JP6010007B2 - Remote monitoring support device and remote monitoring system - Google Patents

Description

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

  The elevator installed in the building is driven and controlled by a control signal output from a control board provided in the elevator. This control board is installed in the machine room provided in the upper part of the hoistway of the cage with which an elevator is provided, for example. Conventionally, facilities that have been temperature controlled such as measuring the temperature in the machine room and ventilating the measured temperature so that the control board does not malfunction due to the temperature of the machine room of the elevator becoming high there were. Specifically, for example, there has been a technique in which the temperature management around the machine room is performed using the air conditioning management function in the building.

  Conventionally, there has been a remote monitoring system for an elevator that monitors the state of the elevator at a remote location of the elevator by communicating with a management server computer installed at the remote location of the elevator. Specifically, as related technology, conventionally, switching from the normal mode to the maintenance mode prevents reporting from the building to the monitoring center, and the maintenance work data performed by the operator while switching to the maintenance mode. Is stored in the maintenance work data storage unit, the maintenance work data stored in the maintenance work data storage unit when the mode is switched to the normal mode is fetched, and whether or not the maintenance work is appropriate based on the fetched maintenance work data There has been a technique for judging (see, for example, Patent Document 1 below).

JP 2011-102180 A

  However, the above-mentioned conventional technology diverts the air conditioning management function in the building to manage the temperature around the machine room, so it cannot accurately grasp the ambient temperature around the control board, and appropriate temperature management is not possible. There was a problem that it was difficult. Such conventional technology cannot be implemented especially in facilities that do not perform air conditioning management of the entire facility, such as small-scale facilities such as condominiums with relatively few occupants. There was a problem that difficult temperature control was difficult.

  As a countermeasure, when each machine room is provided with a thermometer, a temperature sensor, etc., and temperature management is performed for each elevator, there is a problem that the labor for temperature management is remarkably increased, which is troublesome.

  In this way, in order to eliminate the hassle of performing temperature management for each elevator, remote monitoring including temperature management is performed by newly installing a thermometer, temperature sensor, etc. in an elevator that has already been remotely monitored. In this case, a function for temperature management must be newly added to the already installed control board.

  Specifically, a temperature sensor or the like that measures the temperature of the machine room or the control board is provided, the wiring is reconstructed so that the output of the temperature sensor is input to the control board, and the output of the temperature sensor is analyzed. A function to output the analysis results must be added. For this reason, it is difficult to realize the function of temperature management, and there is a problem that the economic burden on the owner of the building is large.

  In order to solve the above-described problems caused by the prior art, the present invention can easily and surely prevent the malfunction of the control board due to the increase in the ambient temperature and improve the reliability of the elevator and the remote monitoring support device. The purpose is to provide a monitoring system.

  In addition, in order to eliminate the above-described problems caused by the prior art, the present invention can easily and reliably prevent the malfunction of the control board due to the temperature rise of the control board in a remote location of the elevator and improve the reliability of the elevator. An object of the present invention is to provide a remote monitoring support device and a remote monitoring system.

  In order to solve the above-described problems and achieve the object, a remote monitoring support device according to the present invention is provided in the vicinity of a control board that controls the operation of the elevator, and temperature detecting means that detects the ambient temperature of the control board, When the determination means determines whether the ambient temperature of the control board detected by the temperature detection means exceeds a predetermined threshold, and the determination means determines that the ambient temperature of the control board exceeds the threshold, And a transmission means for transmitting temperature notification information for notifying that the ambient temperature of the control board exceeds the threshold to the management server computer.

  The remote monitoring support apparatus according to the present invention, in the above invention, includes a counting unit that counts the number of times of determination each time the determination unit determines that the ambient temperature of the control board exceeds the threshold value, A counting means for measuring the number of times within a predetermined period based on the date and time counted by the timing means and the number of times counted by the counting means. The temperature notification information is transmitted to the management server computer when the temperature exceeds.

  The remote monitoring system according to the present invention is a remote monitoring system comprising a remote monitoring support device and a management server computer that communicates with the remote monitoring support device. Temperature detection means provided in the vicinity of the control board for controlling the operation and detecting the ambient temperature of the control board, and determining whether the ambient temperature of the control board detected by the temperature detection means exceeds a predetermined threshold value When the determination means and the determination means determine that the ambient temperature of the control board exceeds the threshold value, temperature notification information for notifying that the ambient temperature of the control board exceeds the threshold value is transmitted to the management server computer. Transmitting means, wherein the management server computer receives temperature notification information transmitted from the remote monitoring support device; Based on the serial temperature notification information received by the receiving means, characterized in that and an output means for outputting the instruction information about the maintenance the elevator.

  In the remote monitoring system according to the present invention, in the above invention, the remote monitoring support apparatus counts the number of times of determination each time the determination unit determines that the ambient temperature of the control board exceeds the threshold value. And counting means within a predetermined period based on the date and time counted by the timing means and the number of times counted by the counting means. The temperature notification information is transmitted to the management server computer when the determined number of times of determination is exceeded.

  In the remote monitoring system according to the present invention, in the above invention, the management server computer counts the number of times the temperature notification information is received each time the reception means receives the temperature notification information. Whether or not the number of times within a predetermined period exceeds a predetermined number of times for judgment based on the time measuring means for measuring the date and time, the date and time counted by the time measuring means and the number of times counted by the counting means. A number of times determining means, and when the output means determines that the number of times counted by the counting means within the predetermined period exceeds a predetermined number of times for determination. The instruction information is output.

  According to the remote monitoring support device and the remote monitoring system of the present invention, it is possible to easily and surely prevent malfunction of the control board due to an increase in ambient temperature and improve the reliability of the elevator.

It is explanatory drawing which shows the system configuration | structure of the remote monitoring system of embodiment concerning this invention. It is explanatory drawing which shows the hardware constitutions of the remote monitoring assistance apparatus which comprises the remote monitoring system of embodiment concerning this invention. It is a block diagram which shows the functional structure of the remote monitoring assistance apparatus and management server computer which comprise the remote monitoring system of embodiment concerning this invention. It is a flowchart which shows the process sequence of the remote monitoring assistance apparatus which comprises the remote monitoring system of embodiment concerning this invention. It is a flowchart which shows the process sequence of the management server computer which comprises the remote monitoring system of embodiment concerning this invention.

  Exemplary embodiments of a remote monitoring support device and a remote monitoring system according to the present invention will be explained below in detail with reference to the accompanying drawings.

