JPWO2021095283A1 - Digital Electric Safety Control System - Google Patents

Abstract

Through electrical equipment such as distribution boards, distribution boards, light boards, power boards, control boards, and junction boxes, where the power supply side electric circuit from the power supply side and the load side electric circuit toward the load are installed in the housing. Prevents the occurrence of electrical accidents that lead to fires in electrically connected power devices, and also causes accidents such as damage to various power, electrical equipment, and devices to which the load-side electric circuit is connected. A digital electric safety control system that prevents you from doing so. When the temperature of the load-side electric circuit reaches the temperature requiring attention arbitrarily set or the temperature inside the panel reaches the temperature requiring attention arbitrarily set, the temperature sensor detects it, and the power supply-side electric circuit to the load-side electric circuit via the electric device is detected. Cut off the power supply to. If the voltage, current, and resistance of the load-side electric circuit exceed the preset values in consideration of each connected load, the voltage, current, and resistance measurement equipment of the load-side electric circuit will be aware of the electrical equipment. The power supply from the power supply side electric circuit to the load side electric circuit is cut off. This is a system to prevent burning and ignition accidents of the relevant board.

Description

In the present invention, electricity such as a distribution board, a distribution board, a light board, a power board, a control board, a junction box, etc., in which a power supply side electric circuit from the power supply side and a load side electric circuit toward the load are arranged in a housing. The present invention relates to a system for preventing the occurrence of an electric accident leading to a fire or the like in an electric power device electrically connected via a device or the like.

An electric accident that leads to a fire or the like occurs in a power device in which the power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected via electric devices installed in the housing. Various proposals have been made conventionally regarding the prevention system.

For example, a fire that comprises at least one thermal element capable of operating to detect and alert an elevated heat in an electrical cable and send an alarm if the thermal element measures a temperature rise above a temperature threshold. An electric system including an alarm unit has been proposed (Patent Document 1).

It has an abnormal overheat detection structure that detects abnormal overheating of the terminal to which the circuit breaker and the electric wire are connected, and prevents the circuit breaker from burning and spreading to the building materials and peripheral equipment around the circuit breaker. A circuit breaker has been proposed (Patent Document 2).

A distribution board has been proposed that can detect an overheated state of a large number of screw connections with a single detector and cut off an electric circuit at the time of detection (Patent Document 3).

Japanese Patent No. 5538414 Japanese Patent No. 5808038 Japanese Patent No. 5820652

In the present invention, an electric device such as a distribution board, a distribution board, a light board, a power board, a control board, and a junction box, in which a power supply side electric circuit from the power supply side and a load side electric circuit toward the load are arranged in a housing. Prevents the occurrence of electrical accidents that lead to fires in power equipment that is electrically connected via such means, and further damages various power, electrical equipment, and equipment to which the load-side electric circuit is connected. The purpose is to propose a system that prevents accidents from occurring.

[1]
A power device in which the power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected via an electric device installed in the housing, and a power device.
Acquisition of housing temperature information that constantly detects the temperature inside the housing and outputs the detected temperature information inside the housing as digital information together with information that identifies the power device related to the housing. Means and
Acquisition of electric circuit temperature information that constantly detects the temperature of the load-side electric circuit and outputs the electric circuit temperature information, which is information about the temperature of the detected load-side electric circuit, as digital information together with information for identifying the electric power device related to the housing. Means and
It is connected to the load side electric circuit and constantly detects the voltage value, the current value and the resistance value, and the voltage / current / resistance value information which is the information about the detected voltage value, the current value and the resistance value of the load side electric circuit is stored in the case. An electric circuit voltage / current / resistance value information acquisition means that outputs digital information together with information that identifies the power device related to the body, and
A housing temperature monitoring means that compares the temperature inside the housing acquired by the housing temperature information acquisition means with a preset temperature inside the housing.
A load-side electric circuit temperature monitoring means that compares the temperature of the load-side electric circuit acquired by the electric circuit temperature information acquisition means with a preset load-side electric circuit monitoring temperature.
Electric circuit voltage / current / resistance value monitoring that compares the electric circuit voltage / current / resistance value acquired by the electric circuit voltage / current / resistance value information acquisition means with the preset load-side electric circuit monitoring voltage / current / resistance value. Means and
When the housing temperature monitoring means determines that the temperature inside the housing acquired by the housing temperature information acquisition means exceeds the monitoring temperature inside the housing, the load from the power supply side electric circuit via the electric device. The first power cutoff means that outputs a power cutoff signal that cuts off the power supply to the side electric circuit,
When the load-side electric circuit temperature monitoring means determines that the temperature of the load-side electric circuit acquired by the electric circuit temperature information acquisition means exceeds the load-side electric circuit monitoring temperature, the power supply-side electric circuit via the electric device is used. A second power cutoff means for outputting a power cutoff signal that cuts off the power supply to the load-side electric circuit, and
When the electric circuit voltage / current / resistance value acquired by the electric circuit voltage / current / resistance value information acquisition means exceeds the load side electric circuit monitoring voltage / current / resistance value, the load side electric circuit voltage / current / resistance value monitoring means A third power cutoff means that outputs a power cutoff signal that cuts off the power supply from the power supply side electric line to the load side electric line via the electric device when the determination is made.
When the temperature inside the housing determines that the temperature inside the housing acquired by the temperature information acquisition means inside the housing exceeds the monitoring temperature inside the housing, the information for identifying the power device related to the housing is also included. , The first means of issuing an alarm signal to output a temperature alarm signal,
When the load-side electric circuit temperature monitoring means determines that the temperature of the load-side electric circuit acquired by the electric circuit temperature information acquisition means exceeds the load-side electric circuit monitoring temperature, the power device related to the housing is specified. A second alarm signal issuing means that outputs a temperature alarm signal together with information,
The electric circuit voltage / current / resistance value monitoring means determines that the electric circuit voltage / current / resistance value acquired by the electric circuit voltage / current / resistance value information acquisition means exceeds the load side electric circuit monitoring voltage / current / resistance value. At that time, a third alarm signal issuing means for outputting a voltage / current / resistance value alarm signal together with information for specifying the power device related to the housing.
The temperature alarm signal output by the first alarm signal issuing means, the temperature alarm signal output by the second alarm signal issuing means, and the voltage / current / resistance value output by the third alarm signal issuing means. Based on one of the alarm signals, to the administrator terminal used by the administrator who manages the power device and the person in charge terminal owned by the person in charge of managing the power device. On the other hand, a digital electric safety control system including an alarm notification information output means for outputting alarm notification information together with information for specifying the power device related to the housing.

[2]
A circuit switch of a type different from that of the electric device is installed in the load side electric circuit.
The power cutoff signal output from each of the first power cutoff means, the second power cutoff means, and the third power cutoff means is output to either the electric device or the circuit switch. [1] Digital Electric Safety Control System.

[3]
The power cutoff signal output from each of the first power cutoff means, the second power cutoff means, and the third power cutoff means is output to the circuit switch [2] digital electric. Safety control system.

[4]
The circuit switch that receives the input of the power cutoff signal is provided with a power recovery signal output unit that outputs a power recovery signal that restores the power supply to the load via the load side electric path [3]. Digital electric safety control system.

