JP2004101476A - Current sensing judging determining device and setting terminal device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a current sensing judging device which senses a current flowing a terminal device which is monitored for judging change of the current, and reports judgement. <P>SOLUTION: A power-source tap type current sensing judging device 1 comprises a sensor for measuring a current for each output port 19, and is connected to a terminal device using a network connection terminal 18 through a network. Related to the current sensing judging device 1, a mode switch 13 switches among "stop", "monitor", and "set", and pressing a setting button 14 measures and stores a current value which is a reference for judgement. At the terminal device, a judging method with the current sensing judging device 1 is selected and various settings are done, and a data is transmitted to the current sensing judging device 1. The current sensing judging device 1 senses and judges the current of each output port based on the judging criteria set at the terminal device and the current sensing judging device 1, and reports judgement result to the terminal device. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a current detection determination device and a setting terminal device, and more particularly, to a current detection determination device that detects a current supplied to a connected device in a power supply device, determines a change in current, and reports the determination result, and a determination device. The present invention relates to a setting terminal device for setting a criterion.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, current measuring devices mainly measure current and display a measurement result in an analog or digital manner on a display unit of the device, and there are also devices that continuously measure and record the current. The power supply device is generally of a power tap type having at least one input port inserted into an outlet disposed on a wall of a facility or the like and one output port into which a plug of a connected device is inserted. However, in recent years, a power on / off switch is provided for each output port, a power is turned off when the amount of used current is measured and exceeds a threshold, or a power on / off is remotely controlled by connecting to a management computer via a network. Power supplies with various functions, such as those that can be operated and those that can measure and display the amount of power used, are also used.
[0003]
[Problems to be solved by the invention]
2. Description of the Related Art In recent years, a large number of computer devices are used in various places such as homes, stores, offices, and the like, and information stored therein has become important. Therefore, in order to protect the information of the computer device, it is necessary to monitor the usage status for unauthorized use. In offices and other places where a large number of electrical devices are installed, the operating conditions such as the frequency and time of use of each device are monitored, and high-performance devices are installed in locations that are frequently used or additional devices are added. Device management, such as removing devices that are rarely used. As a method of monitoring the frequency of use of the electric device, a method of providing the monitored terminal itself with a monitoring function or installing a monitoring program on the monitored device can be considered. However, in the former method, development is required for each device, and the cost is high. Also, it is not possible to monitor equipment that is already in use. In the latter case, it is necessary to perform installation work on each of the monitored devices, and there is a concern that installing a new monitoring program will have some influence on other programs. Also, it can only manage the operating state of the monitored device.
[0004]
Therefore, instead of installing any kind of monitoring system in the monitored device, a method of monitoring the state by detecting and determining the amount of current supplied to the monitored device in consideration of the current consumption of the monitored device. think of.
[0005]
The present invention has been made to solve the above problems, and provides a current detection determination device that detects a current supplied to a monitored device, determines a change in the current, and notifies the determination. With the goal.
[0006]
[Means for Solving the Problems]
In order to solve the above problem, a current detection determination device according to the present invention is a current detection determination device that detects a current, determines a change in the current, and notifies the result of the change. Measuring means for measuring a current value flowing through the device, analog-to-digital conversion means for converting the measured current value measured by the measuring means to digital data, and measuring current value converted to digital data by the analog-to-digital conversion means. Current value storage means for storing, reference current value setting means for setting a current value serving as a reference when judging a change in current, and one or more reference current values set by the reference current value setting means A reference current value storage unit that performs the measurement based on the measured current value stored in the current value storage unit and the reference current value stored in the reference current value storage unit. Change determining means for determining whether a predetermined change in the change in current and a notifying means for notifying the determination result when it is determined that the predetermined change by the determining means.
[0007]
In the current detection / judgment device having this configuration, the measuring means measures a current value flowing through the current detection / judgment device, and the analog-to-digital conversion means converts the measured current value measured by the measurement means into digital data, and stores the current value. The means stores the measured current value converted into digital data by the analog-to-digital conversion means, and the reference current value setting means sets a current value serving as a reference when determining a change in current, and a reference current value storage means Stores one or more reference current values set by the reference current value setting means, and determines the measured current value stored in the current value storage means and the reference current value stored in the reference current value storage means. , And determines whether or not the change in the current is a predetermined change. The notification unit notifies the determination result when the determination unit determines that the change in the current is the predetermined change.