(Embodiment)
(System configuration of remote monitoring system)
First, a system configuration of an elevator remote monitoring system according to an embodiment of the present invention will be described. FIG. 1 is an explanatory diagram showing a system configuration of a remote monitoring system according to an embodiment of the present invention. 1, a remote monitoring system 100 according to an embodiment of the present invention includes a control board (control device) 110, a remote monitoring support device 120, a management server computer 130, and a telephone 140.

  The control board 110 controls the operation operation of the elevator 101. The elevator 101 is installed in a multi-storey building or the like, and includes a basket (car) 102 on which people and articles are mounted. One basket 102 is provided for each elevator 101. The basket 102 is provided in a hoistway (not shown) penetrating 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 according to the embodiment of the present invention is not limited to a rope type elevator. In the remote monitoring system according to the embodiment of the present invention, for example, a hydraulic elevator 101 may be monitored 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 operation buttons including a destination floor button and a door opening / closing button, a display device, and the like. An operation panel 102 a provided in the basket 102 is connected to the control board 110. The basket 102 is provided with an interphone terminal device 102b. The interphone terminal device 102b includes a call button, a microphone, and a speaker (all not shown). The interphone terminal device 102 b is connected to the remote monitoring support device 120.

  A drive mechanism 104 is provided in the hoistway. The drive mechanism 104 can be provided in the upper part in a hoistway, for example. The drive mechanism 104 includes a hoisting machine, 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 (all are not shown). Since the drive mechanism 104 can be easily realized by using a known technique, the description thereof is omitted. The drive mechanism 104 is not restricted to what is provided in the upper part in a hoistway. For example, in the case of the hydraulic elevator 101, the drive mechanism 104 may be provided at the bottom (pit) in the hoistway.

  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 cage 102 and the counterweight 104b connected to both ends is hooked on the pulley and the hoisting machine, and between the rope 104a and the pulley. The cage 102 is moved up and down using the frictional force (traction). The hoistway is provided with a guide rail (not shown) for guiding the raising / lowering position of the basket 102.

  Doors 105a and 102c are provided at positions (depots) 105 and the cage 102 corresponding to the floors in the hoistway, respectively. The car 102 is provided with a motor (not shown) that opens and closes the door 102 c provided on the car 102 and the door 105 a provided on the landing 105. The motor is connected to the control board 110.

  A door 105a provided at the landing 105 is locked by a device called an interlock or the like. When the motor is driven in a state where the elevator 101 has arrived at the stop floor, the drive mechanism portion of the door 102c provided in the cage 102 and the interlock are engaged, and the locking by the interlock is released, and the door 102c provided in the cage 102 is released. And the door 105a provided in the landing 105 opens and closes in conjunction.

  Each platform 105 is provided with an operation panel 105b provided with a platform call button (not shown) and a display. The operation panel 105b provided in each platform 105 is connected to the control board 110, respectively. Each time the operation panels 102 a and 105 b provided in the car 102 and the landing 105 receive an input operation by a user of the elevator 101, the operation panels 102 a and 105 b output a signal corresponding to the content of the input operation to the control board 110.

  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 and the management server computer 130. The main control board 121 is connected to the control board 110 via, for example, a maintenance / inspection terminal (not shown) provided in the control board 110.

  The main control board 121 is connected to the management server computer 130 via a network 160 such as the Internet. By using the Internet, it is possible to prevent delays in grasping the situation of the elevator 101 due to the puncture of the telephone line in an emergency, and it is possible to take a quick response.

  The voice communication board 122 is connected to the interphone terminal device 102 b and the public voice network 170. Specifically, the voice communication board 122 can be realized by a PHS (Personal Handy-phone System) board, for example. 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 that accommodates telephone lines, a relay exchange that bundles the subscriber line exchanges, and a gateway exchange that is connected to the telephone network of another operator. Yes. Since the public voice network 170 is a known technique, the description thereof is omitted.

  The main control board 121 may perform communication using a 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 and also for data communication. Since the installation location of the elevator 101 is fixed, by performing communication using the PHS, it is possible to secure the communication quality and suppress the cost for communication.

  The management server computer 130 and the telephone 140 are installed in a remote place of the elevator 101 that is different from the place where the elevator 101 is installed. The management server computer 130 can be realized by a computer device such as a personal computer, for example. The management server computer 130 can be installed, for example, in a maintenance management company 150 that manages maintenance of the elevator 101.

  An operation terminal device 131 may be connected to the management server computer 130. The management server computer 130 and the operation terminal device 131 may be installed in the same place or in different places. One or more terminal devices 131 may be used for operation. The operation terminal device 131 can be realized by, for example, a computer device such as an input device such as a keyboard or a mouse, or a personal computer equipped with a display. In addition, a printer (not shown) may be connected to the operation terminal device 131.

  In addition to the management server computer 130, the maintenance management company 150 is provided with a PBX (Private Branch exchange, see reference numeral 205 in FIG. 2) and a telephone 140. The telephone 140 is connected to the public voice network 170 via PBX. In the remote monitoring system, 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, a hardware configuration of the remote monitoring support device 120 constituting the remote monitoring system 100 according to the embodiment of the present invention will be described. FIG. 2 is an explanatory diagram showing a hardware configuration of the remote monitoring support device 120 constituting the remote monitoring system 100 according to the embodiment of the present invention.

  In FIG. 2, the control board 110 controls the operation of the elevator 101 by driving and controlling each part constituting the elevator 101. The control board 110 controls driving of the drive mechanism 104, for example. Each time the operation panels 102a and 105b connected to the control board 110, such as the operation panel 102a provided in the basket 102 and the operation panel 105b provided in the landing 105, receive an input operation by a user of the elevator 101 or the like, A signal corresponding to the content of the input operation is output to the control board 110. The control board 110 drives and controls the elevator 101 based on signals output from the operation panels 102a and 105b.

  Specifically, the control board 110 includes, for example, each unit included in the elevator 101 such as the drive mechanism 104 and the motor described above based on signals output from the operation panels 102a and 105b provided in the basket 102 and the landing 105. Is controlled. More specifically, for example, when a call signal is output from the operation panel 105b provided at the landing 105, the control board 110 is directed to the landing 105 provided with the operation panel serving as an output source of the call signal. Thus, the driving mechanism 104 is driven and controlled by outputting a driving signal to the driving mechanism 104 so that the car 102 is moved up and down and stopped at the corresponding landing 105.