[5]
The temperature inside the housing monitoring means further compares the temperature inside the housing acquired by the temperature information acquisition means inside the housing with the preset alarm temperature inside the housing.
The load-side electric circuit temperature monitoring means further compares the temperature of the load-side electric circuit acquired by the electric circuit temperature information acquisition means with the preset load-side electric circuit alarm temperature.
A fire alarm system installed for the power device when the temperature monitoring means in the housing determines that the temperature in the housing acquired by the temperature information acquisition means in the housing exceeds the alarm temperature in the housing. The first fire alarm information output means that outputs fire alarm information to the equipment,
When the load-side electric circuit temperature monitoring means determines that the temperature of the load-side electric circuit acquired by the electric circuit temperature information acquisition means exceeds the load-side electric circuit alarm temperature, the said device is deployed to the electric power device. A second fire alarm information output means that outputs fire alarm information to the fire alarm system,
The digital electric safety control system according to any one of [1] to [4].

[6]
A digital camera for photographing the electric power device is deployed in the vicinity of the electric power device.
After the first alarm signal issuing means outputs the temperature alarm signal, or after the second alarm signal issuing means outputs the temperature alarm signal, or after the third alarm signal issuing means outputs the temperature alarm signal, the third alarm signal issuing means said. After outputting the voltage / current / resistance value alarm signal, the digital camera takes a picture based on the image information request information acquired from the administrator terminal and / or the image information request information acquired from the person in charge terminal. The digital electric safety control system according to any one of [1] to [5], further comprising an image information output means for outputting image information of the power device in real time.

[7]
A temperature detecting means for photographing the electric power device and detecting the temperature is provided in the vicinity of the electric power device, or
A temperature detecting means for photographing the circuit switch and detecting the temperature is provided in the vicinity of the circuit switch, or
A temperature detecting means for photographing the electric power device and detecting the temperature and a temperature detecting means for photographing the circuit switch and detecting the temperature are provided in the vicinity of the electric power device and the vicinity of the circuit switch, respectively.
Image information and detection temperature information of the power device that the temperature detecting means captures and detects in real time, image information and detection temperature information of the circuit switch, or image information and detection temperature information of the power device. And the image information and the detected temperature information of the circuit switch.
The digital electric safety control system according to [2], further comprising a detection temperature information output means for transmitting to the administrator terminal and / or the person in charge terminal at a predetermined timing.

According to the present invention, like a distribution board, a distribution board, a light board, a power board, a control board, and a junction box, a power supply side electric line from the power source side and a load side electric line toward the load are arranged in the housing. Prevents the occurrence of electrical accidents that lead to fires in electric power devices that are electrically connected via electrical equipment, and further damages various electric power, electrical equipment, and equipment to which the load-side electric circuit is connected. It is possible to provide a system for preventing the occurrence of such accidents.

The conceptual diagram explaining the structure of one Embodiment of the digital electric safety control system which concerns on this invention. The block diagram explaining an example of the system configuration of one Embodiment of the digital electric safety control system which concerns on this invention. The flow diagram explaining an example of the operation outline of the digital electric safety control system which concerns on this invention. The block diagram explaining an example of the case where the digital electric safety control system of this invention is adopted as an existing electric power apparatus. The block diagram explaining another example when the digital electric safety control system of this invention is adopted as an existing electric power apparatus. The block diagram explaining another example when the digital electric safety control system of this invention is adopted as an existing electric power apparatus. The block diagram explaining another example when the digital electric safety control system of this invention is adopted as an existing electric power apparatus. The block diagram explaining another example when the digital electric safety control system of this invention is adopted as an existing electric power apparatus. The block diagram explaining an example of the electric power apparatus which adopts the digital electric safety control system of this invention. FIG. 6 is a block diagram illustrating another example of a power device in which the digital electric safety control system of the present invention is adopted. FIG. 6 is a block diagram illustrating another example of a power device in which the digital electric safety control system of the present invention is adopted. FIG. 6 is a block diagram illustrating another example of a power device in which the digital electric safety control system of the present invention is adopted. FIG. 6 is a block diagram illustrating another example of a power device in which the digital electric safety control system of the present invention is adopted. The power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected to each other via an electric device installed in the housing. A block diagram illustrating an example when a circuit switch of a different type from the device is deployed. The power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected to each other via an electric device installed in the housing. A block diagram illustrating an example when a circuit switch of a different type from the device is deployed. The power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected to each other via an electric device installed in the housing. A block diagram illustrating an example when a circuit switch of a different type from the device is deployed. The power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected to each other via an electric device installed in the housing. A block diagram illustrating an example when a circuit switch of a different type from the device is deployed. The power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected to each other via an electric device installed in the housing. A block diagram illustrating an example when a circuit switch of a different type from the device is deployed. The power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected to each other via an electric device installed in the housing. A block diagram illustrating an example when a circuit switch of a different type from the device is deployed. The power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected to each other via an electric device installed in the housing. A block diagram illustrating an example when a circuit switch of a different type from the device is deployed. The power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected to each other via an electric device installed in the housing. A block diagram illustrating an example when a circuit switch of a different type from the device is deployed. The power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected to each other via an electric device installed in the housing. A block diagram illustrating an example when a circuit switch of a different type from the device is deployed. The power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected to each other via an electric device installed in the housing. A block diagram illustrating an example when a circuit switch of a different type from the device is deployed. FIG. 2 Thermo as an example of a temperature detecting means in the vicinity of a power device or a circuit switch (for example, a circuit switch such as a magnet switch, a power relay, or a solid state relay) in the system configuration of the digital electric safety control system shown in FIG. A block diagram illustrating an example of an embodiment in which a graphic camera is deployed.

An electric accident that leads to a fire or the like occurs in a power device in which the power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected via electric devices installed in the housing. Various measures have been taken conventionally for the prevention system. For example, the following is an explanation in relation to building facilities.

<Power supply composition of building facilities>
In a building facility, power is usually received from an electric power company at 6600 V by a high-voltage power receiving / transforming facility (cubicle). Power receiving and transforming equipment is generally protected by a vacuum breaker, a high-pressure load switch (fuse), a high-pressure cutout, etc. Power is supplied via the main line of electric light and power, and power is supplied to each facility and equipment from each switchboard via the remote device (IOTB, RIO) of the control board wired to the electric light and power distribution board by the branch main line. Will be supplied. The distribution board, distribution board, and control panel have a no-fuse breaker (NFB) to prevent overcurrent, and an earth leakage breaker (ELB) to prevent leakage around water has a protection function to prevent electrical accidents.

<Prevention of electrical accidents in building facilities>
As mentioned above, for example, the power receiving and transforming equipment is equipped with a vacuum circuit breaker, high-voltage load switch (fuse), high-voltage cutout, etc. And prevent electrical accidents. However, a fire has occurred due to insufficient tightening of screws due to deterioration over time or inconvenience of construction, loosening of connection terminals, gaps, incorrect wiring, dust, etc. and poor insulation of the insulation coating, and it seems that it is still insufficient. In addition, breakers are generally not installed in extension cords between switchboards, distribution boards and equipment, and appliances, or in junction boxes for branch wiring connections and extension cords after that, due to short circuits, etc. There are also cases of electric fire accidents.