[0008]
In addition, in the current detection determination device according to the second aspect of the present invention, in addition to the configuration of the first aspect of the invention, the determination unit may determine that the measured current value stored in the current value storage unit is the reference current. First determining means for determining whether or not the current value is equal to or greater than the reference current value stored in the value storing means; and the previous determining means in which the measured current value stored in the current value storing means is stored in the current value storing means. And a second determining means for determining whether or not the measured current value is the same as the previously measured current value.
[0009]
In the current detection determination device having this configuration, in addition to the function of the invention described in claim 1, the first determination means provided in the determination means may store the measured current value stored in the current value storage means in the reference current value storage. The second determining means determines whether the measured current value stored in the current value storing means is equal to or greater than the reference current value stored in the means. It is determined whether or not the current value is equal to a certain previously measured current value.
[0010]
According to a third aspect of the present invention, in addition to the configuration of the first aspect of the invention, the determination unit is configured to be measured by the measurement unit during a predetermined period and to be digitally converted by the analog-to-digital conversion unit. And a third determination unit configured to determine whether a predetermined number of measured current values among the plurality of measured current values converted into data are equal to or greater than the reference current value. .
[0011]
In the current detection determination device having this configuration, in addition to the operation of the invention described in claim 1, the third determination device of the determination device is measured by the measurement device for a predetermined period, and is converted into digital data by the analog-to-digital conversion device. It is determined whether or not a predetermined number of measured current values among the plurality of measured current values is equal to or greater than the reference current value.
[0012]
According to a fourth aspect of the present invention, in addition to the configuration of the first aspect of the present invention, the current detection determination device can be connected to an outlet serving as an electricity supply port. Input means for inputting a current; and one or more output means capable of connecting a power plug of an electric device and outputting a current to the power plug, wherein the output means includes the measuring means and the analog digital And means are provided.
[0013]
In the current detection / judgment device having this configuration, in addition to the operation of the invention according to any one of claims 1 to 3, the input means can be connected to an outlet which is an electric supply port, and a current is input. Alternatively, the plurality of output units can be connected to a power plug of an electric device and output a current to the power plug. The measuring means and the analog / digital means are provided in the respective output means.
[0014]
According to a fifth aspect of the present invention, in addition to the configuration according to any one of the first to fourth aspects, the current detection determining apparatus further includes a setting terminal device configured to perform settings related to determination and notification. A current detection and determination device connected to a setting terminal device via a network, the receiving device receiving information related to determination and notification set in the setting terminal device; and an information storage device storing the information received by the reception device. And a configuration characterized by having:
[0015]
In the current detection / judgment device having this configuration, in addition to the operation of the invention according to any one of claims 1 to 4, the receiving unit receives the information related to the judgment and notification set in the setting terminal device, and the information storage unit Stores the information received by the receiving means.
[0016]
In addition, in the current detection determination device of the invention according to claim 6, in addition to the configuration of the invention described in claim 5, the information is notification information as to whether or not to perform notification, and a reference for determining a current change. It is a configuration characterized by being at least one of the determination criterion information and the determination program for performing the determination.
[0017]
In the current detection determination device having this configuration, in addition to the operation of the invention described in claim 5, the information includes notification information as to whether or not to perform notification, determination reference information serving as a reference for determining a current change, and determination. At least one of the determination programs is used.
[0018]
According to a seventh aspect of the present invention, in addition to the configuration according to any one of the first to sixth aspects, the notifying means of the current detection / judgment device is provided with the current detection / judgment device. Buzzer or lamp.
[0019]
In the current detection / judgment device having this configuration, in addition to the operation of the invention described in any one of claims 1 to 6, a buzzer or a lamp attached to the current detection / judgment device is used as the notification means of the current detection / judgment device.
[0020]
Further, in the current detection / judgment device of the invention according to claim 8, in addition to the configuration of the invention according to any one of claims 1 to 7, the current detection / judgment device is a notification terminal device for notifying a change in current. A current detection determination device connected to a notification terminal device via a network, wherein the notification device generates notification information to be transmitted to the notification terminal device based on the determination result; and And a notification information transmitting means for transmitting to the terminal device.