  Specifically, for example, when a signal designating a predetermined floor is output from the operation panel 102 a provided in the basket 102, the control board 110 faces the predetermined floor to the basket 102. The driving mechanism 104 is driven and controlled by outputting a driving signal to the driving mechanism 104 so that the car 102 is stopped at the corresponding landing 105.

  Further, the control board 110 is driven with respect to a motor provided in the car 102 so as to open and close a door 102c provided in the car 102 stopped at the corresponding landing 105 and a door 105a provided in the landing 105, for example. The motor is driven and controlled by outputting a signal.

  In addition, the control board 110 transmits a floor signal to each of the control panels 102a and 105b in order to display the position of the basket 102 on the operation panel 102a provided on the basket 102 or the operation panel 105b provided on the landing 105, for example. Output. For example, the control board 110 outputs a floor signal every time the position of the car 102 is switched. Alternatively, the control board 110 may output a floor signal periodically regardless of the position of the car 102, for example.

  The control board 110 is an activation board provided on the control board 110 when the car 102 is moved up and down in response to a call signal from an operation panel 102a provided on the car 102 or an operation panel 105b provided on the platform 105. Energize the relay. In the elevator 101, the car 102 can be moved up and down when the activation relay is energized (when a signal for energizing the activation relay is output). When energized, the activation relay outputs a signal indicating that the energization has been performed.

  The control board 110 energizes the activation relay each time the cage 102 is moved once. Specifically, for example, when the car 102 moves from the first floor to the second floor, the energization relay is energized once, and the car 102 moves from the first floor to the second floor to the third floor. When doing so, the energizing relay is energized once.

  When the control board 110 detects an abnormality, the control board 110 outputs (reports) a signal notifying the abnormality. Specifically, for example, when the control board 110 detects that the corresponding door does not operate despite the output of an instruction signal for executing the opening / closing operation of the doors 105a and 102c, an abnormality is detected in the elevator 101. Report what happened.

  The control board 110 may store an operation history of each unit driven during the raising / lowering operation of the cage 102 and the opening / closing operation of the doors 105a and 102c. Specifically, the control board 110 may store, for example, the number of operations of various relays that are operated when the cage 102 is moved up and down and the doors 105a and 102c are opened and closed.

  When the call button is operated, the interphone terminal device 102 b outputs a call signal indicating that the operation has been performed to the remote monitoring support device 120. In addition, the interphone terminal device 102 b outputs the audio signal input to the microphone to the remote monitoring support device 120 in a state where the connection between the remote monitoring support device 120 and the telephone 140 installed in the maintenance management company 150 is established. To do. The interphone terminal device 102b outputs the audio signal output from the remote monitoring support device 120 through the speaker in a state where the connection between the remote monitoring support device 120 and the telephone 140 is established.

  The main control board 121 included in the remote monitoring support device 120 includes a relay board 201, a monitoring control board 202, a memory 203, a communication I / F (interface) 204, and a temperature sensor 206. The relay board 201 receives an input of a signal output from the control board 110, analyzes the received signal, and outputs an analysis result to the monitoring control board 202. For example, the relay board 201 receives an input of a maintenance / inspection signal via a maintenance / inspection terminal, and analyzes the maintenance / inspection signal. The relay board 201 may be directly connected to various relay contacts on a connector board (not shown) that connects each part of the elevator 101 and the control board 110.

  Further, the relay board 201 is not limited to the one connected to the control board 110 via a maintenance / inspection terminal (maintenance port). The relay board 201 is connected to, for example, a connector portion of an I / O board that connects the operation panel 105b and the control board 110 provided at each landing 105 instead of a maintenance / inspection terminal (maintenance port). Also good. In this case, for example, a connector for branching a signal path into a plurality of signals is provided in the connector portion of the I / O board, thereby ensuring the connection between the operation panel 105b provided in each platform 105 and the control board 110. The floor signal can be acquired using a signal used for communication between the operation panel 105b and the control board 110.

  The monitoring control board 202 transmits the analysis result output from the relay board 201 to the management server computer 130 via the communication I / F 204. 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 holds stored information even when power supply is cut off. Specifically, the memory 203 can be realized by, for example, a flash memory 203, an EEPROM (Electrically Erasable Programmable Read-Only Memory), an EPROM (Erasable Programmable Read Only Memory), and the like.

  The temperature sensor 206 is provided in the vicinity of the control board 110. For example, the temperature sensor 206 can be provided on the same substrate as the relay substrate 201 and the monitoring control substrate 202. Alternatively, the temperature sensor 206 may be provided separately from the relay board 201 and the monitoring control board 202 and may be connected to the relay board 201 or the monitoring control board 202 via wiring.

  Specifically, the temperature sensor 206 can be realized by, for example, a semiconductor called an thermistor and the like whose electric resistance value changes with a change in temperature. A temperature sensor 206 realized by a thermistor converts a change in electrical resistance value into an electrical signal and outputs the electrical signal to the monitoring control board 202.

  For example, when the ambient temperature of the control board 110 indicated by the electrical signal output from the temperature sensor 206 exceeds a predetermined threshold value stored in the memory 203 in advance, the monitoring control board 202 determines that the ambient temperature of the control board 110 is the threshold value. Is sent to the management server computer 130 via the communication I / F 204.

  The monitoring control board 202 receives various instruction signals transmitted from the management server computer 130 via the communication I / F 204. When the monitoring control board 202 receives various instruction signals transmitted from the management server computer 130, the monitoring control board 202 instructs the execution of various operations in accordance with the instruction signals (hereinafter referred to as “execution instructions” as appropriate). And an instruction signal (execution instruction) for instructing execution of the generated various operations is output to the control board 110 via the relay board 201.

  For example, when the monitoring control board 202 receives an instruction signal (hereinafter referred to as “diagnostic instruction” as appropriate) for instructing execution of a diagnostic operation transmitted from the management server computer 130, the monitoring control board 202 executes the diagnostic operation according to the diagnostic instruction. An instruction signal to be instructed (execution instruction) is generated, and the generated execution instruction is output to the control board 110 via the relay board 201. The instruction signal (execution instruction) instructing execution of the diagnostic operation includes, for example, a call signal for moving the elevator 101 to a predetermined floor.

  When the voice communication board 122 receives the call signal output from the interphone terminal device 102b, the voice communication board 122 issues a call to the telephone number assigned to the telephone 140 installed in the maintenance management company 150 via the public voice network 170. Do it. The voice communication board 122 is installed in the maintenance management company 150 via the public voice network 170 with the voice signal output from the microphone in a state where the connection with the telephone 140 installed in the maintenance management company 150 is established. Output to the telephone 140. The voice communication board 122 receives a voice signal output from the telephone 140 in a state where the connection with the telephone 140 is established via the public voice network 170, and receives the received voice signal from the interphone terminal device 102b. Output to the speaker.