<Outline and features of digital electric safety control system>
FIG. 2 is a block diagram illustrating an example of a system configuration of an embodiment of the digital electric safety control system according to the present invention. A high-voltage power receiving / transforming facility (cubicle) equipped with a vacuum circuit breaker, a high-voltage load switch (fuse), and a high-voltage cutout receives 6600V from an electric power company. The lamp is stepped down to 200V for single-phase three-wire and 200V for power with a lamp and a power transformer, and power is supplied via the main line of the lamp and power. Power is supplied to each equipment from each switchboard via a lamp, a remote device (IOTB, RIO) of the control panel wired to the power distribution board by a branch trunk line. Further, an extension cord or a branch wiring connection of wiring is performed from the distribution board or distribution board to the connected device via the junction box.

The outline and features of the digital electric safety control system of this embodiment will be described with reference to FIG. 2 and FIG. 3, which is a flow chart illustrating an example of the operation outline of the digital electric safety control system.

The normal temperature of the power receiving / transforming equipment, the inside of the switchboard, the control panel, etc., the junction box, the equipment, the equipment, the equipment, the wiring, etc. is about 32 ° C to 40 ° C. Ignition cases of power switches, control remote switches, connectors, etc. are usually around 220 ° C to 250 ° C.

The load-side electric circuit monitoring temperature of the wired electric wire or the like can be set to, for example, 90 ° C. This is because the normal temperature of the above-mentioned power receiving / transforming equipment, inside the panel such as a switchboard or control panel, junction box, equipment, equipment, equipment, wiring, etc. is about 32 ° C to 40 ° C, and the power switch and control remote switch. Since the ignition case of the connector or the like is usually about 220 ° C to 250 ° C, it can be set in consideration of safety.

The monitoring temperature inside the panel, the inside of the housing such as the junction box, and the like can be set to, for example, 60 ° C. This also has the above-mentioned normal temperature of the power receiving / transforming equipment, the inside of the switchboard, the control panel, etc., the junction box, the equipment, the equipment, the equipment, the wiring, etc. at about 32 ° C to 40 ° C, and the power switch and control remote switch. Since the ignition case of the connector or the like is usually about 220 ° C to 250 ° C, it can be set in consideration of safety.

It should be noted that the above-mentioned power receiving / transforming equipment, inside a switchboard, control board, etc., junction box, equipment, equipment, equipment, wiring, etc., have a normal temperature of about 32 ° C to 40 ° C, power switch, control remote switch, connector, etc. From the normal temperature of 220 ° C to 250 ° C in the case of ignition, the above-mentioned load side electric circuit monitoring temperature is in the range of 90 ° C to 130 ° C, and the monitoring temperature inside the housing is in the range of 60 ° C to 80 ° C in consideration of safety. Each can be set arbitrarily.

The temperature of the electric wire rises due to incorrect wiring, loosening of the screw, gap and dust of the connector connection, melting of the insulating coating material due to sparks due to aging, etc., for example, the temperature of the electric wire reaches the above-mentioned load side electric circuit monitoring temperature. Then, the digital release system inputs to the breaker of the power supply device by detecting the abnormal high temperature of the temperature sensor, and the breaker is automatically turned off to prevent the occurrence of burning, destruction, or ignition accident of the corresponding load side electric circuit. be.

Similarly, the temperature of power receiving / transforming equipment, switchboards, control boards, etc., junction boxes, etc. may be affected by incorrect wiring, loosening of screws, gaps and dust in connector connections, melting of insulating coating material due to sparks due to deterioration over time, etc. When the temperature rises and reaches the above-mentioned monitoring temperature inside the housing, the digital release system inputs to the breaker of the power supply device by detecting the abnormally high temperature of the temperature sensor, and the breaker is automatically turned off to the corresponding power receiving / transforming equipment, switchboard or control. It is a system that prevents the occurrence of burnout, destruction, and ignition accidents in the board such as the board and the junction box. The voltage value, current value, and resistance value allowed for the load-side electric circuit are set in advance according to the load to which the load-side electric circuit is connected. For example, depending on the case where the load is an air conditioner, a prime mover, a precision device such as a computer, a medical device, etc., the voltage value allowed for the load side electric circuit connected to the load, respectively. The current value and resistance value are different. If this allowable value is exceeded, damage to the above-mentioned equipment, which is the load to which the load-side electric circuit is connected, or malfunction may occur. Therefore, the load-side electric circuit monitoring voltage, current, and resistance value are preset for each load-side electric circuit according to the load to which the load-side electric circuit is connected. When the voltage, current, and resistance of the electric circuit on the load side are constantly measured and an abnormal value outside the permissible range is detected, the digital release system inputs to the breaker of the power supply, the breaker is automatically turned off, and the above-mentioned load is applied. It is a system that prevents damage to the above-mentioned equipment, which is the load to which the side electric circuit is connected, and malfunction.

If a breaker is installed in the junction box of the branch wiring from the switchboard or distribution board, or in the connected equipment, and the extension cord wiring reaches the above-mentioned load-side circuit monitoring temperature, which is a short circuit or caution temperature, the breaker automatically powers the power supply. It is a system that is turned off to prevent the occurrence of fire accidents. In addition, if the voltage, current, or resistance value of the load side electric circuit becomes an abnormal value outside the allowable range described above, the circuit breaker is automatically turned off, and the computer, precision equipment, medical equipment, etc. to which the load side electric circuit is connected, etc. It is a system that prevents the occurrence of damage and malfunction.

This system can handle, for example, large-capacity power generation equipment, power receiving / transforming equipment, distribution boards, distribution boards, wiring, connection equipment, and weak current measurement, instrumentation, signals, and the like.

<Temperature alarm issuance by digital power release system>
This is a system that issues a temperature warning signal informing that caution is required when the wire temperature reaches the load-side electric circuit monitoring temperature. Further, when the temperature inside the panel or the junction box reaches the monitoring temperature inside the housing, the system issues a temperature warning signal indicating that caution is required.

Further, it is a system that issues a voltage / current / resistance value warning signal informing that caution is required if the voltage, current, or resistance value of the electric wire becomes an abnormal value out of the permissible range.

The above-mentioned temperature alarm signal and voltage / current / resistance value alarm signal are possessed by the PC monitor and the person in charge of management of the persons concerned, together with the information for identifying the electric power device requiring attention via the network such as VPN. The system operation application of the present invention is displayed on the downloaded smartphone. This is a system that prevents burning of the panel and other fire accidents in advance, and prevents damage and malfunction of computers, precision equipment, medical equipment, etc. to which the load-side electric circuit is connected.

Considering the normal temperature of 220 ° C to 250 ° C for ignition cases of power switches, control remote switches, connectors, etc. mentioned above, to the parties concerned in a temperature range that can ensure safety above the temperature at which a fire may occur. It is a system that can report.

The above-mentioned power switch, control remote switch, connector, etc. From the normal temperature of 220 ° C. to 250 ° C. in the case of ignition, it is possible to further set the load side electric circuit alarm temperature and the internal alarm temperature in consideration of the safety side.

For example, the load-side electric circuit alarm temperature can be set to 180 ° C., and the internal housing alarm temperature can be set to 150 ° C.

As described above, when the temperature of an electric wire or the like rises and the temperature of the electric wire reaches the above-mentioned load-side electric wire alarm temperature, for example, a fire alarm system, which is a fire alarm system in a building or the like, is detected by an abnormally high temperature sensor. That is, it is a system connected to the fire alarm system installed for the above-mentioned electric power device that requires attention.