[0021]
In the current detection determination device having this configuration, in addition to the operation of the invention according to any one of claims 1 to 7, the notification information creation unit of the notification unit determines the notification information to be transmitted to the notification terminal device based on the determination result. The notification information transmitting unit generates the notification information and transmits the notification information to the notification terminal device.
[0022]
Further, in the setting terminal device according to the ninth aspect of the present invention, a network is connected to the current detection determination device according to any one of claims 1 to 8, which detects the current, determines a change in the current, and notifies the result. A setting terminal for setting information relating to determination and notification, a determination method selecting means for selecting one of a plurality of determination methods, and a current detection determination for information relating to determination and notification. Transmission means for transmitting to the device.
[0023]
In the configuration terminal device having this configuration, the setting unit sets information related to determination and notification, the determination method selection unit selects one determination method from a plurality of determination methods, and the transmission unit transmits information related to determination and notification. Transmit to the current detection determination device.
[0024]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram of a configuration of a device according to an embodiment of the present invention. The current detection / judgment device 1 is in the form of a power tap, is connected to the outlet 4, supplies power to the personal computer 51, the display 52, the printer 53, and the scanner 54, and monitors the amount of current flowing to each connected device. . Furthermore, the current detection determination device 1 is connected to the terminal device 3 via the network 2. The terminal device 3 selects a determination method in the current detection determination device 1 and sets whether or not to perform notification, and is connected to each output port 19 of the current detection determination device 1 (see FIG. 2). A determination result of detecting and determining the amount of current flowing to the monitored device such as the personal computer 51 is received from the current detection determination device 1.
[0025]
Next, an external structure of the current detection determination device 1 will be described with reference to FIG. The current detection determination device 1 is provided with an input port 20 for connecting to an outlet, and further provided with four output ports 19 into which a plug of a power supply destination device is inserted (19a, 19b, 19c, 19d). . Further, a network connection terminal 18 for inserting a network cable (not shown) for connection to the network 2 is provided. Further, a mode switch 13 for setting an operation mode of the current detection determination device 1 and a setting button 14 for setting a current value serving as a reference for current detection determination are provided. The mode switch 13 is provided with three modes of “stop”, “monitoring”, and “setting”, and the mode can be switched by adjusting the knob to each character. In the "stop" mode, neither monitoring nor setting is performed. In the "monitoring" mode, the current value of each output port 19 is detected and determined for monitoring. In the "setting" mode, the monitoring is performed in the "monitoring" mode. Measure and set the current value that is the reference for the judgment. Further, in the "setting" mode, lamps 22 indicating which output port 19 is used are provided corresponding to the four output ports 19 (22a, 22b, 22c, 22d).
[0026]
Next, the structure of the current detection determination device 1 will be described with reference to FIG. FIG. 3 is a block diagram of an electrical configuration of the current detection determination device 1. As shown in FIG. 3, the current detection / judgment device 1 is provided with a CPU 12 for controlling the current detection / judgment device 1, and the CPU 12 temporarily stores a ROM 15 storing programs and the like and various data. A RAM 16 is connected to a nonvolatile RAM 17 for storing setting information for current detection determination, and further connected to a mode switch 13, a setting button 14, a network connection terminal 18, and a timer circuit 21.
[0027]
Further, an input port 20 for inputting a current from the external outlet 4 is provided, and the input port 20 is connected to four output ports 19 (19a, 19b, 19c, 19d) via the sensor 10 for detecting the current. The sensor 10 is a non-contact type sensor that measures an electromagnetic wave around a wire, and four sensors 10 are provided for each output port 19 (10a, 10b, 10c, 10d). Further, the sensor 10 is provided with A / D converters 11 for converting the current value measured by the sensor 10 from analog data to digital data (11a, 11b, 11c, 11d), and is connected to the CPU 12. . Here, the output port number of the output port 19a is 1. The output port 19b has an output port number of 2. The output port 19c has an output port number of 3. The output port 19d has an output port number of 4.
[0028]
The non-volatile RAM 17 includes a reception setting data storage area 170 for storing setting data transmitted from the terminal device 3 and a reference value table storage area for storing reference current values measured and set by the current detection determination device 1. 171, a determination method 1 setting table storage area 172 in which setting values relating to determination method 1 are stored, and a determination method 2 setting table storage area 173 in which setting values relating to determination method 2 are stored. Further, the RAM 16 stores a previous measurement value table storage area 161, a determination data storage area 162, a notification data storage area 163, and a monitoring data storage area 164 used in the monitoring mode processing.
