opening and closing is generated, and the generated control signal is output to a motor for opening and closing the door 102c of the basket 102 and the door 105a of the landing 105. As a result, the doors 102c and 105a can be opened and closed on the floor where the basket 102 is stopped. As described above, the motor that opens and closes the door 105a is locked by a device called an interlock or the like, and therefore does not operate if the door 105a is not completely closed.

The control board 110 acquires an output signal from the door open / close sensor every time a control signal is output to the motor for opening / closing the doors 102c and 105a. Thereby, the control board 110 can determine whether or not the doors 102c and 105a have normally operated according to the control signal output to the motor that opens and closes the corresponding doors 102c and 105a.

Further, the control board 110 outputs, for example, a control signal including a floor signal indicating the floor on which the basket 102 is located to the control board for the operation panel 102a of the basket 102. The floor on which the basket 102 is located can be specified, for example, based on an output signal from a sensor (not shown) provided for each floor in the hoistway. When the control board for the operation panel 102a of the basket 102 receives the control signal including the floor signal, the control board controls the display based on the received control signal, and the floor and the moving direction in which the basket 102 is located are controlled. (Whether it is rising or falling) is displayed.

The control board 110 transmits a control signal including a floor signal to the control board for the operation panel 102a of the basket 102 and the control board for the operation panel 105b of the landing 105, for example, every time the position of the basket 102 is switched. Output. Alternatively, the control board 110 periodically includes a floor signal with respect to the control board for the operation panel 102a of the basket 102 and the control board for the operation panel 105b of the landing 105, regardless of the position of the basket 102, for example. It may output a control signal.

Similar to the control board for the operation panel 102a of the basket 102, the control board for the operation panel 105b of the landing 105 responds to the input operation each time the input operation for the landing call button by the user of the elevator 101 or the like is received. A call signal is generated, and the generated call signal is output to the control board 110. When the call signal is output from the control board for the operation panel 105b of the landing 105, the control board 110 is the same as the case where the signal is output from the control board for the operation panel 102a of the basket 102. Various control signals are generated based on the signals output from the control board for 105b, and the generated control signals are output to the corresponding parts to control the operation operation of the elevator 101.

The control board 110 is connected to the operation panel 102a of the basket 102 and the operation panel 105b of the landing 105, and moves up and down the basket 102 in response to signals output from the operation panel 102a of the basket 102 and the operation panel 105b of the landing 105. Each time the car 102 is moved, a start signal indicating that each part has been started in order to raise and lower the basket 102 is output. For example, when the control board 110 moves from the first floor to the second floor, the control board 110 outputs a start signal once. Further, for example, when the control board 110 moves from the first floor to the fifth floor without stopping in the middle, the control board 110 outputs a start signal once. Further, for example, when the control board 110 moves from the first floor to the fifth floor after stopping at the third floor on the way (opening / closing the door), the control board 110 outputs a start signal twice.

The control board 110 may calculate the traveling distance and traveling time of the basket 102 each time the basket 102 is moved up and down. The mileage of the basket 102 can be calculated, for example, based on the number of activations. Further, the traveling time of the basket 102 can be calculated based on, for example, the above-mentioned floor signal. Specifically, for example, when a call operation is received from the operation panel 105b of the platform 105 on the 4th floor while the basket 102 is on the 1st floor, the basket 102 moves on the 3rd floor from the 1st floor to the 4th floor. do.

The control board 110 includes a memory (not shown), and stores the number of times the activation signal is output, that is, the number of activations, in the memory each time the activation signal is output. The control board 110 may store in the memory the history of the operation operation of each part driven during the raising / lowering operation of the basket 102 and the opening / closing operation of the doors 105a and 102c instead of the number of activations or in addition to the number of activations. Specifically, the control board 110 relates to, for example, the number of activations, the mileage of the basket 102, the traveling time of the basket 102, the number of operations of various relays operated during the raising / lowering operation of the basket 102 and the opening / closing operations of the doors 105a and 102c. The information may be stored in the memory as a history of operation operations.

Further, the control board 110 determines whether the doors 102c and 105a are in the open state or the closed state based on the output value of the door open / close sensor. The control board 110 outputs a control signal for opening and closing the doors 102c and 105a based on the control signal for opening and closing the doors 102c and 105a and the output value of the door open / close sensor. , It can be determined whether or not the doors 102c and 105a are actually opened and closed.