If the temperature of the power receiving / transforming equipment, the inside of the switchboard or control panel, the junction box, etc. rises and reaches the above-mentioned alarm temperature inside the housing, the temperature sensor detects an abnormally high temperature to notify the fire of the fire equipment in the building. It is a system connected to equipment, that is, fire alarm equipment installed for the above-mentioned electric power equipment that requires attention.

In addition, a system will be established to automatically contact related organizations such as the fire department from the fire alarm system equipment, and even if a fire occurs, it will be possible for related organizations such as the fire department to take prompt action. It can be a system.

From the normal temperature of 220 ° C to 250 ° C for ignition cases of power switches, control remote switches, connectors, etc. described above, the above-mentioned load-side electric circuit alarm temperature is 180 ° C to 200 ° C in consideration of safety. Within the range, the alarm temperature inside the housing can be arbitrarily set in the range of 150 ° C to 200 ° C.

In this system, a digital camera is installed in or around the cubicle of the power receiving / transforming equipment, the main distribution board, the distribution board, and the temperature inside the above electric wire or panel is the temperature requiring attention, or the current, voltage, and resistance values are within the permissible range. When it senses an abnormal value outside, it can have a function to send the real-time image information acquired by the digital camera to the PC monitor or smartphone of the person concerned.

<Digital Electric Safety Control System>
The digital electric safety control system according to this embodiment will be described with reference to FIG.

The digital electric safety control system includes a power device 1, an internal temperature information acquisition unit 8, an electric circuit temperature information acquisition unit 9, an electric circuit voltage / current / resistance value information acquisition unit 10, an internal temperature monitoring unit 11, and an internal temperature monitoring unit 11. The load-side electric circuit temperature monitoring means 12, the electric circuit voltage / current / resistance value monitoring means 13, the first power cutoff means 14, the second power cutoff means 15, the third power cutoff means 16, and the first. The alarm signal issuing means 17, the second alarm signal issuing means 18, the third alarm signal issuing means 19, the alarm notification information outputting means 20, the first fire warning information outputting means 21, and the second. It includes a fire alarm information output means 22, an image information output means 24, a power recovery signal output means 25, and a detection temperature information output means 26.

In the power device 1, the power supply side electric circuit 3 from the power source side and the load side electric circuit 4 toward the load are electrically connected via an electric device 2 provided in the housing. For example, various power receiving and transforming equipment, switchboards, distribution boards, light boards, power boards, control boards, remote control device boards, distribution boards and distribution boards, etc. For example, a box.

The electric device 2 is arranged in the housing constituting the above-mentioned electric power device 1, and is intended to electrically connect between the power supply side electric circuit 3 from the power supply side and the load side electric circuit 4 toward the load. For example, a main breaker, an earth leakage breaker, and the like can be mentioned.

The load to which the load-side electric line 4 is heading includes, for example, a prime mover, an elevator, an air conditioning facility, a ventilation facility, a lighting facility, a refrigerating / freezing case, a refrigerator / freezer, a measuring instrument, a computer device, a monitoring camera, a medical device, and a communication device. , Etc., which are electric power / electric devices / equipment that operate by receiving power supply, and are deployed and used inside and outside buildings, etc., such as electric power / electric devices / equipment, trains / cars / aircraft / ships, etc. Includes electric power, electrical equipment, communication equipment, equipment, etc. that are deployed and used in vehicles and means of transportation.

A fire alarm system device 40 is deployed for the power device 1. Further, a digital camera 41 that shoots the power device 1 at all times or when a shooting start instruction input is received is provided in the vicinity of the power device 1.

The housing temperature information acquisition means 8 constantly detects the temperature inside the housing constituting the power device 1 described above, and obtains the temperature information inside the housing, which is information about the detected temperature inside the housing, with respect to the housing. It outputs digital information together with information that identifies the power device 1.

The electric circuit temperature information acquisition means 9 constantly detects the temperature of the load-side electric circuit 4 described above, and uses the electric circuit temperature information which is information regarding the temperature of the detected load-side electric circuit 4 to specify the electric power device 1 related to the housing. It is output as digital information together with.

The electric circuit voltage / current / resistance value information acquisition means 10 is connected to the load side electric circuit 4 and constantly detects the voltage value, the current value and the resistance value, and relates to the detected voltage value, the current value and the resistance value of the load side electric circuit 4. The voltage / current / resistance value information, which is information, is output as digital information together with the information for specifying the power device 1 related to the housing.

The housing temperature monitoring means 11 performs a process of comparing the temperature inside the housing acquired by the housing temperature information acquisition means 8 with the preset temperature inside the housing.

Further, the temperature inside the housing monitoring means 11 further performs a process of comparing the temperature inside the housing acquired by the temperature information acquisition means 8 inside the housing with the preset alarm temperature inside the housing.

The load-side electric circuit temperature monitoring means 12 performs a process of comparing the temperature of the load-side electric circuit 4 acquired by the electric circuit temperature information acquisition means 9 with a preset load-side electric circuit monitoring temperature.

Further, the load-side electric circuit temperature monitoring means 12 further performs a process of comparing the temperature of the load-side electric circuit 4 acquired by the electric circuit temperature information acquisition means 9 with the preset load-side electric circuit alarm temperature.

The electric circuit voltage / current / resistance value monitoring means 13 has the electric circuit voltage / current / resistance value acquired by the electric circuit voltage / current / resistance value information acquisition means 10 and the preset load-side electric circuit monitoring voltage / current / resistance value. Performs the process of comparing with.

The allowable voltage value, current value, and resistance value are set in advance according to the load to which the load side electric circuit 4 is connected. For example, the allowable voltage value, current value, and resistance value differ depending on whether the load is an air conditioner, a prime mover, a precision device such as a computer, a medical device, and the like. If this allowable value is exceeded, equipment damage or malfunction may occur. Therefore, the load-side electric circuit monitoring voltage, current, and resistance value are set in advance according to the load to which the load-side electric circuit 4 is connected, and comparison with these is performed.

The first power cutoff means 14 sets the electric device 2 when the housing temperature monitoring means 11 determines that the temperature inside the housing acquired by the housing temperature information acquisition means 8 exceeds the housing monitoring temperature. A process of outputting a power cutoff signal for cutting off the power supply from the power supply side electric line 3 to the load side electric line 4 is performed. For example, a process of outputting a power cutoff signal for cutting off the electric device 2 to the electric device 2 is performed.

The second power cutoff means 15 is an electric device when the load side electric circuit temperature monitoring means 12 determines that the temperature of the load side electric circuit 4 acquired by the electric circuit temperature information acquisition means 9 exceeds the load side electric circuit monitoring temperature. A process of outputting a power cutoff signal for cutting off the power supply from the power supply side electric line 3 to the load side electric line 4 via 2 is performed. For example, a process of outputting a power cutoff signal for cutting off the electric device 2 to the electric device 2 is performed.

The third power cutoff means 16 indicates that the electric circuit voltage / current / resistance value acquired by the electric circuit voltage / current / resistance value information acquisition means 10 exceeds the load side electric circuit monitoring voltage / current / resistance value. When the current / resistance value monitoring means 13 determines, a process of outputting a power cutoff signal for cutting off the power supply from the power supply side electric line 3 to the load side electric line 4 via the electric device 2 is performed. For example, a process of outputting a power cutoff signal for cutting off the electric device 2 to the electric device 2 is performed.