[0029]
Next, the structure of the terminal device 3 will be described with reference to FIG. FIG. 4 is a block diagram of an electrical configuration of the terminal device 3. As shown in FIG. 4, the terminal device 3 is provided with a CPU 30 that controls the terminal device 3. The CPU 30 includes a RAM 31 for temporarily storing various data, a ROM 32 for storing BIOS and the like, Is connected to the I / O interface 33 which mediates the transfer of the data. A hard disk device 38 is connected to the I / O interface 33. The hard disk device 38 has a setting data storage area 380, another information storage area 381, and a program storage area 382 storing programs executed by the CPU 30. Are provided.
[0030]
A video controller 34, a key controller 35, a CD-ROM drive 36, and a LAN card 39 are connected to the I / O interface 33, a CRT 41 is connected to the video controller 34, and a key controller 35 is connected to the key controller 35. A keyboard 42 is connected, a router 40 is connected to the LAN card 39, and a connection to the network 2 is enabled. A control program for the terminal device 3 is stored in a CD-ROM 37 inserted into the CD-ROM drive 36. At the time of introduction, the control program is set up in the hard disk device 38 from the CD-ROM 37 and stored in a program. It is stored in the area 382.
[0031]
In the current detection determination device 1 of the present embodiment, the determination method can be selected from two types of determination methods. In the determination method 1, a plurality of reference values are set for each output port 19 of the current detection determination device 1, and a change in the measured value of the current flowing through the output port 19 is determined based on the reference values. And inform. In detail, when the reference values are set to reference value 1, reference value 2, and reference value 3 in order from the largest value, if the measured value is equal to or more than reference value 1, state 1 and the measured value is less than reference value 1. State 2 if the reference value is 2 or more, state 3 if the measured value is less than the reference value 2, state 3 if the measured value is 3 or more, and state 4 if the measured value is less than the reference value 3. Thus, the states of the measured values are classified into four, and whether or not to notify each state is set. Then, when the measured value is different from the previous measured value, if the setting for notifying in the state of the measured value is made, the terminal device 3 is notified. In the determination method 2, one current reference value, a reference time, and a reference number are set for each output port 19 of the current detection determination device 1, and the number of times the measured value becomes equal to or more than the reference value within the reference time is counted. Then, when the number of times is equal to or more than the reference number, and when the setting to notify the output port 19 is made, the terminal device 3 is notified.
[0032]
The reference values used in the determination methods 1 and 2 are set and stored by setting the mode switch 13 to “set” and pressing the setting button 14 in the current detection determination device 1. Further, other settings relating to the determination and notification are performed in the terminal device 3 using the current monitoring setting screen 23 shown in FIG. 6, and the setting data is transmitted to the current detection determination device 1 and stored.
[0033]
First, the main processing executed in the current detection determination device 1 of the present embodiment will be described with reference to the flowchart of FIG. 5, and then, regarding matters related to the setting, the current monitoring setting screen 23 of FIG. A description will be given with reference to a schematic diagram of the setting related data, a setting mode processing flowchart executed in the main processing of FIG. 13, and a setting data storage processing flowchart executed in the main processing of FIG.
[0034]
FIG. 5 is a flowchart of a main process performed in the current detection determination device 1 according to the present embodiment. This main processing is started when the current detection / judgment device 1 is connected to the outlet 4, and ends when the connection to the outlet 4 is cut off. First, it is confirmed whether or not the setting data has been received from the terminal device 3 (S1). If the setting data has been received, a setting data storage process (see FIG. 13) is performed (S1: YES, S12), and the process proceeds to S1. Return. If the setting data has not been received, it is checked whether the mode switch has been set to "stop" (S1: NO, S2). If the mode switch is "stop" (S2: YES), the process returns to S1 without doing anything. Next, if the mode switch is not "stop" (S2: NO), it is checked whether the mode switch is "set" (S3). If the mode switch is set to "set", the setting processing mode processing (see FIG. 14) is performed (S3: YES, S11), and the process returns to S1. If the mode switch is not set to “setting” (S3: NO), it is checked whether the setting data is received from the terminal device 3 and stored in the reception setting data storage area 170 (S4). If the setting data is not stored (S4: NO), the determination method has not been determined, and the current value of the current detection / determination device 1 cannot be monitored.