  The management server computer 130 outputs instruction signals for instructing the remote monitoring support device 120 to execute various operations in response to an operation received by an input operation on the operation terminal device 131 by a maintenance worker or the like. For example, the management server computer 130 outputs an instruction signal (diagnosis instruction) instructing execution of a diagnostic operation.

  The management server computer 130 transmits an instruction signal (diagnosis instruction) instructing execution of a diagnostic operation to the remote monitoring support device 120 at predetermined intervals such as every month. The remote monitoring support device 120 that has received the instruction signal (diagnosis instruction) instructing execution of the diagnostic operation sends a predetermined signal to the control board 110 based on the received instruction signal (diagnosis instruction) instructing execution of the diagnostic operation. A signal is output as appropriate, and a signal output from the control board 110 is received according to the output signal. Then, response information is generated based on the signal received from the control board 110, and the generated response information is output to the management server computer 130.

  The management server computer 130 generates report information based on response information transmitted from the remote monitoring support apparatus 120 in response to various instruction signals transmitted to the remote monitoring support apparatus 120. The management server computer 130 generates report information based on the response information received from the remote monitoring support device 120 as a result of, for example, transmitting an instruction signal (diagnosis instruction) instructing execution of a diagnostic operation. In this case, the management server computer 130 generates report information including information on the travel distance 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 can be performed, for example, every time a diagnostic operation is performed, that is, every time an instruction signal (diagnosis instruction) for instructing the remote monitoring support device 120 to execute the diagnostic operation is transmitted.

  Specifically, the management server computer 130 generates, for example, 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. The data is output to the operation terminal device 131 connected to the server computer 130. In this case, when receiving the print information, the operation terminal device 131 issues a report by controlling the drive of the printer connected to the operation terminal device 131.

  The report includes, for example, operating states of brakes (braking devices), operating states of various switches, operating states of operation buttons including destination floor buttons and door opening / closing buttons, door opening / closing states, etc. Guidance on the quality of the operating state. The report also provides information such as the travel distance of the car 102 and the accumulated operation time of the elevator 101, for example. The report may guide the quality of the operation state of each part included in the elevator 101 by characters or symbols, or may guide by using a graphic such as a graph.

(Functional configuration of remote monitoring system 100)
Next, a functional configuration of the remote monitoring system 100 according to the embodiment of the present invention will be described. FIG. 3 is a block diagram showing a functional configuration of the remote monitoring support device 120 and the management server computer 130 constituting the remote monitoring system 100 according to the embodiment of the present invention.

(Functional configuration of remote monitoring support device 120)
3, each function of the remote monitoring support device 120 of the elevator 101 according to the embodiment of the present invention includes an input / output unit 301, a generation unit 302, a storage unit 303, a transmission / reception unit 304, a temperature detection unit 305, and a determination unit 306. And the time measuring unit 307. Functions of the input / output unit 301, the generation unit 302, the storage unit 303, the transmission / reception unit 304, the temperature detection unit 305, the determination unit 306, and the timing unit 307 included in the remote monitoring support device 120 of the elevator 101 according to the embodiment of the present invention. Can be realized by each unit included in the remote monitoring support device 120.

  The input / output unit 301 controls input / output of signals to / from the control board 110. The input / output unit 301 is, for example, a signal output from the control board 110 in response to an instruction signal (execution instruction) for instructing execution of various operations output from the input / output unit 301 to the control board 110. The input of “response signal” is accepted as appropriate.

  In addition, the input / output unit 301 receives, for example, an input of a signal (hereinafter referred to as “report signal” as appropriate) that is output (reported) from the control board 110 and notifies the occurrence of an abnormality in the elevator 101. Further, the input / output unit 301 outputs instruction signals (execution instructions) for instructing execution of various operations based on various instruction signals transmitted from the management server computer 130 to the control board 110, for example.

  The generation unit 302 generates response information based on a signal (response signal) output from the control board 110 that the input / output unit 301 has accepted. The generation unit 302 generates response information based on a signal (response signal) output from the control board 110 in response to an instruction signal (execution instruction) output from the input / output unit 301 to the control board 110, for example. In addition, for example, when the input / output unit 301 receives an input of a signal (notification signal) for notifying the occurrence of an abnormality in the elevator 101, the generation unit 302 generates response information including content for notifying the occurrence of the abnormality. To do. Further, the generation unit 302 generates an instruction signal (execution instruction) that instructs execution of various operations based on various instruction signals transmitted from the management server computer 130, for example.

  The storage unit 303 stores, for example, information regarding a signal (response signal or notification signal) received by the input / output unit 301, response information generated by the generation unit 302, and the like. Specifically, the storage unit 303 stores, for example, information regarding the number of times a floor signal is output from the control board 110 and the date and time when the input of the floor signal is received. Or the memory | storage part 303 may memorize | store the information regarding the frequency | count that the drive signal was output from the control board 110, specifically, the date and time when the input of the said drive signal was received, for example.

  The transmission / reception unit 304 controls transmission / reception of signals to / from the management server computer 130. For example, the transmission / reception unit 304 receives various instruction signals transmitted from the management server computer 130, and outputs signals corresponding to the received instruction signals to the generation unit 302. The generation unit 302 generates a corresponding instruction signal (execution instruction or the like) based on the signal output from the transmission / reception unit 304. In addition, the transmission / reception unit 304 transmits the response information generated by the generation unit 302 to the management server computer 130, for example.

  The temperature detection unit 305 detects the ambient temperature of the control board 110. The storage unit 303 may store information on the ambient temperature every time the temperature detection unit 305 detects the ambient temperature of the control board 110. Further, the storage unit 303 may store information related to the date and time when the ambient temperature of the control board 110 is detected based on the date and time measured by the time measuring unit 307.

  In this embodiment, the temperature detection unit 305 detects the ambient temperature of the control board 110 based on the electrical signal output from the temperature sensor 206. For example, the temperature detection unit 305 detects the ambient temperature of the control board 110 at all times (continuously). Or the temperature detection part 305 may detect the ambient temperature of the control board 110 for every predetermined time, for example. In this case, the predetermined time can be set to a time at which it can be considered that the temperature is continuously detected, for example, “0.5 seconds”, “1 second”, and the like. Alternatively, in this case, the predetermined time may be set to a time at which the temperature is intermittently detected, such as “every minute” or “every 10 minutes”.