The power supply side electric circuit from the power source side and the load side electric circuit toward the load, in which the digital electric safety control system of this embodiment is deployed, are electrically connected via an electric device installed in the housing. As shown in FIGS. 4 to 13, an electric device 2 including a main breaker, a leakage breaker, and the like is provided in a housing constituting the electric power device 1, and a power supply side electric line 3 and a load from the power supply side are provided. When an electrical connection is made with the load-side electric line 4 toward the destination, the power is output from the first power cutoff means 14, the second power cutoff means 15, and the third power cutoff means 16 described above. The above-mentioned power cutoff signal is supplied to the electric device 2 including the main breaker, the leakage breaker, and the like, respectively.

The power supply side electric circuit from the power supply side and the load side electric circuit toward the load, in which the digital electric safety control system of this embodiment is deployed, are electrically connected via an electric device arranged in the housing. As shown in FIGS. 14 to 23, the electric power device has a circuit of a type different from that of the electric device 2 including a main breaker, a leakage breaker, and the like in the load side electric circuit in addition to the configuration shown in FIGS. 4 to 13. It can also be in the form of a switch.

In this case, as the circuit switch, for example, a circuit switch such as a magnet switch, a power relay, or a solid state relay can be adopted.

In such a configuration, the above-mentioned power cutoff signal output from each of the first power cutoff means 14, the second power cutoff means 15, and the third power cutoff means 16 is a main breaker and an electric leakage. The output can be made to either the electric device 2 including a breaker or the like, or the circuit switch of a type different from that of the electric device 2.

In this case, the above-mentioned power cutoff signals output from each of the first power cutoff means 14, the second power cutoff means 15, and the third power cutoff means 16 are first referred to as a main breaker and an earth leakage breaker. It is advantageous to supply the circuit switch (for example, a magnet switch, a power relay, a solid state relay, etc.) of a type different from that of the electric device 2 including the above.

If the circuit switch is a main circuit breaker, earth leakage breaker, etc., recovery is performed after confirmation by the person in charge when recovering after shutting off, but circuit switches such as magnet switches, power relays, and solid state relays are remote. It can be restored by control.

Therefore, the information on the temperature inside the housing acquired by the housing temperature information acquisition means 8 is lower than the monitoring temperature inside the housing, and the information on the temperature of the load-side electric circuit 4 acquired by the electric circuit temperature information acquisition means 9 is on the load side. When the information on the electric circuit voltage / current / resistance value acquired by the electric circuit voltage / current / resistance value information acquisition means 10 below the electric circuit monitoring temperature is lower than the load-side electric circuit monitoring voltage / current / resistance value, the power recovery signal output means. When the 25 determines, the power recovery signal output means 25 passes through the load side electric circuit to the circuit switch (magnet switch, power relay, solid state relay, etc.) that has received the input of the power cutoff signal described above. It is possible to output a power recovery signal for restoring the power supply to the load.

As a result, when necessary, the power supply to the load via the load-side electric circuit is cut off, while the power supply to the load that does not need to be cut off is automatically restored. Can be made to.

As described above, the above-mentioned power cutoff signal output from each of the first power cutoff means 14, the second power cutoff means 15, and the third power cutoff means 16 is first transmitted from the main breaker, the leakage breaker, and the like. After being supplied to the circuit switch (for example, a magnet switch, a power relay, a solid state relay, etc.) of a type different from that of the electric device 2 and the power supply is cut off, the person in charge is present to restore the power supply. , Confirmation, etc., when the above-mentioned power is subsequently generated from each of the first power cutoff means 14, the second power cutoff means 15, and the third power cutoff means 16. The cutoff signal can be output and supplied to the electric device 2 including the main breaker, the leakage breaker, and the like.

The first alarm signal issuing means 17 is the housing when the temperature monitoring means 11 in the housing determines that the temperature in the housing acquired by the temperature information acquisition means 8 in the housing exceeds the monitoring temperature in the housing. A process of outputting a temperature alarm signal is performed together with the information for specifying the power device 1 according to the above.

The second alarm signal issuing means 18 is said when the load-side electric circuit temperature monitoring means 12 determines that the temperature of the load-side electric circuit 4 acquired by the electric circuit temperature information acquisition means 9 exceeds the load-side electric circuit monitoring temperature. A process of outputting a temperature alarm signal is performed together with information for specifying the power device 1 related to the housing.

The third alarm signal issuing means 19 indicates that the electric circuit voltage / current / resistance value acquired by the electric circuit voltage / current / resistance value information acquisition means 10 exceeds the load side electric circuit monitoring voltage / current / resistance value. When the current / resistance value monitoring means 13 determines, a process of outputting a voltage / current / resistance value alarm signal is performed together with information for identifying the power device 1 related to the housing.

The alarm notification information output means 20 outputs the temperature alarm signal output by the first alarm signal issuing means 17, the temperature alarm signal output by the second alarm signal issuing means 18, and the third alarm signal issuing means 19. The administrator terminal 31 used by the administrator who manages the power device 1 and the person in charge of managing the power device 1 based on any of the voltage, current, and resistance value alarm signals. Performs a process of outputting alarm notification information to the person-in-charge terminals 32a, 32b, 32c, and 32d owned by the company, together with information for identifying the power device 1 related to the housing.

The administrator terminal 31 can be configured by a personal computer or the like provided with image information display means such as a monitor. The person-in-charge terminals 32a, 32b, 32c, and 32d can be configured by a mobile terminal such as a smartphone to which the application for system operation of the present invention is downloaded.

The first fire alarm information output means 21 is a power device when the temperature inside the housing temperature monitoring means 11 determines that the temperature inside the housing acquired by the temperature information acquisition means 8 inside the housing exceeds the alarm temperature inside the housing. A process of outputting fire alarm information to the fire alarm system device 40 deployed for 1 is performed.

When the load-side electric circuit temperature monitoring means 12 determines that the temperature of the load-side electric circuit 4 acquired by the electric circuit temperature information acquisition means 9 exceeds the load-side electric circuit alarm temperature, the second fire alarm information output means 22 is used. A process of outputting fire alarm information to the fire alarm system device 40 deployed for the electric power device 1 is performed.

As shown in FIG. 2, the fire alarm system 40 automatically communicates with related organizations such as the fire department, so that even if a fire occurs, the fire department and the like are involved. It is possible to establish a system that enables prompt response by various organizations.

The image information output means 24 is after the first warning signal issuing means 17 outputs the temperature warning signal, or after the second warning signal issuing means 18 outputs the temperature warning signal, or a third. After the alarm signal issuing means 19 outputs the voltage / current / resistance value alarm signal, the image information request information acquired from the administrator terminal 31 and / or the image information request acquired from the person in charge terminals 32a, 32b, 32c, 32d. Based on the information, a process of outputting the image information of the power device 1 taken by the digital camera 41 in real time is performed. As a result, the power device 1 taken by the digital camera 41 on the monitor screen of the administrator terminal 31 or the image information display screens of the person in charge terminals 32a, 32b, 32c, 32d via the wired or wireless network 30. The image information of is displayed in real time.

In the embodiment described above, extension cords or wiring between various power receiving / transforming equipment, distribution boards, distribution boards, lighting boards, power boards, control boards, remote control device boards, distribution boards, distribution boards, etc. It is possible to form a form in which a temperature detecting means for photographing the power device 1 and detecting the temperature is provided in the vicinity of the power device 1 such as a junction box for branch wiring connection.