[0035]
If the setting data is stored (S4: YES), it is determined that the mode switch is set to "monitor", and the monitor mode is sequentially set for the four output ports using the output port number counter n. The process is performed (S5 to S10), and the process returns to S1. First, an initial value "0" is set to n which is a counter of the output port 19 of the current detection determination device 1 (S5). Next, it is determined whether or not the value of the output port number counter n is 4 or more of the total number of output ports (S6). If the value of the output port number counter n is 4 or more (S6: YES), monitoring of all the output ports 19 has been completed, and the process returns to S1. If the value of the output port number counter n is not 4 or more (S6: NO), "1" is added to the value of the output port number counter n (S7). Next, it is determined whether the determination method stored in the determination method column (see FIG. 9) of the reception setting data storage area 170 is “1” or “2” (S8). If the determination method is "1" (S8: 1), the monitoring mode processing of the determination method 1 is performed (S9), and the process returns to S6. If the determination method is "2" (S8: 2), the monitoring mode processing of the determination method 2 is performed (S10), and the process returns to S6.
[0036]
Next, the current monitoring setting screen 23 of the terminal device 3 used when creating the setting data will be described with reference to FIG. 6, and the setting data will be described with reference to FIGS.
[0037]
FIG. 6 is an image diagram of the current monitoring setting screen 23 of the terminal device 3. Here, a determination method is selected, and setting items in the selected determination method are input. As shown in FIG. 6, on the current monitoring setting screen 23, a judgment method 1 or a judgment method 2 can be selected by an option button. Each setting item is displayed below the display of each determination method. In the determination method 1, a notification setting column is provided for the output port number, and “state 1”, “state 2”, “state 3”, and “state 4” are displayed in a selectable manner with check boxes. Have been. In the determination method 2, a notification setting column, a reference time column, and a reference number column are provided for the output port number, and a check box is provided in the notification setting column to check the output port to be notified. An input box is provided in the reference time column to input a time serving as a delimiter for determination, and an input box is provided in the reference frequency column to input the number of times as a reference for determination. Also, a “Setting” button and a “Cancel” button are displayed at the lower right of the screen. By clicking the “setting” button, the input setting contents are determined, stored in the setting data storage area 380 (see FIGS. 7 and 8), and transmitted to the current detection determination device 1.
[0038]
In the example illustrated in FIG. 6, the determination method 1 is selected, and in the output port number 1, all the check boxes of “state 1”, “state 2”, “state 3”, and “state 4” are checked, and the notification is performed. Settings have been made. In the output port number 2, the check boxes of “state 1” and “state 2” are checked, and the setting for notification is made. In the output port number 3, the check boxes of all the states are checked, and the setting for notifying is made. For output port number 4, none of the check boxes are checked.
[0039]
Next, the setting data storage area 380 stored in the hard disk device 38 of the terminal device 3 will be described with reference to FIGS. 7 and 8 are schematic diagrams of the setting data stored in the setting data storage area 380. Here, the setting information input on the current monitoring setting screen 23 shown in FIG. 6 is stored. FIG. 7 is a schematic diagram of the setting data 380a when the determination method 1 is selected, and FIG. 8 is a schematic diagram 380b of the setting data when the determination method 2 is selected. The setting data storage area 380 is provided with a determination method column and a setting content column, and “1” or “2”, which is the number of the selected determination method, is set in the determination method column. In the setting contents column, a judgment method 1 column and a judgment method 2 column are provided. When the judgment method 1 is selected, the input data is set in the judgment method 1 column, and the judgment method 2 is selected. In this case, the input data is set in the determination method 2 column.
[0040]
In the example shown in FIG. 7, “1” indicating that the determination method 1 has been selected is set in the determination method column. In the output port number 1 column of the determination method 1 column of the setting content column, “1” is set in the notification information column of the state number “1”, and “1” is set in the notification information column of the state number “2”. Is set, “1” is set in the notification information column of the state number “3”, and “1” is set in the notification information column of the state number “4”. In the output port number 2 column, “1” is set in the notification information column of the state number “1”, “1” is set in the notification information column of the state number “2”, and the notification of the state number “3” is set. “0” is set in the information column, and “0” is set in the notification information column of the state number “4”. In the output port number 3 column, “1” is set in the notification information column of the state number “1”, “1” is set in the notification information column of the state number “2”, and the notification of the state number “3” is set. “1” is set in the information column, and “1” is set in the notification information column of the state number “4”. In the output port number 4 column, “0” is set in the notification information column of the state number “1”, “0” is set in the notification information column of the state number “2”, and the notification of the state number “3” is set. “0” is set in the information column, and “0” is set in the notification information column of the state number “4”. Nothing is set in the determination method 2 column.