Further, when the operation mode of the elevator 101 changes, the control board 110 outputs a signal indicating that the operation mode has been switched. Specifically, the control board 110 externally informs that, for example, when the operation mode of the elevator 101 is switched from the normal operation mode to an operation mode other than the normal operation mode, the operation mode is switched. It outputs a signal to notify or a signal to notify the operation mode after switching (the operation mode is other than the normal operation mode). Further, specifically, the control board 110 indicates that, for example, when the operation mode of the elevator 101 is switched from an operation mode other than the normal operation mode to the normal operation mode, the operation mode is switched. It outputs a signal to notify the outside or a signal (signal for issuing an alarm) to notify the operation mode (which is the normal operation mode) after switching.

Further, when the elevator 101 detects a failure, the control board 110 outputs (issues) a signal (signal for issuing a report) notifying the occurrence of the failure. Specifically, although the control board 110 outputs, for example, a control signal for opening / closing the doors 105a and 102c, the corresponding doors 105a and 102c do not operate based on the output value of the door opening / closing sensor. When this is detected, a signal (reporting signal) notifying that a failure has occurred in the corresponding doors 105a and 102c in the elevator 101 is output (reporting).

When the call button is operated, the terminal device 102b of the intercom outputs a call signal indicating that the operation has been performed to the remote monitoring support device 120. When the call signal output from the terminal device 102b of the intercom is input to the voice communication board 122, the remote monitoring support device 120 sends a call signal to the telephone 140 via the public voice network 170 or PBX 205. As a result, voice communication (call) can be performed between the terminal device 102b of the intercom and the telephone 140.

The intercom terminal device 102b remotely monitors the voice signal input to the microphone in a state where the connection between the remote monitoring support device 120 (voice communication board 122) and the telephone 140 installed in the maintenance management company 150 is established. Output to the support device 120. Further, the intercom terminal device 102b transmits the audio signal output from the remote monitoring support device 120 via the speaker in a state where the connection between the remote monitoring support device 120 (voice communication board 122) and the telephone 140 is established. Output.

The remote monitoring support device 120 receives the floor signal output from the operation panel 105b of the landing 105 as a result of each part operating in response to the control signal output from the control board 110 to the operation panel 105b of the landing 105. get. Then, the remote monitoring support device 120 generates notification information based on the acquired floor signal and the like, and transmits the generated notification information to the management server computer 130. The notification information includes, for example, the elevating direction of the basket 102, the floor to which the basket 102 is moved, whether or not the basket 102 has stopped on the floor to which the basket 102 is moved, and whether or not the motor for opening and closing the doors 105a and 102c is operating. , The floor on which the basket 102 is currently located, whether or not various safety devices are activated, identification information of the elevator 101 that is the source of the notification information, and the like are included.

The identification information of the elevator 101 may be, for example, the serial number of the elevator 101, a number set based on the installation location (address, etc.) of the elevator 101, or the elevator 101. The number may be arbitrarily set by a worker performing maintenance and inspection. The identification information of the elevator 101 can be configured by combining characters such as numbers and alphabets having a predetermined number of digits.

The main control board 121 included in the remote monitoring support device 120 can be configured by, for example, a relay board 201, a monitoring control board 202, a memory 203, and a communication I / F (interface) 204. The relay board 201 in the remote monitoring support device 120 is directly connected to the operation panel 102a of the basket 102 via the wiring 200.

Specifically, the relay board 201 is, for example, a foot of an IC chip provided on a control board for the operation panel 102a of the basket 102 (wiring for connecting the control board for the operation panel 102a of the basket 102 and the IC chip). A contact between the control board 110 and the relay board 201 can be provided, and the contact can be connected to the control board 110 via the contact. In this case, the contact may be provided on the foot for signals input from the control board 110 to the IC chip (wiring connecting the control board 110 and the IC chip), and for signals output from the IC chip to the control board 110. It may be provided on the foot (wiring connecting the control board 110 and the IC chip). Then, in this case, the relay board 201 may acquire a call signal generated in response to an input operation to the operation panel 102a of the basket 102 and output from the control board for the operation panel 102a of the basket 102 to the control board 110. can.

Alternatively, for example, the relay board 201 may be connected to the wiring connecting the control board for the operation panel 102a of the basket 102 and the display indicating the floor on which the basket 102 is located. In this case, the relay board 201 acquires, for example, a floor signal indicating the floor on which the basket 102 is located, which is output from the control board 110 to the display via the control board for the operation panel 102a of the basket 102. Can be done.

Further, a connection terminal 121a connected to the control board 110 is connected to the relay board 201 in the remote monitoring support device 120. The connection terminal 121a is not limited to the one integrally provided on the relay board 201. The connection terminal 121a may be electrically connected to (the input terminal) of the relay board 201. For example, a connector provided separately from the relay board 201 and connected to the relay board 201 by wiring 121b or the like. Can be realized by.