  The determination unit 306 determines whether the ambient temperature of the control board 110 detected by the temperature detection unit 305 exceeds a predetermined threshold value. The predetermined threshold value used for the determination by the determination unit 306 can be stored in advance in the storage unit 303, for example. The predetermined threshold can be arbitrarily set by, for example, an operator who performs maintenance and inspection of the elevator 101.

  The determination unit 306 may further determine whether or not the number of times that the ambient temperature of the control board 110 has exceeded a predetermined threshold exceeds a predetermined number of times for determination. In this case, the storage unit 303 may store the determination result of the determination unit 306 (such as the number of times that the ambient temperature of the control board 110 is determined to exceed a predetermined threshold).

  When the generation unit 302 determines that the ambient temperature of the control board 110 exceeds the threshold based on the determination result of the determination unit 306, the generation unit 302 generates temperature notification information that notifies that the ambient temperature exceeds the threshold. To do. The temperature notification information includes identification information of the control board 110 that is determined that the ambient temperature exceeds the threshold value or the elevator 101 that is controlled by the control board 110. Further, the temperature notification information may include information on the date and time when it is determined that the ambient temperature exceeds the threshold, information regarding the number of times that the ambient temperature is determined to exceed the threshold within a predetermined period, and the like.

  When the determination unit 306 determines the number of times that the ambient temperature of the control board 110 is determined to exceed a predetermined threshold, the ambient temperature of the control board 110 is determined based on the determination result of the determination unit 306. The temperature notification information may be generated by the generation unit 302 when it is determined that the number of times determined to exceed the predetermined threshold exceeds the number of times for determination. When the generation unit 302 generates temperature notification information, the transmission / reception unit 304 transmits the temperature notification information to the management server computer 130.

(Functional configuration of management server computer 130)
In FIG. 3, the management server computer 130 includes an instruction reception unit 311, a storage unit 312, an instruction signal generation unit 313, a time measurement unit 314, a diagnosis instruction unit 315, a reception unit 316, a counting unit 317, a number determination unit 318, and a generation unit 319. And an output unit 320. The instruction reception unit 311, the storage unit 312, the instruction signal generation unit 313, the time measurement unit 314, the diagnosis instruction unit 315, the reception unit 316, the counting unit 317, and the number determination unit 318 included in the management server computer 130 according to the embodiment of the present invention. The functions of the generation unit 319 and the output unit 320 can be realized by the units included in the management server computer 130.

  The instruction receiving unit 311 receives an input of an operation signal output from the operation terminal device 131. The instruction reception unit 311 executes a diagnostic operation output from the operation terminal device 131 when a predetermined input operation is performed on the operation terminal device 131 by, for example, an operator who performs maintenance and inspection. An input of an operation signal for instructing is accepted. The operation signal includes information designating an operation to be executed by the elevator 101 to be monitored, identification information of the elevator 101 to be monitored, and the like.

  The storage unit 312 includes a table that stores information related to the model of the elevator 101 and information related to the content of the diagnostic operation of the elevator 101 (hereinafter referred to as “model-specific diagnostic content table”, not shown). The model-specific diagnosis content table includes, for example, information such as “model number 100: manufactured by company A, product model number 123”, “model number 200: manufactured by company B, product number 0768, manufactured by 2010”, and the model of elevator 101. It memorizes as information about. The model-specific diagnosis content table stores, for example, information such as “confirmation of mileage after the previous inspection, confirmation of the number of activations after the previous inspection” as information regarding the content of the diagnostic operation of the elevator 101.

  In addition, the storage unit 312 includes a table (hereinafter referred to as “inspection time table”, not shown) that stores information related to the maintenance inspection time of each elevator 101, which is determined for each elevator 101. The inspection time table stores, for example, identification information of each elevator 101 and information related to the inspection time of the elevator 101 identified by the identification information in association with each other. The maintenance inspection time of each elevator 101 can be arbitrarily set by, for example, an operator who performs maintenance inspection of the elevator 101.

  The instruction signal generation unit 313 generates an instruction signal (diagnosis instruction) that instructs execution of a diagnostic operation in the remote monitoring support device 120 based on the operation signal received by the instruction reception unit 311. The instruction signal generation unit 313 instructs the execution of a diagnostic operation based on the information stored in the model-specific diagnosis content table provided in the storage unit 312 in addition to the operation signal received by the instruction reception unit 311. Instruction) may be generated. The instruction signal generation unit 313 can generate an instruction signal according to the model of the elevator 101 that is the object of the maintenance diagnosis by referring to the information stored in the model-specific diagnosis content table provided in the storage unit 312.

  Further, the instruction signal generation unit 313 may generate an instruction signal (diagnosis instruction) for instructing execution of a diagnostic operation with reference to information stored in an inspection time table provided in the storage unit 312. In this case, the instruction signal generation unit 313 refers to the information stored in the inspection time table provided in the storage unit 312, thereby instructing the execution of the diagnostic operation at a time suitable for each elevator 101 (diagnosis instruction). Can be generated. In addition, the instruction signal generation unit 313 generates an instruction signal including information for specifying an operation to be executed by the elevator 101 to be monitored and identification information for the elevator 101 to be monitored, for example.

  The timer unit 314 measures the date and time. For example, the timer unit 314 measures an elapsed time from the date and time when the instruction receiving unit 311 receives the input of the operation signal. The instruction signal generation unit 313 described above is, for example, an instruction signal that instructs execution of a diagnostic operation at a time set for each elevator 101 based on the date and time measured by the time measuring unit 314 and information stored in the inspection time table. Diagnostic instructions) can be generated.

  The diagnosis instruction unit 315 transmits the instruction signal generated by the instruction signal generation unit 313 to the corresponding remote monitoring support device 120. The corresponding remote monitoring support device 120 can be specified by, for example, the identification information of the elevator 101 included in the instruction signal, and is realized by the remote monitoring support device 120 connected to the elevator 101 to be monitored.

  The diagnosis instruction unit 315, for example, on the basis of the date and time counted by the time measuring unit 314, the instruction signal generated by the instruction signal generation unit 313 is applied to the corresponding remote monitoring support every time a predetermined date and time arrives regularly. Transmit to device 120. In addition, the diagnosis instruction unit 315 receives the instruction signal generated by the instruction signal generation unit 313 when a predetermined time has elapsed since the last diagnosis instruction was transmitted based on the date and time counted by the timer unit 314, for example. May be transmitted to the remote monitoring support device 120.

