JP3515080B2 - Power monitor and switchboard system using the same - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power monitor that is installed in a distribution board installed in each partition such as a building to measure and collect current, power and various information of each partition, and current of each partition at a management place. , A power distribution board system for monitoring electric power and various information.

[0002]

2. Description of the Related Art In a building or the like, a distribution board is installed in each section, and the current and power consumption of each section measured in each distribution board are managed to save energy or for safety management. Are required to be monitored in.
In addition to current current and power consumption, information on integrated amount such as integrated power, water usage, gas usage, abnormality of air conditioning equipment, temperature abnormality of power equipment such as transformers and capacitors, fire, etc. There is information such as the abnormal information of 1., and it is desirable that such information can be monitored at the management place at the same time.

Among such information, current and power consumption are monitored by a power monitor, and integrated power, water consumption, gas consumption, etc.
Abnormalities and fires in electric power equipment and the like are usually obtained by contact signals, and conventionally, information was transmitted by individually wiring to a centralized monitoring panel provided at the monitoring location. However, there is a problem that the amount of wiring becomes enormous and it costs a lot of money if wiring is done individually.To solve this problem, an interface is attached to each of the power monitor, instrument, contact signal circuit, etc., and common transmission is performed. Connect to the wire,
A system was conceived in which information was collected by sequentially calling each power monitor, measuring instrument, contact signal circuit, etc. from a centralized monitoring board. However, such a system requires individual identification numbers for each power monitor, meter, contact signal circuit, etc., and if there are many monitored objects, the identification numbers will be insufficient and it will take a lot of time to collect information. It was

Further, conventionally, such information is only displayed on the centralized monitoring panel and cannot be collected from the outside.
In order to manage the information of a large number of buildings and the like by the upper manager, it is necessary to deliver the written or printed information of the buildings and the like. Such written or printed information is difficult to manage by using it, and there is a problem that effective management cannot be achieved.

[0005]

SUMMARY OF THE INVENTION The present invention solves the above problems and enables information to be collected in a short time without giving individual identification numbers to the power monitors, meters and contact signal circuits installed in each section. , A power monitor capable of collecting information from the outside of the centralized monitoring board and a switchboard system using the power monitor.

[0006]

The power monitor of the present invention, which has been made to solve the above problems, inputs an analog signal in a power monitor which measures and collects current, power and various information from various measurement sensors. It is composed of an analog input section, a digital input section for inputting a digital signal, and a transmission interface connected to a common transmission line, and incorporates information obtained from the analog signal and information obtained from the digital signal into a single unit. And a digital input section is a continuous binary signal.
Or a pulse train signal can be input, and the input data
Input signal depending on whether the digital signal is a binary signal or a pulse train signal
Processing switching means comprising characterized in the provision of the switching means, the provision of storage means for time-sequentially storing the information collected from the various measuring sensors, the measurement points from the measurement values of the various measurement sensors By providing a determination unit for determining an abnormality, the determination unit outputs a control signal for controlling the device in which the abnormality has occurred, and the interrupt priority can be set for the electronic message generated by the electronic message generating means. Can be materialized.

Further, in a switchboard system of the present invention made to solve the same problem, a plurality of power monitors according to any one of claims 1 to 4 are connected to a common transmission line, and the common transmission line is connected. The connection means for connecting the terminal device is provided, the connection means for connecting the terminal device is to use a wireless communication system such as infrared rays, radio waves, the terminal device This can be realized by allowing the basic information of various sensors to be set for the power monitor.

[0008]

BEST MODE FOR CARRYING OUT THE INVENTION Next, embodiments of the present invention will be specifically described. FIG. 1 shows an embodiment of a power monitor of the present invention. An analog interface 2, a digital interface 3 and an address setter 4 are connected to an input port of a microprocessor 1 and a transmission interface 5 is connected to an output port thereof. . The address setter 4 is composed of a digital switch, a DIP switch, etc., and sets the identification number of the power monitor individually. An analog measurement sensor CT or PT is connected to the input terminal 6 of the analog interface 2, and a digital measurement sensor alarm contact such as an air conditioner or an electric power device is connected to the input terminal 7 of the digital interface 3.
Connect a pulse transmission type gas flow meter, water flow meter, etc. A switching device 8 is connected to the digital interface 3, and the switching device 8 switches the processing means of the input signal depending on whether an alarm contact or a pulse transmission type instrument is connected to the input terminal 7. It is a thing. That is, in the case of an alarm contact, the time constant is made large, and in the case of a pulse transmission type instrument, the time constant is made small and the microprocessor 1 processes. The transmission / reception terminal 9 of the transmission interface 5 is connected to a common transmission path such as RS-485. Reference numeral 10 denotes a storage device connected to the microprocessor 1 for storing measurement data of various measurement sensors in time series.