The remote monitoring support device 120 is provided on the control board 110, and connects the connection terminal 121a to a terminal (hereinafter referred to as “maintenance / inspection terminal”) 110a to which the terminal device for diagnosis can be connected to the control board 110. This is connected to the control board 110. The connection terminal 121a and the terminal 110a for maintenance and inspection are detachably connected.

Specifically, for example, a remote monitoring support device is provided by inserting and removing a connector (male type or female type) that realizes the connection terminal 121a into a connector (female type or male type) that realizes the terminal 110a for maintenance and inspection. The 120 and the control board 110 can be connected to or disconnected from each other. By using the connection terminal 121a and the terminal 110a for maintenance and inspection as connectors, the remote monitoring support device 120 and the control board 110 can be easily connected, and the remote monitoring support device 120 can be easily removed when the remote monitoring support device 120 is removed. Can be done.

As a result, the remote monitoring support device 120 of the fifth embodiment is connected to the control board 110 via the connection terminal 121a and the terminal 110a for maintenance and inspection, and is connected to the operation panel 102a of the basket 102 via the wiring 200. It is connected.

For example, the control board 110 outputs a control signal to each part of the elevator 101 based on the signal output from the diagnostic terminal device, and as a result, the elevator 101 does not operate according to the control signal. In this case, it is determined that an abnormality has occurred in the elevator 101, and a signal (a signal for issuing a notification) for notifying the occurrence of the abnormality in the elevator 101 is output.

The control board 110 outputs a notification signal for notifying the occurrence of an abnormality to the remote monitoring support device 120 via, for example, the maintenance / inspection terminal 110a. A signal output from the control board 110 via the maintenance / inspection terminal 110a, such as a signal for issuing an alarm, is input from the relay board 201 to the remote monitoring support device 120.

The relay board 201 analyzes the signal that has received the input, and outputs the analysis result to the monitoring control board 202. The monitoring control board 202 generates notification information based on the analysis result output from the relay board 201, and transmits the generated notification information to the management server computer 130 via the communication I / F 204. Further, the monitoring control board 202 stores the analysis result output from the relay board 201 in the memory 203. The monitoring control board 202 may directly store the signal received by the relay board 201 in the memory 203.

The memory 203 can be realized by a non-volatile storage medium that retains the stored information even when the power supply is cut off. Specifically, the memory 203 can be realized by, for example, a flash memory, an EEPROM (Electrically Erasable Read-Only Memory), an EPROM (Erasable Programmable Read-Only Memory), or the like.

The various signals output from the control board 110 differ depending on the model of the elevator 101 and the like. At the time of analysis, the relay board 201 converts various signals output from the control board 110 into a format that can be processed by the monitoring control board 202. The remote monitoring support device 120 analyzes the signal received by the relay board 201 and converts it into a format that can be processed by the monitoring control board 202, so that the remote of the elevator 101 is remote regardless of the model of the elevator 101. It can be monitored.

Further, the remote monitoring support device 120 outputs various operation command signals to the control board 110 via the relay board 201 controlled by the monitoring control board 202 on the main control board 121. The remote monitoring support device 120 outputs an operation command signal when driving and controlling each part of the elevator 101 via the control board 110. The operation command signal is, for example, when the operation panel 102a of the basket 102 or the operation panel 105b of the landing 105 receives an input operation instructing the movement to a predetermined floor, the operation panel 102a of the basket 102 or the landing 105 It can be realized by a signal (call signal or the like) similar to the signal output from the operation panel 105b. Specifically, the operation command signal is, for example, moving the basket 102 of the elevator 101 to a predetermined floor, stopping the moved basket 102 on the corresponding floor, or stopping the basket 102 on the stopped floor. Includes signals to open and close the door 102c and the door 105a of the landing 105.

When the control board 110 receives the operation command signal output from the main control board 121, the control board 110 generates the above-mentioned various control signals based on the received operation command signal, and the generated various control signals are used as an elevator. It is output to each part provided in 101. The main control board 121 inputs various operation command signals output from the monitoring control board 202 via the relay board 201 to the control board 110 via, for example, the maintenance / inspection terminal 110a provided in the elevator 101.

The terminal 110a for maintenance and inspection is provided on the control board 110. Alternatively, the maintenance and inspection terminal 110a may be electrically connected to the input terminal of the control board 110 and may be separate from the control board 110. The maintenance / inspection terminal 110a is provided, for example, for connecting a terminal device (maintenance / diagnosis terminal) used for the maintenance / inspection work when the worker performs the maintenance / inspection work at the site where the elevator 101 is installed. There is. The terminal 110a for maintenance and inspection is not limited to the elevator 101 installed for the purpose of remote monitoring, and is generally provided by a wide variety of elevators 101 regardless of whether they are new or old.