Alternatively, the temperature of the circuit switch is photographed in the vicinity of a circuit switch of a type different from that of the electric device 2 including a main breaker, a leakage breaker, etc. (for example, a circuit switch such as a magnet switch, a power relay, or a solid state relay). It is also possible to make a form in which a temperature detecting means for detecting the above is deployed.

Further, a temperature detecting means for photographing the power device 1 and detecting the temperature is provided in the vicinity of the power device 1, and the temperature detecting means for photographing the circuit switch and detecting the temperature in the vicinity of the circuit switch. Can also be in the form of being deployed.

As a temperature detecting means for photographing the power device 1 and the circuit switch described above and detecting the temperature, for example, a thermographic camera or the like can be adopted. In a thermographic camera, etc., the image information (for example, heat distribution image) in the power device 1 being photographed and the circuit switch described above, and the power device 1 and the circuit described above are numerically displayed in the heat distribution image. It acquires the temperature information of the switch.

FIG. 24 shows the vicinity of the power device 1 and the circuit switch (for example, a magnet switch, a power relay, etc.) as described above in the system configuration of one embodiment of the digital electric safety control system according to the present invention shown in FIG. An embodiment in which a thermographic camera is deployed as an example of the above-mentioned temperature detecting means in the vicinity of a circuit switch such as a solid state relay) will be described.

In the embodiment of FIG. 24, an example is described in which a device for illuminating an object to be photographed by the thermographic camera is also attached in the vicinity of the thermographic camera.

Although not shown, in the system configurations shown in FIGS. 4 to 23, as illustrated in FIG. 24, various power receiving and transforming equipment, a distribution board, a distribution board, a light board, a power board, a control board, and a remote are used. Near the power device 1 such as an extension cord between a control board, a distribution board, a distribution board, etc. and a device / appliance or a junction box for branch wiring connection of wiring, or a circuit switch (for example, a magnet switch, a power relay, a solid). It can be an embodiment in which a temperature detecting means (for example, a thermographic camera, etc.) for photographing these images and detecting the temperature (for example, a thermographic camera, etc.) and lighting are provided in the vicinity of a circuit switch such as a state relay).

In the case of these embodiments, the detection temperature information output means 26 is the image information and the detection temperature information of the power device 1 taken in real time by the temperature detection means (for example, a thermographic camera, etc.), or the above-mentioned. The image information and the detected temperature information of the circuit switch, or the image information and the detected temperature information of the power device 1 and the image information and the detected temperature information of the circuit switch are sent to the administrator terminal 31 and / or at a predetermined timing. The process of sending to the person in charge terminals 32a to 32d is performed.

The image of the power device 1 taken by the temperature detecting means (for example, a thermographic camera, etc.) in real time by the detected temperature information output means 26 toward the administrator terminal 31 and / or the person in charge terminals 32a to 32d. The above-mentioned information and detection temperature information, image information and detection temperature information of the circuit switch, image information and detection temperature information of the power device 1, and image information and detection temperature information of the circuit switch are transmitted. One of the predetermined timings is when the alarm notification information output means 20 performs a process of outputting the alarm notification information.

That is, the alarm notification information output means 20 has the temperature alarm signal output by the first alarm signal issuing means 17, the temperature alarm signal output by the second alarm signal issuing means 18, and the third alarm signal issuing means 19. Is in charge of managing the administrator terminal 31 used by the administrator who manages the power device 1 and the power device 1 based on any of the voltage, current, and resistance value alarm signals output by. This is when the person in charge terminals 32a, 32b, 32c, and 32d owned by the person in charge are processed to output the alarm notification information together with the information for identifying the power device 1 related to the housing.

Various power receiving and transforming equipment, distribution boards, distribution boards, light boards, power boards, control boards, remote control board boards, etc., taken in real time by the temperature detecting means (for example, a thermographic camera, etc.) at this timing. The heat distribution image of the power device 1, which is an extension cord between the switchboard or distribution board and the equipment / equipment, or the junction box of the branch wiring connection of the wiring, the temperature information displayed numerically in the heat distribution image, and the main breaker. , It is displayed numerically in the heat distribution image of a circuit switch (for example, a circuit switch such as a magnet switch, a power relay, a solid state relay, etc.) different from the electric device 2 including an electric leakage breaker and the heat distribution image. By sending the temperature information to the manager terminal 31 and / or the person in charge terminals 32a to 32d, the manager and the person in charge can grasp the temperature abnormality of the equipment, and the equipment is burnt or a fire accident occurs in advance. It can help prevent it.

Further, as one of the predetermined timings described above, it is also possible to give a predetermined time such as annual, monthly, weekly, daily, hourly or the like.

Various power receiving and transforming equipment, switchboards, distribution boards, light boards, power boards, control boards, remote control device boards, switchboards and minutes taken by the temperature detecting means (for example, thermographic cameras, etc.) in real time. The heat distribution image of the power device 1, which is an extension cord between a switchboard and equipment / equipment or a junction box for branch wiring connection, and the temperature information displayed numerically in the heat distribution image, the main breaker, and the leakage breaker. Heat distribution image of a circuit switch (for example, a circuit switch such as a magnet switch, a power relay, a solid state relay, etc.) different from that of the electric device 2 and temperature information displayed numerically in the heat distribution image. In this way, the administrator and the person in charge acquire the administrator terminal 31 and the person in charge terminals 32a to 32d at predetermined time intervals such as predetermined yearly, monthly, weekly, daily, hourly, etc. By doing so, it is possible to help prevent the equipment from burning and the occurrence of a fire accident.

Further, as one of the other than the above-mentioned predetermined timing, the time when the detection temperature information request information is acquired from the administrator terminal 31 and / or the person in charge terminals 32a to 32d may be mentioned.

The heat distribution image information of the above-mentioned power device 1 and circuit switch, which the manager or the person in charge voluntarily requests and manages or is in charge of, and the heat distribution image are displayed numerically. By acquiring the detected temperature information, it is possible to help prevent the equipment from burning or causing a fire accident.

Various power receiving and transforming equipment, switchboards, distribution boards, light boards, power boards, control boards, remote control device boards, extension cords between equipment / appliances and junction boxes for branch wiring connections, etc. The normal temperature of a circuit switch (for example, a circuit switch such as a magnet switch, a power relay, a solid state relay, etc.) different from that of the power device 1 and the electric device 2 composed of a main breaker, a leakage breaker, etc. is 32. ° C to 40 ° C. By photographing these in real time with a temperature detecting means (for example, a thermographic camera, etc.), the heat distribution image acquired by the temperature detecting means and the detected temperature information displayed numerically in the heat distribution image are used. , The above-mentioned power device 1 and the circuit switch are in a high temperature state that deviates from the normal temperature state (32 ° C to 40 ° C), and it is possible to prevent the equipment from burning or a fire accident. Immediately from the heat distribution image information displayed on the display screens of the administrator terminals 31 and the person in charge terminals 32a to 32d and the detection temperature information displayed numerically in the heat distribution image, it is necessary to take measures for this. It will be possible to grasp and deal with it.