  In addition, the diagnosis instruction unit 315, for example, sends the instruction signal generated by the instruction signal generation unit 313 to the elevator 101 that is the object of maintenance diagnosis based on the date and time counted by the timing unit 314 and the information stored in the inspection time table. You may transmit with respect to the corresponding remote monitoring assistance apparatus 120 at the set time.

  The reception unit 316 receives the response information transmitted from the corresponding remote monitoring support device 120 as a result of the diagnosis instruction unit 315 transmitting the instruction signal. The storage unit 312 may store response information received by the reception unit 316. For example, the storage unit 312 receives not only the content of the response information received by the reception unit 316 but also the identification information of the elevator 101 to which the remote monitoring support device 120 that is the transmission source of the response information is connected and the response information. You may memorize | store the information regarding the date and time.

  In addition, the receiving unit 316 receives temperature notification information transmitted from the remote monitoring support device 120. The storage unit 312 stores the temperature notification information received by the reception unit 316 in association with the identification information of the control board 110 that is the transmission source of the temperature notification information or the elevator 101 that is controlled by the control board 110. Further, each time the receiving unit 316 receives the temperature notification information, the storage unit 312 may store information related to the date and time when the temperature notification information is received in association with the temperature notification information.

  Each time the receiving unit 316 receives temperature notification information, the counting unit 317 counts the number of times the temperature notification information is received. The counting unit 317 counts the number of times the temperature notification information is received for each identification information of the control board 110 that is the transmission source of the temperature notification information or the elevator 101 that is controlled by the control board 110. The storage unit 312 classifies and stores the number of times counted by the counting unit 317 for each identification information of the control board 110 that is the transmission source of the temperature notification information or the elevator 101 that is controlled by the control board 110.

  The number determination unit 318 determines whether or not the number counted by the counting unit 317 within a predetermined period exceeds a predetermined number for determination based on the date and time counted by the timing unit 314 and the number counted by the counting unit 317. Determine whether. The predetermined period and the number of times for determination can be arbitrarily set by, for example, an operator who performs maintenance and inspection of the elevator 101.

  Specifically, for example, when the predetermined period is “1 hour” and the number of times for determination is “3 times”, the number determination unit 318 counts the third time after the counting unit 317 counts the first time. When the elapsed time to do is within one hour, it is determined that the number of times counted by the counting unit 317 within a predetermined period exceeds a predetermined number of times for determination. When a predetermined period (such as 1 hour) elapses after the latest count is performed until the next count is performed, the number determination unit 318 resets the number of counts performed so far and newly starts from the next count. You may start counting the number of times.

  The generation unit 319 generates instruction information related to maintenance of the elevator 101 based on the temperature notification information received by the reception unit 316. The generation unit 319 determines, based on the determination result of the number determination unit 318, that the number determination unit 318 determines that the number of times counted by the counting unit 317 within a predetermined period exceeds a predetermined number of times for determination. Instruction information may be generated.

  The instruction information is information related to maintenance of the elevator 101 and includes, for example, information instructing dispatch to inspection work for maintenance of the elevator 101. Specifically, for example, the generation unit 319 determines the location of the elevator 101 that is a target of inspection work for maintenance, the date and time when the ambient temperature of the control board 110 in the corresponding elevator 101 is determined to exceed a predetermined threshold, The instruction information including a message for prompting the corresponding worker to dispatch the elevator 101 for inspection is generated.

  Further, the instruction information includes identification information of the terminal devices 131 and 330 that are output destinations of the instruction information. The storage unit 312 is a table that associates the identification information of the elevator 101 with the identification information of the terminal devices 131 and 330 that are the output destinations of the instruction information (hereinafter referred to as “output destination table”; illustration is omitted). I have.

  The output destination table is, for example, a terminal serving as an output destination such as an operation terminal device 131 connected to the management server computer 130 or a portable terminal device 330 such as a portable telephone carried by a worker performing maintenance and inspection. The identification information of the terminal devices 131 and 330 is stored in association with the identification information of the elevator 101. The output destination table referred to when the instruction information is generated can be stored in the storage unit 312 realized by a storage medium such as an HDD provided in the management server computer 130, for example.

  The generation unit 319 refers to the output destination table, specifies the terminal devices 131 and 330 that are the output destinations of the generated instruction information, and indicates the instruction information that includes the identification information of the terminal devices 131 and 330 that are the specified output destinations. Generate. The terminal device identification information realized by the portable terminal device 330 can be realized by an IP address or an e-mail address assigned to each of the terminal devices 131 and 330, for example.

  In addition, the generation unit 319 may generate instruction information when the reception unit 316 receives response information including contents for notifying occurrence of an abnormality, that is, response information based on a notification signal. In this case, the instruction information includes, for example, contents for notifying the occurrence of an abnormality in the elevator 101, the location of the corresponding elevator 101, and contents for instructing a response to the abnormality that has occurred in the elevator 101. The generation unit 319 determines whether or not the worker needs to be dispatched based on the response information according to the periodically transmitted diagnosis instruction as well as the response information based on the alert signal, and the worker needs to be dispatched. When it is determined that there is, notification information including instruction information may be generated.

  Further, the generation unit 319 generates notification information based on the response information received by the reception unit 316. For example, the generation unit 319 generates notification information including information related to the corresponding elevator 101, that is, the elevator 101 specified based on the response information received by the reception unit 316. Specifically, the generation unit 319 generates notification information including information on the travel distance of the car 102 in the corresponding elevator 101, the number of times the floor signal is output, and the like.

  In addition, when the predetermined time has elapsed after the diagnosis instruction unit 315 transmits the instruction signal, the generation unit 319 does not receive the response information transmitted from the corresponding remote monitoring support device 120. Notification information including the content for notifying may be generated. Thereby, an error notification for notifying that a failure has occurred in communication can be performed.

  The output unit 320 outputs the instruction information generated by the generation unit 319 to predetermined terminal devices 131 and 330. For example, the output unit 320 outputs the instruction information to the terminal devices 131 and 330 identified by the identification information based on the identification information of the output destination terminal devices 131 and 330 included in the instruction information. By outputting the instruction information to the terminal device 330, it is possible to prompt the worker who performs the maintenance inspection to check the corresponding elevator 101 regardless of the current location of the worker.