Further, the remote monitoring support device 120 receives various instruction signals transmitted from the management server computer 130 via the communication I / F 204. The management server computer 130 outputs an instruction signal to the remote monitoring support device 120, for example, when the maintenance management company 150 accepts an input operation to the management server computer 130 by the operator.

Specifically, the management server computer 130 receives an instruction signal (transmission of notification information) instructing transmission of notification information regarding the result of the diagnostic operation executed in the elevator 101, for example, in response to the input operation received by the management server computer 130. Instructions) are sent. In this case, the management server computer 130 transmits an instruction to execute the diagnostic operation to the elevator 101 in addition to the instruction to transmit the notification information.

In the diagnostic operation, the control board 110 causes each part of the elevator 101 to output a signal for operating each part in a predetermined order, and a signal indicating whether or not each part operates normally according to the output signal. Is realized by outputting from the control board 110. The management server computer 130 may output the next diagnostic instruction periodically, that is, when a predetermined time has elapsed after outputting the diagnostic instruction (every predetermined period such as every month).

Specifically, the management server computer 130 instructs, for example, to transmit notification information regarding the history of operation operations stored in the control board 110 in response to an input operation received by the management server computer 130 or periodically. An instruction signal (instruction to transmit notification information) may be transmitted. The notification information regarding the history of the operation operation is, for example, information on the number of activations, the mileage of the basket 102, the travel time of the basket 102, the number of operations of various relays operated during the raising / lowering operation of the basket 102 and the opening / closing operation of the doors 105a and 102c. Can be realized by.

When the remote monitoring support device 120 receives various instruction signals transmitted from the management server computer 130, the remote monitoring support device 120 generates the above-mentioned operation command signal based on the received instruction signal, and the generated operation command signal is used as the control board 110. Output to. Further, the remote monitoring support device 120 outputs an operation command signal based on various instruction signals transmitted from the management server computer 130 to the control board 110, and as a result, the signal output from the control board 110 (for control). When a signal or the like is acquired, response information is generated based on the signal, and the generated response information is output to the management server computer 130.

The management server computer 130 generates report information based on the response information transmitted from the remote monitoring support device 120 in response to various instruction signals transmitted to the remote monitoring support device 120. The management server computer 130 generates report information based on the notification information received from the remote monitoring support device 120 as a result of transmitting the diagnosis instruction and the transmission instruction of the notification information, for example. In this case, the management server computer 130 generates report information including information on the mileage and the number of activations of the elevator 101, for example.

Further, the management server computer 130 has a function of issuing a report (not shown) based on the generated report information. The report is, for example, every time the elevator 101 performs a diagnostic operation, that is, every time it receives response information in response to an instruction signal (diagnosis instruction) instructing the remote monitoring support device 120 to execute the diagnostic operation. Can be issued to.

Specifically, the management server computer 130 generates print information for printing the report information on a recording medium such as paper based on the generated report information, and manages the generated print information. It is output to the terminal device 131 for operation connected to the server computer 130. When the operation terminal device 131 receives the print information, the operation terminal device 131 can issue a report by driving and controlling the printer connected to the operation terminal device 131.

(Functional configuration of remote monitoring system 100)
Next, the functional configuration of the remote monitoring system 100 according to the fifth embodiment of the present invention will be described. FIG. 19 is a block diagram showing a functional configuration of the remote monitoring support device 120 constituting the remote monitoring system 100 of the fifth embodiment according to the present invention.

(Functional configuration of remote monitoring support device 120)
In FIG. 19, each function of the remote monitoring support device 120 of the elevator 101 according to the embodiment of the present invention includes a receiving unit 301, a storage unit 302, a generation unit 303, an output unit 304, and an acquisition unit 305. It is realized by the determination unit 306 and the transmission unit 307. Each function of the reception unit 301, the storage unit 302, the generation unit 303, the output unit 304, the acquisition unit 305, the determination unit 306, and the transmission unit 307 included in the remote monitoring support device 120 of the elevator 101 according to the present invention This can be realized by each part of the remote monitoring support device 120.

The receiving unit 301 receives various instruction signals transmitted from the management server computer 130. The receiving unit 301 receives, for example, a transmission instruction of the notification information transmitted from the management server computer 130. When the receiving unit 301 receives the diagnostic instruction, the storage unit 302 stores information regarding the date and time when the diagnostic instruction is received. As a result, the operation of the elevator 101 can be periodically monitored without communicating with the management server computer 130.