FIG. 2 shows an embodiment of a switchboard system of the present invention, which is an example applied to a three-story building. The distribution boards provided in each section on the first floor have the power monitors 11a and 11a configured as described above, and the distribution boards on each section on the second floor have the power monitors 11b and 11b respectively. Electric power monitors 11c and 11c are incorporated in the distribution board. Each power monitor 11a, 11a, 11b, 11
The transmission / reception terminals 9 of b, 11c, and 11c are the common transmission line 12
Connected to. Monitoring boards 13a, 13b, 13c for monitoring the floors are provided on each floor, and a centralized monitoring board 14 is provided for managing the entire building.
A transmission interface is incorporated in 3a, 13b, 13c and the central monitoring board 14 and connected to the transmission line 12.
Further, the transmission line 12 is connected with a connecting means 15 for connecting a terminal device 16.

The power monitor 11a configured as described above,
11b and 11c measure current, voltage, power factor, and power from the inputted CT and PT signals. Where C
According to the specifications of T and PT, even if the input signal voltage of the power monitor is the same, the actual current and the actual voltage are different, so a coefficient setting device is provided and the calculation for converting into the actual current and the actual voltage is performed based on the setting of the coefficient setting device. And Further, when the alarm contact is connected, the activated or inactivated state of each alarm contact is taken in, and when the pulse transmission type instrument is connected, the pulse is counted and the integrated value is stored.

When there is a request for information from any of the monitoring boards 13a, 13b, 13c and the centralized monitoring board 14, an information request message is sent from the monitoring board to the transmission line 12.
The telegram of the information request sent to the transmission path 12 by the monitoring board is composed of a start mark, the identification number of the target power monitor, the requested information item, and the end mark. Each power monitor 11a that has read a message from the monitoring board on the transmission path 12,
11b and 11c compare the identification number of the target power monitor in the telegram with the identification number of its own set by the address setter 4. The power monitor with the same identification number composes a message by combining the items of information requested by the message generating means, and sends the message from the transmission interface 5 to the transmission line 12. The message sent by this power monitor is composed of a start mark, its own identification number, requested item information, and an end mark, and all requested information is made into a single message. These processes are performed by the microprocessor 1, and the electronic message generating means is also actually performed by the microprocessor 1.

The monitor board requesting the information reads the information sent from the target power monitor on the transmission line 12 and displays it on the board surface. That is, the current values of current, voltage, power factor, electric power, the state of alarm contacts, and the integrated values of the flow rates of water, gas, etc. are displayed. Therefore, if the telegram of the information request is sent from the surveillance board to the transmission path 12 at regular intervals corresponding to the display update interval of the surveillance board, the information from the target power monitor can be obtained and the display can be updated. In this way, the information on the meters and contact signal circuits in each section is taken in by the power monitor installed in each section, and the current values of current, voltage, power factor, power, alarm contact status, water, gas, etc. Since the integrated value of the flow rate of is sent in a single telegram, there is no need to give individual identification numbers to the power monitors, meters, and contact signal circuits installed in each section, and there is an advantage that information can be collected in a short time. is there.

Here, the monitoring boards 13a, 13b,
13c or the centralized monitoring board 14 does not individually request information, but the centralized monitoring board 14 sends out information request telegrams at fixed time intervals, and the monitoring boards 13a, 1
It is also possible for 3b and 13c to intercept the exchange of messages between the centralized monitoring board 14 and each power monitor, and to take in only the necessary information to each monitoring board 13a, 13b and 13c.

Further, it is possible to set the interrupt priority in the above-mentioned telegram according to its urgency. That is, when the interrupt priority is set, the message sent from the above-mentioned power monitors 11a, 11b, 11c is composed of a start mark, its own identification number, an interrupt code, information of the requested item, and an end mark. It will be. When the power monitor 11a, 11b, 11c sends out a message including an interrupt code having a high interrupt priority, each of the monitoring boards 13a, 13b, 13c that has received the message.
Also, the centralized monitoring board 14 interrupts the processing of other electronic messages, and performs processing such as displaying information of electronic messages having a high priority of interrupt codes and outputting an alarm. Here, the power monitors 11a, 11
b and 11c give an interrupt code with a high priority when signals received from various sensors deviate from a specified value, and send a telegram in priority to other measurement results.
By setting the interrupt priority in this way, emergency information such as a fire can be displayed on the monitoring panel with priority over other information.

On the other hand, if the abnormal values of the measurement results are stored in the storage device 10 in time series, the storage device 10 of each power monitor from the terminal device 16 via the connecting means 15 and the transmission line 12.
An information request message can be sent to the device and the information sent from the target power monitor can be read. The connection between the terminal device 16 and the connection means 15 is preferably made by infrared rays, radio waves, etc. without using a cable, and the terminal device 16 is carried by a chief administrator or the like as a laptop personal computer, for example. If you collect and build a database, you can manage many buildings. Alternatively, it is possible to connect to a terminal device fixedly provided in a remote place by wire or wirelessly.