[0041]
In the example shown in FIG. 8, “2” indicating that the determination method 2 has been selected is set in the determination method column. Nothing is set in the determination method 1 column of the setting content column. Further, “0” is set in the notification information column of the output port number 1 in the determination method 2 column, “0” seconds are set in the reference time column, and “0” is set in the reference frequency, and the notification information column of the output port number 2 is set. Is set to “0”, the reference time column is set to “0” seconds, the reference count is set to “0”, the notification information column of the output port number 3 is “1”, and the reference time column is “60” seconds. , The reference number is set to “30”, the notification information column of the output port number 4 is set to “1”, the reference time column is set to “60” seconds, and the reference number is set to “30”.
[0042]
Next, referring to FIGS. 9 to 12, the reception setting data storage area 170, the reference value table storage area 171, the determination method 1 setting table storage area 172, and the determination stored in the nonvolatile RAM 17 of the current detection determination device 1. The method 2 setting table storage area 173 will be described.
[0043]
FIG. 9 is a schematic diagram of the reception setting data storage area 170 stored in the nonvolatile RAM 17 of the current detection determination device 1. Here, the setting data transmitted from the terminal device 3 is stored. In the example shown in FIG. 9, in the output port number 1 column of the determination method 1 column of the setting content column, “1” is set in the notification information column of the state number “1”, and the notification information column of the state number “2” is set. Is set to "1", "1" is set to the notification information column of the state number "3", and "1" is set to the notification information column of the state number "4". In the output port number 2 column, “1” is set in the notification information column of the state number “1”, “1” is set in the notification information column of the state number “2”, and the notification of the state number “3” is set. “0” is set in the information column, and “0” is set in the notification information column of the state number “4”. In the output port number 3 column, “1” is set in the notification information column of the state number “1”, “1” is set in the notification information column of the state number “2”, and the notification of the state number “3” is set. “1” is set in the information column, and “1” is set in the notification information column of the state number “4”. In the output port number 4 column, “0” is set in the notification information column of the state number “1”, “0” is set in the notification information column of the state number “2”, and the notification of the state number “3” is set. “0” is set in the information column, and “0” is set in the notification information column of the state number “4”. Nothing is set in the determination method 2 column.
[0044]
FIG. 10 is a schematic diagram of a reference value table storage area 171 stored in the non-volatile RAM 17 of the current detection and determination device 1. In each of the output port numbers, 1 to 3 setting number columns are provided. A value column and a final column are provided. In the reference value column, a current value measured by pressing the setting button 14 in the setting mode process of the main process (see S11 in FIG. 5) is stored. For example, when the lamp 22c next to the output port 19c corresponding to the output port number 3 is lit and the reference value of the output port number 3 is set, when the setting button 14 is pressed once, the measured current value Is set in the reference value field of the setting number 1 in the output port number 3 field, and when the setting button 14 is continuously pressed, the value of the measured current is set in the reference value field of the setting number 2 and then the setting button When the button 14 is pressed, the measured current value is set in the reference value column of the setting number 3. Further, when the setting button 14 is further pressed, the measured current value is set in the reference value column of the setting number 1. Here, “1” indicating the last setting reference value is set in the last column of the setting number 1 in which the reference value is set last.
[0045]
In the example shown in FIG. 10, in the output port number 1, the reference value of the setting number 1 is “0.3” A, the reference value of the setting number 2 is “0.7” A, and the reference value of the setting number 3 is “0”. .05 "A, the final setting number is" 3 ", and in the output port number 2, the reference value of the setting number 1 is" 0.3 "A, the reference value of the setting number 2 is" 0.1 "A, The reference value of the number 3 is “0.03” A and the final setting number is “3”. For the output port number 3, the reference value of the setting number 1 is “1.0” A, and the reference value of the setting number 2 is “0.4” A, the reference value of the setting number 3 is “0.05” A, the final setting number is “1”, and in the output port number 4, the reference value of the setting number 1 is “1.0” A The reference value of the setting number 2 is “0.05” A, the reference value of the setting number 3 is not set, and the final setting number is “2”.