The generation unit 303 generates an operation command signal for causing the elevator 101 to execute the above-mentioned diagnostic operation when the reception unit 301 receives the transmission instruction. The generation unit 303 generates an operation command signal converted into a format that can be analyzed by the control board 110 by the relay board 201. When the receiving unit 301 receives the transmission instruction, the generation unit 303 generates an operation command signal including an instruction to output a signal for operating each unit of the elevator 101 in a predetermined order.

Specifically, the generation unit 303 controls, for example, a motor that raises and lowers the basket 102 of the elevator 101, a brake that stops the basket 102 that is moving up and down, a motor that opens and closes the doors 105a and 102c of the landing 105 and the basket 102, and the like. An operation command signal to be driven and controlled by 110 is generated.

When the receiving unit 301 receives the transmission instruction, the output unit 304 outputs an operation command signal to the control board 110 to cause the elevator 101 to execute the above diagnostic operation. In this embodiment, the output unit 304 outputs the operation command signal generated by the generation unit 303 to the control board 110.

The output unit 304 outputs an operation command signal via, for example, a maintenance / inspection terminal 110a for connecting a maintenance / diagnosis terminal used for inspection work performed on-site by a worker. Since the operation command signal output by the output unit 304 is converted into a format that can be analyzed by the control board 110 by the relay board 201, it is the same as when the signal for performing the diagnosis operation is directly input from the maintenance diagnosis terminal. The control board 110 can perform a diagnostic operation.

The output unit 304 outputs an operation command signal for executing the next diagnostic operation not only when the receiving unit 301 receives the transmission instruction but also when a predetermined time has elapsed after outputting the operation command signal to the control board 110. , May be output via the terminal 110a for maintenance and inspection. Specifically, the output unit 304 executes the next diagnostic operation when one month has passed since the output of the diagnostic operation execution instruction based on the information regarding the date and time stored in the storage unit 302, for example. The operation command signal is output via the maintenance / inspection terminal 110a.

As a result, it is possible to periodically output an operation command signal for executing the diagnostic operation to the control board 110 without communicating with the management server computer 130. As a result, it is possible to periodically perform a diagnostic operation on the elevator 101 while reducing the burden on communication.

The acquisition unit 305 acquires a signal output from the control board 110 to the outside of the control board 110. The acquisition unit 305 acquires, for example, a control signal output from the control board 110 to each unit included in the elevator 101 in response to an operation command signal output by the output unit 304 to execute the diagnostic operation.

Further, the acquisition unit 305 acquires, for example, a signal input / output to / from the operation panel 102a of the basket 102. Specifically, the acquisition unit 305 may receive a signal input from the control board 110 to the operation panel 102a of the basket 102 or a control board from the operation panel 102a of the basket 102, for example, via the board 1701 and the wiring 200. The signal output to 110 is acquired.

More specifically, the acquisition unit 305 acquires a signal output from the operation panel 102a of the basket 102 to the control board 110 when, for example, a predetermined input operation is received by the operation panel 102a of the basket 102. .. Further, the acquisition unit 305 may acquire, for example, a control signal output from the control board 110 to the operation panel 102a of the basket 102 in response to the signal output from the operation panel 102a of the basket 102. ..

As described above, the acquisition unit 305 has a signal (downstream signal) output from the control board 110 to the operation panel 102a of the basket 102 and a signal output from the operation panel 102a of the basket 102 to the control board 110. (Uplink signal) and bidirectional signal are acquired. The position where the acquisition unit 305 acquires the uplink signal and the position where the acquisition unit 305 acquires the downlink signal may be at the same position or at different positions.

Further, the acquisition unit 305 controls, for example, when the operation mode of the elevator 101 is switched from the normal operation mode to the operation mode for the occurrence of an earthquake due to the detection that an earthquake of a predetermined seismic intensity or higher has occurred. The alarming signal output from the board 110 to the operation panel 102a of the basket 102 may be acquired. Further, for example, when the acquisition unit 305 outputs a control signal to the motor that raises and lowers the basket 102 of the elevator 101, but the floor signal indicating the position of the basket 102 does not switch, the elevator 101. In order to notify the occurrence of the failure to the outside, the alarm signal output from the control board 110 to the operation panel 102a of the basket 102 may be acquired. These alarm signals can be acquired, for example, via the maintenance / inspection terminal 110a.