  Further, when the output unit 320 receives response information based on the alert signal from the remote monitoring support device 120, the output unit 320 outputs the instruction information generated by the generation unit 319 to a predetermined terminal device 330 carried by the worker. Also good. Further, the output unit 320 may output report information based on the response information transmitted from the remote monitoring support device 120 to the terminal device 131. Thereby, a report can be issued via the terminal device 131.

(Processing procedure of remote monitoring support device 120)
Next, a processing procedure of the remote monitoring support device 120 according to the embodiment of the present invention will be described. FIG. 4 is a flowchart showing a processing procedure of the remote monitoring support apparatus 120 constituting the remote monitoring system 100 according to the embodiment of the present invention. The processing shown in the flowchart of FIG. 4 is performed, for example, every time a predetermined time (“0.5 seconds”, “1 second”, “every minute”, “every 10 minutes”, etc.) elapses since the previous processing was performed. To be executed.

  In the flowchart of FIG. 4, first, the ambient temperature of the control board 110 is detected based on the electrical signal output from the temperature sensor 206 (step S401). Then, it is determined whether or not the ambient temperature of the control board 110 detected in step S401 exceeds a predetermined threshold (step S402). In step S402, for example, a predetermined threshold value stored in the memory 203 or the like is acquired, and the peripheral value of the control board 110 is compared by comparing the threshold value with the ambient temperature of the control board 110 detected in step S401. It is determined whether the temperature exceeds a predetermined threshold.

  In step S402, when the ambient temperature of the control board 110 detected in step S401 exceeds a predetermined threshold (step S402: Yes), the number of times that the ambient temperature of the control board 110 is determined to exceed the predetermined threshold is incremented by one. The number of times is counted (step S403). Then, it is determined whether or not the number of times counted in step S403 exceeds a predetermined number of times for determination (step S404).

  In step S404, when the number of times counted in step S403 exceeds a predetermined number of times for determination (step S404: Yes), temperature notification information is generated (step S405). In step S405, temperature notification information including information regarding the output destination of the temperature notification information is generated.

  Thereafter, the temperature notification information generated in step S405 is transmitted to the output destination specified based on the information regarding the output destination included in the temperature notification information generated in step S405 (step S406), and a series of processing is performed. finish. Further, when the ambient temperature of the control board 110 does not exceed the predetermined threshold value in step S402 (step S402: No), and when the number counted in step S404 does not exceed the number of times for determination (step S404: No). Then, a series of processing is completed.

(Processing procedure of the management server computer 130)
FIG. 5 is a flowchart showing a processing procedure of the management server computer 130 constituting the remote monitoring system 100 according to the embodiment of the present invention. In the flowchart of FIG. 5, first, the process waits until the temperature notification information transmitted from the remote monitoring support device 120 in step S406 of FIG. 4 is received (step S501: No).

  When the temperature notification information transmitted from the remote monitoring support device 120 is received in step S501 (step S501: Yes), the output destination of the instruction information is specified based on the received temperature notification information (step S502). In step S502, for example, with reference to the output destination table, the terminal device associated with the control board 110 included in the temperature notification information received in step S501: Yes or the identification information of the elevator 101 controlled by the control board 110 By specifying the identification information 131 and 330, the output destination of the instruction information can be specified.

  Then, instruction information is generated based on the temperature notification information received in step S501: Yes and the output destination specified in step S502 (step S503). In step S503, for example, on the display of the portable terminal device 330 carried by the worker, “Departure instruction: (location) 1st street, A town, 2nd street, elevator installed in the apartment a, (worker in charge) xx , (Confirmation contents) Machine room temperature and elevator operation status "are generated.

  Thereafter, the instruction information generated in step S503 is transmitted to the corresponding terminal device 330 (step S504), and the series of processes is terminated. The terminal device 330 that has received the instruction information transmitted in step 504 notifies that the instruction information has been received, for example, by outputting a voice or vibrating the terminal device 330.

  As described above, the remote monitoring support device 120 according to the embodiment of the present invention is provided in the vicinity of the control board 110 that controls the operation of the elevator 101, detects the ambient temperature of the control board 110, and detects it. When the ambient temperature of the control board 110 exceeds a predetermined threshold, temperature notification information for notifying that the ambient temperature of the control board 110 has exceeded the threshold is transmitted to the management server computer 130.

  According to the remote monitoring support device 120 of the embodiment of the present invention, the elevator 101 performs processing for adding a thermometer and a temperature sensor for measuring the temperature of the machine room including the control board 110 and the control board 110 itself. Therefore, the temperature of the control board 110 can be grasped at a remote location of the elevator 101. Thereby, according to the remote monitoring support device 120 and the remote monitoring system 100 of the embodiment according to the present invention, the malfunction of the control board 110 due to the temperature rise of the control board 110 can be easily and reliably prevented in the remote place of the elevator 101. Thus, the reliability of the elevator 101 can be improved.

  In addition, the remote monitoring support device 120 according to the embodiment of the present invention counts the number of times of determination every time it determines that the ambient temperature of the control board 110 exceeds the threshold value, and within a predetermined period. When the counted number exceeds the predetermined number for determination, the temperature notification information is transmitted to the management server computer 130.

  According to the remote monitoring support device 120 of the embodiment of the present invention, the management server computer 130 every time the ambient temperature of the control board 110 exceeds a predetermined threshold, such as when the ambient temperature of the control board 110 temporarily rises. Compared with the case where temperature notification information is transmitted to the remote monitoring support device 120, the processing burden on the remote monitoring support device 120 and the management server computer 130 related to transmission / reception of temperature notification information can be reduced.

  According to the remote monitoring support device 120 of the embodiment of the present invention, the temperature notification information is transmitted to the management server computer 130 when the number of times counted within a predetermined period exceeds a predetermined number of times for determination. By doing so, it is possible to quickly and reliably grasp the increase in the ambient temperature of the control board 110 while suppressing the processing burden on the remote monitoring support device 120 and the management server computer 130 related to the transmission / reception of the temperature notification information.

  As a result, according to the remote monitoring support device 120 of the embodiment of the present invention, the malfunction of the control board 110 due to the temperature rise of the control board 110 in the remote place of the elevator 101 can be easily and reliably prevented, and the It is possible to improve the performance.

  Further, in the remote monitoring system 100 according to the present invention, the management server computer 130 that has received the temperature notification information transmitted by the remote monitoring support device 120 when the ambient temperature of the control board 110 exceeds the threshold is based on the temperature notification information. The instruction information related to the maintenance of the elevator 101 is output.