[0046]
FIG. 11 is a schematic diagram of the determination method 1 setting table storage area 172 stored in the nonvolatile RAM 17 of the current detection determination device 1. Here, the setting contents in the determination method 1 are stored for each output port number, and a reference value, which is a current value serving as a determination reference, is stored in the reference value column in correspondence with the setting number. In the column, information on whether or not to notify the terminal device 3 is stored corresponding to the state number. This setting table is stored based on the data stored in the reference value table storage area 171 and the setting data storage area 380 in the setting data storage processing of the main processing (S12 in FIG. 5).
[0047]
In the example shown in FIG. 11, for the output port number 1, the reference value of the setting number 1 is “0.7” A, the reference value of the setting number 2 is “0.3” A, and the reference value of the setting number 3 is “0”. .05 "A, the broadcast information of the state number 1 is" 1 "indicating to be broadcast, the broadcast information of the state number 2 is" 1 "to be broadcast, and the broadcast information of the state number 3 is to be broadcast. “1” indicating the notification and “1” indicating the notification are stored as the notification information of the state number 4. In the output port number 2, the reference value of the setting number 1 is “0.3” A, the reference value of the setting number 2 is “0.1” A, the reference value of the setting number 3 is “0.03” A, The notification information of the state number 1 is "1" indicating that the notification is performed, the notification information of the state number 2 is "1" indicating that the notification is performed, the notification information of the state number 3 is "0" indicating that the notification is not performed, the state number In the notification information of No. 4, "0" indicating not notifying is stored. In the output port number 3, the reference value of the setting number 1 is “1.0” A, the reference value of the setting number 2 is “0.4” A, the reference value of the setting number 3 is “0.05” A, The notification information of the state number 1 is “1” indicating the notification, the notification information of the state number 2 is “1” indicating the notification, the notification information of the state number 3 is “1” indicating the notification, the state number In the notification information of No. 4, "1" indicating notification is stored. In the output port number 4, the reference value of the setting number 1 is “1.0” A, the reference value of the setting number 2 is “0.05” A, and the reference value of the setting number 3 is not set. The notification information of “0” indicates that the notification is not performed, the notification information of the state number 2 is “0” indicating that the notification is not performed, the notification information of the state number 3 is “0” that the notification is not performed, and the notification of the state number 4 The information stores “0” indicating that no notification is made.
[0048]
FIG. 12 is a schematic diagram of the determination method 2 setting table storage area 173 stored in the nonvolatile RAM 17 of the current detection determination device 1. Here, a set value in the determination method 2 is stored for each output port number, a reference value which is a current value serving as a determination reference is stored in a reference value column, and a determination reference is stored in a reference number column. The number of times is stored, the reference time column stores the time as a delimiter for determination in seconds, and the notification information column stores information as to whether or not to notify the terminal device 3. This setting table is stored based on the data stored in the reference value table storage area 171 and the setting data storage area 380 in the setting data storage processing of the main processing (S12 in FIG. 5).
[0049]
In the example illustrated in FIG. 12, the reference value of the output port number 1 is “0.05” A, the reference time is “0” seconds, the reference count is “0” times, and the notification information is “0” indicating no notification. The reference value of the output port number “2” is “0.03” A, the reference count is “0” times, the reference time is “0” seconds, and the notification information is “0” indicating no notification. The reference value of the output port number 3 is “1.0” A, the reference count is “30” times, the reference time is “60” seconds, and the notification information is “1” indicating notification. The reference value of the output port number 4 is “0.05” A, the reference count is “30” times, the reference time is “60” seconds, and the notification information is “1” indicating notification. .
[0050]
Next, a setting mode process performed in the main process will be described with reference to a flowchart in FIG. FIG. 13 is a flowchart of the setting mode process (S11 in FIG. 5) performed in the main process. This process is performed when the mode switch is set to “setting” in the current detection / determination device 1, and by holding down the setting button 14 for 3 seconds or more, the output port 19 where the lamp 22 is lit is turned on. The current value is measured and stored in the reference value column of the reference value table storage area 171. The stored current value is used as a reference value in determination method 1 and determination method 2. By pressing the setting button for a length of 3 seconds or less, the lamps to be lit move to the lamps 22a, 22b, 22c, 22d, and 22a, and the output port 19 to be set can be selected. I have.