The generation unit 303 generates notification information including information on the state of the elevator 101 based on the signal acquired by the acquisition unit 305. For example, the generation unit 303 generates notification information indicating the floor on which the basket 102 of the elevator 101 is currently located, based on the signal output from the operation panel 102a of the basket 102. Further, the generation unit 303 may generate notification information indicating that the elevator 101 is operating normally, for example, based on the control signal output from the control board 110. Further, the generation unit 303 generates notification information indicating that the current operation mode of the elevator 101 has been switched or that a failure has occurred in the elevator 101, for example, based on the alarm signal output from the control board 110. You may.

The generation unit 303 generates notification information each time the acquisition unit 305 acquires a signal. Alternatively, the generation unit 303 may generate notification information, for example, when the acquisition unit 305 acquires a specific signal. Specifically, the generation unit 303 may generate notification information when, for example, the acquisition unit 305 acquires a notification signal indicating that the current operation mode of the elevator 101 has been switched. ..

The transmission unit 307 transmits the notification information generated by the generation unit 303 to the management server computer 130. The transmission unit 307 transmits the notification information to the management server computer 130 each time the generation unit 303 generates the notification information. Alternatively, the transmission unit 307 may, for example, transmit the notification information to the management server computer 130 when the generation unit 303 generates specific notification information. Specifically, for example, when the generation unit 303 generates notification information based on an alarm signal indicating that the current operation mode of the elevator 101 has been switched, the transmission unit 307 manages the notification information on the management server computer. It may be transmitted to 130.

Further, the remote monitoring support device 120 according to the fifth embodiment of the present invention further determines whether or not the operating state of the elevator 101 is the normal operating state based on the signal acquired by the acquisition unit 305 by the determination unit 306. However, when it is not in the normal operating state, notification information including information on the state of the elevator 101 may be generated and transmitted to the management server computer 130. As a result, the operator can quickly grasp that the operating state of the elevator 101 is not the normal operating state, and arranges an inspection worker as necessary to maintain the elevator 101 in a good state. It can be done quickly. As a result, the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can use the elevator 101 with peace of mind.

(Processing procedure of remote monitoring support device 120)
Next, the processing procedure of the remote monitoring support device 120 according to the fifth embodiment of the present invention will be described. 20 and 21 are flowcharts showing a processing procedure of the remote monitoring support device 120 according to the fifth embodiment of the present invention. In the flowchart of FIG. 20, first, the user waits until the signal input / output to / from the operation panel 102a of the basket 102 is acquired. In step S2001, for example, the elevator 101 waits until a call signal is acquired by accepting an input operation for an operation button by a user or the like. In step S2001, the user waits until the signal input from the control board 110 to the operation panel 102a of the basket 102 is acquired, or the signal output from the operation panel 102a of the basket 102 to the control board 110 is acquired. do.

In step S2001, when the signal input / output to the operation panel 102a of the basket 102 is acquired (step S20011: Yes), a predetermined time has been obtained since the last signal output from the operation panel 102a of the cage 102 was acquired. It is determined whether or not it has passed (step S2002). In step S2002, for example, it is determined whether or not a time has elapsed that allows it to be determined that the basket 102 has stopped for a predetermined time or longer because the call input operation has not been accepted. Specifically, for example, the time required for opening and closing the doors 105a and 102c can be set as a predetermined time.

In step S2002, if a predetermined time has not elapsed since the signal output from the operation panel 102a of the basket 102 was last acquired (step S2002: No), the process returns to step S2001 and is output from the operation panel 102a of the basket 102. It is determined whether or not the signal is acquired. On the other hand, in step S2002, when a predetermined time has elapsed since the last acquisition of the signal output from the operation panel 102a of the basket 102 (step S2002: Yes), acquisition by the time when the predetermined time elapses in step S2002: Yes. Notification information is generated based on the signal output from the operation panel 102a of the basket 102 (step S2003). Thereby, for example, the notification information can be generated when there is no call input operation for a predetermined time or longer and the basket 102 is stopped for a predetermined time or longer.

After that, the notification information generated in step S2003 is transmitted to the management server computer 130 (step S2004), and a series of processes is completed. In step S2004, the notification information generated in step S2003 is transmitted from the communication I / F 204 to the management server computer 130 via a network 160 such as the Internet.

On the other hand, in step S2001, when the signal output from the operation panel 102a of the basket 102 has not been acquired (step S20011: No), the alarm signal output via the maintenance / inspection terminal 110a has been acquired. Whether or not it is determined (step S2005). In step S2005, if the alarm signal output via the maintenance / inspection terminal 110a has not been acquired (step S2005: No), the process returns to step S2001. In step S2005, when the alarm signal output via the maintenance / inspection terminal 110a is acquired (step S2005: Yes), the process proceeds to step S2003.