The digital electric safety control system 50 described above as an example of the configuration can be configured from a computer. In this case, although not shown, a CPU, an operating system, and various computers that control the various functions of the system of this embodiment according to the operating system, a predetermined computer program installed or downloaded, and the like. ROM as a storage unit that stores programs, etc., and stores data necessary for the CPU to execute processing for each control, and stores data necessary for the CPU to execute processing, depending on the CPU. It is equipped with a RAM, a hard disk, an information input / output unit such as a communication interface, which is also used as a work area where information can be appropriately rewritten, and is connected by a necessary bus line.

The housing temperature information acquisition means 8 to the power recovery signal output means 25 described above do not need to be configured such that all of them are deployed in one device / device. For example, a device / device having a part of these configurations is deployed in the power device 1, which is deployed at a place away from the power device 1 and has other configurations. It is also possible to connect to another device / device consisting of a computer so that information can be communicated via a wired or wireless network. Alternatively, the power device 1 is provided with a device / device having a part of the above-mentioned internal temperature information acquisition means 8 to the power recovery signal output means 25, which is separated from the power device 1. Other devices / devices that are deployed elsewhere and consist of computers that have some of the other configurations, and other devices that consist of computers that have the rest of the other configurations. -It is also possible to connect the device to the device via a wired or wireless network so that information can be communicated.

For example, the housing temperature information acquisition means 8 can be configured to be in the form of a panel temperature sensor 7 and deployed in the housing of the power device 1. An in-panel temperature sensor 7 is provided in the housing of the power device 1, and the in-panel temperature sensor 7 constantly detects the temperature inside the housing and outputs the detected temperature information as digital information. Is acquired by the communication interface unit of the digital electric safety control system 50 via a wired or wireless network, and the acquired information is recorded by a control unit (not shown) in an information storage means (storage unit) (not shown). , The processing will be performed so as to be subjected to the processing operation by the temperature monitoring means 11 in the housing.

Further, the electric wire temperature information acquisition means 9 can be formed in the form of the electric wire temperature sensor 6 and arranged in the housing of the electric power device 1. An electric wire temperature sensor 6 is provided in the housing of the electric power device 1, and the electric wire temperature sensor 6 constantly detects the temperature of the electric wire path 4 on the load side, outputs the detected temperature information as digital information, and outputs this information. The information acquired by the communication interface unit of the digital electric safety control system 50 via a wired or wireless network is recorded by the control unit (not shown) in the information storage means (storage unit) (not shown), and the load is loaded. The processing is performed so as to be subjected to the processing operation by the side electric circuit temperature monitoring means 12.

Further, the voltage value, the current value and the resistance value are constantly detected by being connected to the load side electric circuit 4, and the voltage / current / resistance value information which is the information about the detected voltage value, the current value and the resistance value of the load side electric circuit 4 is obtained. The electric circuit voltage / current / resistance value information acquisition means 10 that outputs digital information together with the information specifying the power device 1 related to the housing is provided in the housing of the power device 1 as a voltage / current / resistance measuring instrument 5. It can be configured to be stored. A voltage / current / resistance measuring instrument 5 is installed in the housing of the power device 1, and this constantly detects the voltage value, current value, and resistance value of the load side electric circuit 4, and the detected voltage / current / resistance value. Information is output as digital information, this information is acquired by the communication interface unit of the digital electric safety control system 50 via a wired or wireless network, and the acquired information is acquired by a control unit (not shown). It is recorded in the storage means (storage unit) and processed so as to be used for the processing operation by the electric circuit voltage / current / resistance value monitoring means 13.

In the above, the housing internal temperature information acquisition means 8, the electric circuit temperature information acquisition means 9, and the electric circuit voltage / current / resistance value information acquisition means, which are installed in a place away from the electric power device 1 and are installed in the electric power device 1. On the cloud in one or more other devices / devices that are connected to 10 etc. via a wired or wireless network and have some or the rest of the other configurations described above. It can also be configured to include an installed server computer.

FIGS. 4 to 8 describe a configuration in which the digital electric safety control system of the present invention is deployed in an existing lamp board, power board, distribution board, distribution board, control board (remote control device board), junction box, or the like. It is a block diagram to be done.

14 to 18 show, in addition to the configurations shown in FIGS. 4 to 8, respectively, a circuit switch of a type different from that of the electric device 2 including a main breaker, an earth leakage breaker, and the like (for example, in the load side electric circuit). This describes the case where a magnet switch, a power relay, a solid state relay, etc.) are deployed. In FIGS. 14, 15, 16 and 18, a magnet switch is adopted as a circuit switch. In FIG. 17, as a circuit switch, a magnet switch composed of an electromagnetic contactor and a thermal relay is adopted as the circuit switch.

In each figure, the housing internal temperature information acquisition means 8, the electric circuit temperature information acquisition means 9, and the electric circuit voltage / current / resistance value information acquisition means 10 are arranged in the place referred to as the “monitoring system”. Then, the above-mentioned digital electric safety control system 50 is attached to the "central monitoring control device" and the "server", both of which are connected to the "surveillance system" via a wired or wireless network so that information can be communicated. The other unit parts that make up will be deployed respectively.

9 to 13 are block diagrams illustrating the configurations of a lamp board, a power board, a distribution board, a distribution board, a control board (remote control device board), and a junction box in which the digital electric safety control system of the present invention is adopted. Is.

19 to 23, respectively, in addition to the configurations shown in FIGS. 9 to 13, further, in the load side electric circuit, a circuit switch of a type different from that of the electric device 2 including a main breaker, an earth leakage breaker, etc. (for example, This describes the case where a magnet switch, a power relay, a solid state relay, etc.) are deployed. In FIGS. 19, 20, 22, and 23, a magnet switch is adopted as a circuit switch. In FIG. 21, a magnet switch composed of an electromagnetic contactor and a thermal relay is adopted as the circuit switch as the circuit switch.

In each figure, the housing internal temperature information acquisition means 8, the electric circuit temperature information acquisition means 9, and the electric circuit voltage / current / resistance value information acquisition means 10 are arranged in the place referred to as the “monitoring system”. Then, the above-mentioned digital electric safety control system 50 is attached to the "central monitoring control device" and the "server", both of which are connected to the "surveillance system" via a wired or wireless network so that information can be communicated. The other unit parts that make up will be deployed respectively.

According to the digital electric safety control system of this embodiment, the power cutoff signal from the first power cutoff means 14, the second power cutoff means 15, and the third power cutoff means 16 in the predetermined cases described above, respectively. Is output, and the power supply from the power supply side electric circuit to the load side electric circuit is cut off. In this case, at the same time, the power is supplied by the first alarm signal issuing means 17, the second alarm signal issuing means 18, the third alarm signal issuing means 19, and the alarm notification information output means 20 as described above. Power that operates under the supply of electricity such as cut-off loads (motors, elevators, air conditioning equipment, ventilation equipment, lighting equipment, refrigerating / freezing cases, refrigerators / freezers, measuring instruments, computer equipment, surveillance cameras, medical equipment, etc.)・ Electrical equipment / equipment that is deployed and used regardless of whether it is inside or outside a building, etc., and is deployed and used in vehicles / transportation means such as trains / cars / aircraft / ships. It is owned by the administrator terminal 31 used by the administrator who manages the electric power device and the person in charge of managing the electric power device, along with information that can identify (electric power, electric device, equipment, etc.). The person in charge terminal 32a, 32b, 32c, 32d is notified.