  As a result, according to the remote monitoring system 100 of the embodiment of the present invention, the temperature rise of the control board 110 is grasped at the remote location of the elevator 101, and the countermeasures against the failure caused by the temperature rise are quickly and reliably performed. Can take. Thus, according to the remote monitoring system 100 of the embodiment of the present invention, the reliability of the elevator 101 can be improved.

  In the remote monitoring system 100 according to the present invention, when the number of times counted within a predetermined period exceeds the predetermined number of times for determination, the remote monitoring support device 120 notifies the management server computer 130 of the temperature. Although information is transmitted, the present invention is not limited to this. For example, the temperature monitoring information is transmitted from the remote monitoring support device 120 to the management server computer 130 every time the ambient temperature of the control board 110 exceeds a predetermined threshold value. The number of times the temperature notification information transmitted from is received within the predetermined period is determined whether the number of times exceeds the predetermined number of determinations, and the number of times the temperature notification information is received within the predetermined period is the number of determinations The instruction information may be output when exceeding.

  Accordingly, it is possible to improve the reliability of the elevator 101 while further reducing the processing burden on the remote monitoring support device 120.

  Note that the remote monitoring support apparatus and the remote monitoring system described in the above-described embodiments are realized by executing the remote monitoring support program and the remote monitoring program on a computer such as a personal computer or a workstation constituting the remote monitoring system. be able to. Moreover, the remote monitoring support method and the remote monitoring method can be realized by executing the remote monitoring support program and the remote monitoring program on a computer such as a personal computer or a workstation. These programs are recorded on a computer-readable recording medium such as a hard disk, a flexible disk, a CD-ROM, an MO, and a DVD, and are executed by being read from the recording medium by the computer. The program may be a transmission medium that can be distributed via a network such as the Internet.

  As described above, the remote monitoring support device and the remote monitoring system according to the present invention are useful for the remote monitoring support device and the remote monitoring system that perform remote monitoring of the elevator, and in particular, the elevator by performing the diagnostic operation periodically. It is suitable for a remote monitoring support device and a remote monitoring system for performing remote monitoring.

DESCRIPTION OF SYMBOLS 100 Remote monitoring system 110 Control board 120 Remote monitoring support device 121 Main control board 122 Voice communication board 130 Management server computer 140 Telephone 206 Temperature sensor 301 Input / output part 302 Generation part 303 Storage part 304 Transmission / reception part 305 Temperature detection part 306 Judgment part 307 Timing unit 311 Instruction receiving unit 312 Storage unit 313 Instruction signal generating unit 314 Timing unit 315 Diagnostic instruction unit 316 Receiving unit 317 Counting unit 318 Count determining unit 319 Generating unit 320 Output unit

Claims (5)

Branch connection to the connector part of the I / O board that connects the control board for controlling the operation of the elevator and either the cage or the operation panel provided at each landing, and via the connector part of the I / O board, The control board outputs an instruction signal (hereinafter referred to as “execution instruction”) instructing execution of various operations, receives an input of a response signal output from the control board in response to the output execution instruction, Input / output means for receiving an input of an alarm signal for notifying the occurrence of abnormality in the elevator;
Temperature detecting means for detecting the ambient temperature of the control board;
Judgment means for judging whether the ambient temperature of the control board detected by the temperature detection means exceeds a predetermined threshold;
When the input / output means receives the input of the response signal, response information based on the response signal includes response information including contents for notifying the occurrence of an abnormality when receiving the input of the notification signal. And generating means for generating temperature notification information for notifying that the ambient temperature of the control board exceeds the threshold when the judgment means determines that the ambient temperature of the control board exceeds the threshold. When,
Transmitting means for transmitting the response information and temperature notification information generated by the generating means to the management server computer;
A remote monitoring support apparatus characterized by comprising: Each time the determination means determines that the ambient temperature of the control board exceeds the threshold, the counting means counts the number of times of the determination;
A time measuring means for measuring the date and time;
With
The generating means is configured to display the temperature notification information when the number of times within a predetermined period exceeds a predetermined number of times for determination based on the date and time counted by the time measuring means and the number of times counted by the counting means. The remote monitoring support device according to claim 1, wherein the remote monitoring support device is generated. A remote monitoring system comprising a remote monitoring support device and a management server computer for communicating with the remote monitoring support device,
The remote monitoring support device is branched and connected to a connector part of an I / O board that connects a control board that controls the operation of the elevator and either the car or an operation panel provided at each landing . An instruction signal (hereinafter referred to as “execution instruction”) for instructing execution of various operations is output to the control board via the connector unit, and a response output from the control board in response to the output execution instruction. I / O means for receiving an input of a signal and receiving an input of an alarm signal for notifying the occurrence of an abnormality in the elevator;
Temperature detecting means for detecting the ambient temperature of the control board;
Judgment means for judging whether the ambient temperature of the control board detected by the temperature detection means exceeds a predetermined threshold;
When the input / output means receives the input of the response signal, the response information based on the response signal is received. When the alarm signal is input to notify the occurrence of the abnormality in the elevator, the occurrence of the abnormality is detected. Response information including the contents to be notified is generated, and when the determination unit determines that the ambient temperature of the control board exceeds the threshold value, it notifies that the ambient temperature of the control board has exceeded the threshold value. Generating means for generating temperature notification information;
Transmission means for transmitting response information and temperature notification information generated by the generation means to a management server computer,
The management server computer
Receiving means for receiving response information and temperature notification information transmitted from the remote monitoring support device;
A remote monitoring system comprising: output means for outputting instruction information relating to maintenance of the elevator based on response information or temperature notification information received by the receiving means; The remote monitoring support device includes:
Each time the determination means determines that the ambient temperature of the control board exceeds the threshold, the counting means counts the number of times of the determination;
A time measuring means for measuring the date and time,
The generating means is configured to display the temperature notification information when the number of times within a predetermined period exceeds a predetermined number of times for determination based on the date and time counted by the time measuring means and the number of times counted by the counting means. The remote monitoring system according to claim 3, wherein the remote monitoring system is generated. The management server computer
Each time the receiving means receives the temperature notification information, a counting means for counting the number of times the temperature notification information is received;
A time measuring means for measuring the date and time;
Frequency determination means for determining whether or not the number of times within a predetermined period exceeds a predetermined number of times for determination based on the date and time counted by the time measuring means and the number of times counted by the counting means. ,
The output means outputs the instruction information when the number determining means determines that the number of times counted by the counting means exceeds a predetermined number of times for determination within the predetermined period. The remote monitoring system according to claim 3.

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