In the flowchart of FIG. 21, first, it is determined whether or not the transmission instruction of the notification information transmitted from the management server computer 130 has been received (step S2101). In step S2101, when the transmission instruction of the notification information transmitted from the management server computer 130 is received (step S2101: Yes), an operation command signal for executing the diagnostic operation in the elevator 101 is generated based on the received transmission instruction. (Step S2102).

Then, the operation command signal generated in step S2102 is output to the control board 110 (step S2103), and the process proceeds to step S2104. In step S2103, for example, the operation command signal generated in step S2102 is output via the connection terminal provided on the control board 110 for connecting the maintenance diagnosis terminal.

Then, it waits until the signal output from the operation panel 102a of the basket 102, which operates according to the control signal output from the control board 110 in response to the operation command signal output in step S2103, is acquired (step S2104: No). In step S2104, it waits until it acquires a control signal (a signal input / output to / from the operation panel 102a of the basket 102) output from the control board 110 in response to the operation command signal output in step S2103. May be good.

In step S2104, the signal output from the operation panel 102a of the basket 102 according to the operation command signal output in step S2103 (or the control output from the control board 110 in response to the operation command signal output in step S2103). When a signal, that is, a signal input / output to / from the operation panel 102a of the basket 102 is acquired (step S2104: Yes), notification information is generated based on the acquired control signal (step S2105). In step S2105, for example, the control board 110 includes each part of the elevator 101 based on the control signal output from the control board 110 to each part of the elevator 101 in response to the operation command signal output in step S2103. Generates notification information notifying whether or not the operation command signal is controlled as instructed.

Then, the notification information generated in step S2105 is transmitted to the management server computer 130 (step S2106), and a series of processes is completed. In step S2106, the notification information generated in step S2105 is transmitted from the communication I / F 204 to the management server computer 130 via a network 160 such as the Internet.

On the other hand, in step S2101, when the transmission instruction of the notification information transmitted from the management server computer 130 is not received (step S2101: No), the operation of causing the control board 110 to execute the diagnostic operation in the elevator 101 last time. It is determined whether or not a predetermined time has elapsed since the command signal was output (step S2107). In step S2107, if a predetermined time has not elapsed since the operation command signal for executing the diagnostic operation was output in the elevator 101 last time (step S2107: No), the process returns to step S2101 and is transmitted from the management server computer 130. Determine whether or not the notification information transmission instruction has been received.

In step S2107, when a predetermined time has elapsed since the operation command signal for executing the diagnosis operation in the elevator 101 was output last time (step S2107: Yes), the process proceeds to step S2102 and the operation for executing the diagnosis operation in the elevator 101 is performed. Generate a command signal. In this case, in step S2102, for example, an operation command signal for executing a diagnostic operation in the elevator 101 is generated based on the information stored in advance in the remote monitoring support device 120.

As described above, the remote monitoring support device 120 of the fifth embodiment is a remote monitoring support device 120 that communicates with the control board 110 that controls the operation of the elevator 101 and the management server computer 130, respectively. , A signal output from the control board 110 to the operation panel 102a (operation panel 102a of the cage 102) provided in the basket 102 of the elevator 101, and the operation panel of the basket 102 with the operation of the elevator 101 in response to the signal. The signal output from 102a to the control board 110 is acquired, notification information regarding the state of the elevator 101 is generated based on the acquired signal, and the generated notification information is transmitted to the management server computer 130. It is a feature.

According to the remote monitoring support device 120 of the fifth embodiment, the signal output from the control board 110 to the operation panel 102a of the basket 102 and the operation of the elevator 101 in response to the control signal are accompanied by the operation of the basket 102. By transmitting the notification information based on the signal output from the operation panel 102a to the control board 110 to the management server computer 130, the control board 110 is not limited to the control board 110 having a communication function with an external device installed in a remote place. Even an elevator 101 equipped with a control board 110 that does not have the communication function can perform remote monitoring. As a result, the elevator 101 can be remotely monitored regardless of the presence or absence of the communication function of the elevator 101 itself, so that the reliability of the elevator 101 is improved, the safety of the user is ensured, and the user is safe. You can use the elevator 101 with your heart in mind.

Further, according to the remote monitoring support device 120 of the fifth embodiment, the signal output from the operation panel 102a of the basket 102 is output from the operation panel 102a of the basket 102 that actually operates without going through the control board 110. The signal can be directly transmitted to the remote monitoring support device 120. This makes it possible to improve the reliability of the notification information transmitted to the management server computer as compared with the case where a control board or other relay device is provided. Further, as a result, the reliability of the elevator 101 can be further improved, the safety of the user can be further ensured, and the user can use the elevator 101 with peace of mind.