Therefore, the administrator and the person in charge can immediately take necessary measures when the above-mentioned load in which the power supply is cut off is a load that should be restored in an instant.

The digital electric safety control system of the present invention is, for example, a building, a train, a ship, a car, an airplane, an elevator, a factory, a laboratory, a power plant, a substation, a computer power supply, a prime mover, an air conditioner, a ventilation, a lighting, a refrigerating / freezing case. , Refrigerator / freezer, solar power generation, wind power generation, rocket, storage battery, communication equipment, etc. and power supply, transmission line, trunk line, wiring, connection equipment, measuring instrument, communication equipment, etc. , Equipment, equipment, etc.

Claims (7)

A power device in which the power supply side electric circuit from the power supply side and the load side electric circuit toward the load are electrically connected via an electric device installed in the housing, and a power device.
Acquisition of housing temperature information that constantly detects the temperature inside the housing and outputs the detected temperature information inside the housing as digital information together with information that identifies the power device related to the housing. Means and
Acquisition of electric circuit temperature information that constantly detects the temperature of the load-side electric circuit and outputs the electric circuit temperature information, which is information about the temperature of the detected load-side electric circuit, as digital information together with information for identifying the electric power device related to the housing. Means and
It is connected to the load side electric circuit and constantly detects the voltage value, the current value and the resistance value, and the voltage / current / resistance value information which is the information about the detected voltage value, the current value and the resistance value of the load side electric circuit is stored in the case. An electric circuit voltage / current / resistance value information acquisition means that outputs digital information together with information that identifies the power device related to the body, and
A housing temperature monitoring means that compares the temperature inside the housing acquired by the housing temperature information acquisition means with a preset temperature inside the housing.
A load-side electric circuit temperature monitoring means that compares the temperature of the load-side electric circuit acquired by the electric circuit temperature information acquisition means with a preset load-side electric circuit monitoring temperature.
Electric circuit voltage / current / resistance value monitoring that compares the electric circuit voltage / current / resistance value acquired by the electric circuit voltage / current / resistance value information acquisition means with the preset load-side electric circuit monitoring voltage / current / resistance value. Means and
When the housing temperature monitoring means determines that the temperature inside the housing acquired by the housing temperature information acquisition means exceeds the monitoring temperature inside the housing, the load is applied from the power supply side electric circuit via the electric device. The first power cutoff means that outputs a signal to cut off the power supply to the side electric circuit,
When the load-side electric circuit temperature monitoring means determines that the temperature of the load-side electric circuit acquired by the electric circuit temperature information acquisition means exceeds the load-side electric circuit monitoring temperature, the power supply-side electric circuit via the electric device is used. A second power cutoff means for outputting a signal for cutting off the power supply to the load side electric circuit, and
When the electric circuit voltage / current / resistance value acquired by the electric circuit voltage / current / resistance value information acquisition means exceeds the load side electric circuit monitoring voltage / current / resistance value, the load side electric circuit voltage / current / resistance value monitoring means A third power cutoff means that outputs a signal for cutting off the power supply from the power supply side electric line to the load side electric line via the electric device when the determination is made.
When the temperature inside the housing determines that the temperature inside the housing acquired by the temperature information acquisition means inside the housing exceeds the monitoring temperature inside the housing, the information for identifying the power device related to the housing is also included. , The first means of issuing an alarm signal to output a temperature alarm signal,
When the load-side electric circuit temperature monitoring means determines that the temperature of the load-side electric circuit acquired by the electric circuit temperature information acquisition means exceeds the load-side electric circuit monitoring temperature, the power device related to the housing is specified. A second alarm signal issuing means that outputs a temperature alarm signal together with information,
The electric circuit voltage / current / resistance value monitoring means determines that the electric circuit voltage / current / resistance value acquired by the electric circuit voltage / current / resistance value information acquisition means exceeds the load side electric circuit monitoring voltage / current / resistance value. At that time, a third alarm signal issuing means for outputting a voltage / current / resistance value alarm signal together with information for specifying the power device related to the housing.
The temperature alarm signal output by the first alarm signal issuing means, the temperature alarm signal output by the second alarm signal issuing means, and the voltage / current / resistance value output by the third alarm signal issuing means. Based on one of the alarm signals, to the administrator terminal used by the administrator who manages the power device and the person in charge terminal owned by the person in charge of managing the power device. On the other hand, a digital electric safety control system including an alarm notification information output means for outputting alarm notification information together with information for specifying the power device related to the housing. A circuit switch of a type different from that of the electric device is installed in the load side electric circuit.
The power cutoff signal output from each of the first power cutoff means, the second power cutoff means, and the third power cutoff means is output to either the electric device or the circuit switch. The digital electric safety control system according to claim 1. The digital according to claim 2, wherein the power cutoff signal output from each of the first power cutoff means, the second power cutoff means, and the third power cutoff means is output to the circuit switch. Electric safety control system. 3. The third aspect of the present invention includes a power recovery signal output unit that outputs a power recovery signal for restoring the power supply to the load via the load side electric circuit to the circuit switch that has received the power cutoff signal. Described digital electric safety control system. The temperature inside the housing monitoring means further compares the temperature inside the housing acquired by the temperature information acquisition means inside the housing with the preset alarm temperature inside the housing.
The load-side electric circuit temperature monitoring means further compares the temperature of the load-side electric circuit acquired by the electric circuit temperature information acquisition means with the preset load-side electric circuit alarm temperature.
A fire alarm system installed for the power device when the temperature monitoring means in the housing determines that the temperature in the housing acquired by the temperature information acquisition means in the housing exceeds the alarm temperature in the housing. The first fire alarm information output means that outputs fire alarm information to the equipment,
When the load-side electric circuit temperature monitoring means determines that the temperature of the load-side electric circuit acquired by the electric circuit temperature information acquisition means exceeds the load-side electric circuit alarm temperature, the said device is deployed to the electric power device. A second fire alarm information output means that outputs fire alarm information to the fire alarm system,
The digital electric safety control system according to any one of claims 1 to 4, further comprising. A digital camera for photographing the electric power device is deployed in the vicinity of the electric power device.
After the first alarm signal issuing means outputs the temperature alarm signal, or after the second alarm signal issuing means outputs the temperature alarm signal, or after the third alarm signal issuing means outputs the temperature alarm signal, the third alarm signal issuing means said. After outputting the voltage / current / resistance value alarm signal, the digital camera takes a picture based on the image information request information acquired from the administrator terminal and / or the image information request information acquired from the person in charge terminal. The digital electric safety control system according to any one of claims 1 to 5, further comprising an image information output means for outputting image information of the power device in real time. A temperature detecting means for photographing the electric power device and detecting the temperature is provided in the vicinity of the electric power device, or
A temperature detecting means for photographing the circuit switch and detecting the temperature is provided in the vicinity of the circuit switch, or
A temperature detecting means for photographing the electric power device and detecting the temperature and a temperature detecting means for photographing the circuit switch and detecting the temperature are provided in the vicinity of the electric power device and the vicinity of the circuit switch, respectively.
Image information and detection temperature information of the power device that the temperature detecting means captures and detects in real time, image information and detection temperature information of the circuit switch, or image information and detection temperature information of the power device. And the image information and the detected temperature information of the circuit switch.
The digital electric safety control system according to claim 2, further comprising a detection temperature information output means for transmitting to the administrator terminal and / or the person in charge terminal at a predetermined timing.

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