Further, it is preferable that the basic information of various measuring sensors is input from the terminal device 16 to each power monitor through the transmission path 12. For example, when inputting the rated current of the ammeter connected to a certain power monitor, the telegram of the basic information should include the start mark, the identification number of the target power monitor, the connection port number of the target measurement device, the set value, and the end mark. In this configuration, the terminal device 16 transmits the power to the power monitor and stores the power monitor. By doing this, the terminal device 1
The basic information can be set for all the power monitors connected from 6 to the transmission line 12. It should be noted that this basic information is provided for each monitoring panel 13a, 13b, 13c and central monitoring panel 1
It may also be possible to start from 4.

Further, it is desirable that the microprocessor 1 judges an abnormal value of various measured values and outputs a control signal to control the device when an abnormality occurs. For example, when the value of the power meter for measuring the power consumption of the cooling device connected to the input terminal 6 of the analog interface 2 greatly exceeds the preset power, the microprocessor 1 causes the cooling via the digital interface 3. While sending a control signal for operation stop to the device,
Send the message "Cooling device error" to the remote monitoring panel. By controlling in this way, it is possible to quickly respond to an abnormality.

If the power monitor has the same mounting dimensions as those of a breaker often incorporated in a general distribution board, it can be mounted side by side with the breaker on a breaker mounting rail in the distribution board. Has the advantage of being easier. Further, the power monitor is preferably provided with a power supply display lamp, a transmission display lamp, and an alarm output, and it is preferable that the address setter and the coefficient setter can be set from outside the housing of the power monitor.

[0019]

As is apparent from the above description, the present invention is such that the power monitor takes in the information of the instrument and the contact signal circuit and transmits the information in a single telegram.
It is not necessary to give individual identification numbers to power monitors, meters, and contact signal circuits. In addition, if a power distribution board system is configured using this power monitor, not only can information be collected from the centralized monitoring board in a short time, but information can also be collected from outside the centralized monitoring board. It is extremely significant that it contributes to the industry by providing a power monitor that solves all of the above and a switchboard system using the power monitor.

[Brief description of drawings]

FIG. 1 is a block diagram showing a configuration of a power monitor of the present invention.

FIG. 2 is a block diagram showing an embodiment of a switchboard system of the present invention.

[Explanation of symbols]

1 microprocessor 2 analog interface 3 digital interface 4 address setting device 5 Transmission interface 6 input terminals 7 input terminals 8 switch 9 Send / receive terminal 10 storage device 11a, 11b, 11c Power monitor 12 transmission lines 13a, 13b, 13c Monitoring board 14 Central monitoring board 15 Connection means 16 terminal equipment

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI H04Q 9/00 311 H04Q 9/00 311H 321 321E (56) Reference JP-A-5-273241 (JP, A) JP-A-59 -190792 (JP, A) JP 2000-193695 (JP, A) JP 5-56936 (JP, A) (58) Fields investigated (Int.Cl. ⁷ , DB name) G01R 11 / 00-11 / 66 G01R 21/00-22/00 130 G08C 15/00-15/12 H02J 13/00 301 H04Q 9/00 301 H04Q 9/00 311 H04Q 9/00 321

Claims (6)

(57) [Claims] 1. A power monitor for measuring and collecting current, power, and various information from various measuring sensors, and an analog input section for inputting an analog signal and a digital input section for inputting a digital signal are connected to a common transmission line. It is composed of a transmission interface , and is provided with a message generating means for incorporating information obtained from an analog signal and information obtained from a digital signal into a single message , and a digital input.
A continuous binary signal or pulse train signal can be input to the force section
And the input digital signal is a binary signal or a
Switching that switches the processing means of the input signal depending on whether it is a loose train signal
An electric power monitor characterized by comprising means . 2. The power monitor according to claim 1, further comprising storage means for storing information collected from various measurement sensors in time series. 3. The measurement point differs from the measurement values of various measurement sensors.
Equipped with a judgment unit for judging the normal condition, the judgment unit has an abnormality
It is characterized by outputting a control signal for controlling the equipment.
The power monitor according to claim 1 or 2, characterized in that
Ta. 4. An electronic message generated by the electronic message generating means
A contract characterized by being able to set priority
The power monitor according to any one of claims 1 to 3. 5. The power monitor according to any one of claims 1 to 4.
Multiple terminals to a common transmission line and connect the terminals to the common transmission line.
Characterized by providing a connecting means for connecting a device
Switchboard system. 6. The connecting means for connecting a terminal device is infrared.
It is assumed that a wireless communication method such as line or radio wave is used, and the terminal
The device sets basic information of various sensors for each power monitor
The switchboard system according to claim 3, characterized in that
Stem.