Further, when the information regarding the state of the elevator 101 is acquired via the control board 110 by directly transmitting from the operation panel 102a (signal line 111) of the basket 102 to the remote monitoring support device 120 without going through the control board 110. It is possible to reduce the processing load on the control board 110 as compared with the above.

Further, the remote monitoring support device 120 of the fifth embodiment operates the elevator 101 with respect to the control board 110 when it receives a diagnostic instruction instructing transmission of notification information transmitted from the management server computer 130. The operation panel 102a of the basket 102 among the control signals output from the control board 110 to each part of the elevator 101 in response to the output instruction for executing the diagnostic operation for diagnosing the state. It is characterized in that the signal output to the control board 110 and the signal output from the operation panel 102a of the basket 102 to the control board 110 according to the control signal are acquired.

According to the remote monitoring support device 120 of the fifth embodiment, the control board 110 outputs to each part of the elevator 101 during the diagnosis operation executed by the control board 110 in response to the instruction from the management server computer 130. Among the control signals, the signal output to the operation panel 102a of the cage 102 and the notification information based on the signal output from the operation panel 102a of the cage 102 to the control board 110 according to the control signal are managed. Remote monitoring of the elevator 101 can be performed by transmitting to the server computer 130.

As a result, the elevator 101 can be remotely monitored at an arbitrary timing set on the management server computer 130 side, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can be monitored. You can use the elevator 101 with confidence.

Further, the remote monitoring support device 120 of the fifth embodiment is output from the control board 110 to each part of the elevator 101 during the diagnostic operation executed by the control board 110 in response to the instruction from the management server computer 130. By transmitting the notification information based on the control signal to the management server computer 130, the elevator 101 can be remotely monitored. As a result, the elevator 101 can be remotely monitored at an arbitrary timing set on the management server computer 130 side, so that the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can be monitored. You can use the elevator 101 with confidence.

Further, the remote monitoring support device 120 of the fifth embodiment is connected to the control board 110 via a maintenance / inspection terminal 110a to which a portable terminal device for outputting a diagnostic operation execution instruction to the control board 110 can be connected. On the other hand, it is characterized by outputting an execution instruction of a diagnostic operation.

According to the remote monitoring support device 120 of the fifth embodiment, the terminal device for diagnosis used for the diagnosis of the elevator 101, which is conventionally used at the site where the elevator 101 is installed, can be connected for maintenance and inspection. By outputting the execution instruction of the diagnostic operation via the terminal 110a, the control board 110 can easily execute the diagnostic operation without newly providing a mechanism for inputting the execution instruction of the diagnostic operation to the control board 110. be able to. As a result, the reliability of the elevator 101 can be improved, the safety of the user can be ensured, and the user can use the elevator 101 with peace of mind.

Further, the remote monitoring support device 120 of the fifth embodiment is characterized in that when a predetermined time has elapsed after outputting the execution instruction of the diagnostic operation, the execution instruction of the next diagnostic operation is output.

According to the remote monitoring support device 120 of the fifth embodiment, the state of the elevator 101 can be grasped at predetermined time intervals regardless of whether or not the management server computer 130 transmits a diagnostic instruction. As a result, it is possible to improve the reliability of the elevator 101 while reducing the processing load on the management server computer 130 for remote monitoring of the elevator 101.

As described above, the remote monitoring support device according to the present invention is useful for the remote monitoring support device for performing remote monitoring of the elevator, and is particularly suitable for the remote monitoring support device for performing remote monitoring of the elevator after installation.

110 Control board (control device)
120 Remote monitoring support device 130 Management server computer 140 Telephone 301 Receiver 302 Storage 303 Generator 304 Output 305 Acquisition 306 Judgment 307 Transmitter

Claims (2)

Connected via a network to a management server computer installed in a remote location away from the location where the elevator is installed,
Acquire the signal output according to the operating state of the elevator, and
Among the acquired signals, it is determined whether or not the operating state of the elevator is the normal operating state based on the signal related to the information regarding whether or not the basket has stopped on the floor to which the basket is moved.
When it is determined that the operating state is not the normal operating state, notification information including a signal determined to be not the normal operating state and information regarding the date and time when the signal was acquired is generated.
Send the generated notification information to the management server computer.
A remote monitoring support device characterized by this. Judgment as to whether or not the operating state of the elevator is a normal state is
Of the acquired signals, the information is based on the information on whether or not the basket has stopped on the floor to which the basket is moved, and the information on whether or not the motor that opens and closes the door on the floor is operating. The remote monitoring support device according to claim 1.

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