[0051]
First, an initial value “1” is set in an output port number counter k, and an initial value “0” is set in a setting number counter p (S51). Next, the lamp 22a next to the output port 19a, which is the k-th output port, that is, the first output port, is turned on (S52). Next, it is confirmed whether or not the setting button 14 has been pressed for a length of 3 seconds or less (S53). If the setting button 14 is pressed (S53: YES), "1" is added to the value of the output port number counter k, and the initial value "0" is set in the setting number counter p (S54). It is checked whether the value of the number counter k is larger than 4 (S55). If the value of the output port number counter k is not larger than 4 (S55: NO), the lamp 22 of the k-th output port is turned on (S56), and the process proceeds to S57. If the value of the output port number counter k is greater than 4 (S55: YES), the flow returns to S51, the value of the output port number counter k is initialized to "1", and the setting returns to the first output port 19a. . In S51 to S56, a selection process for selecting the output port 19 for measuring the reference value is performed.
[0052]
Next, in S57, it is confirmed whether or not the setting button 14 has been pressed for 3 seconds or more (S57). If the button has not been pressed (S57: NO), the process proceeds to S65. If it is pressed (S57: YES), the current of the k-th output port is measured (S58). Next, it is confirmed whether or not the value of the setting number counter p is “0” (S59). If the value of the setting number counter p is “0” (S59: YES), the current is measured for the kth output port for the first time, and the data of the kth output port in the reference value table storage area 171 is stored. All are initialized (S60). If the value of the setting number counter p is not “0” (S59: NO), nothing is performed since the current is measured for the second and subsequent times. Next, "1" is added to the setting number counter p (S61), and it is confirmed whether or not the value of the setting number counter p is larger than 3 which is the number of setting numbers (S62). When the value of the setting number counter p is larger than 3 (S62: YES), the setting number 3 has already been set, so that the setting number 1 is overwritten next. For this purpose, "0" is set to the set number counter p (S63), and the process returns to S61, where "1" is added to the set number counter p, the value of the set number counter p is set to "1" (S61), and again. It is confirmed whether the value of the setting number counter p is larger than 3 (S62). If the value of the setting number counter p is not larger than 3 (S62: NO), the current value measured in S58 is set in the p-th setting number column of the k-th output port, and the last column is updated. (S64). In updating the last column, after all the values in the last column of the k-th output port are initialized, “1” is set in the last column of the p-th setting number column of the k-th output port. In S57 to S64, a reference value measurement process for measuring and storing a reference value for the k-th output port 19 is performed.
[0053]
Next, it is confirmed whether or not the mode switch is "set" (S65). If the mode switch is not set (S65: NO), the reference value table 171 set by the setting data storage process (see FIG. 14) is used to end the setting mode process. Alternatively, the process is reflected in the determination method 2 setting table 173 (S66), and the process ends. If the mode switch is set to "SET" (S65: YES), the setting mode process is continued, so the process returns to S53 to check whether the setting button has been pressed for 3 seconds or less. If the button is pressed (S53) (S53: YES), the process proceeds to S54 to perform a setting output port selection process. If the button has not been pressed (S53: NO), the process proceeds to S57, and proceeds to the current value measurement process for the k-th output port.
[0054]
Next, with reference to FIG. 14, setting data storage processing performed in the main processing (see S12 in FIG. 5) and the setting mode processing (see S66 in FIG. 13) will be described using a flowchart. Here, information set in the terminal device 3 and the current detection determination device 1 is set in a setting table for each determination method. First, it is checked whether or not the value of the determination method column of the reception setting data storage area 170 is “1” (S41). If the value is “1” (S41: YES), the determination method 1 is selected. Therefore, the information in the determination method 1 column of the reception setting data storage area 17 is stored in the notification information column of the determination method 1 setting table storage area 172 in accordance with the output port number (S43). Next, the reference value stored in the reference value table storage area 171 is stored in the reference value column of the determination method 1 setting table storage area 172 in accordance with the output port number and the setting number (S44). Next, the data stored in the column of the determination method 1 is sorted in ascending order of the reference value for each output port number (S47), and the previous measurement value table storage area 161, the determination data storage area 162, and the notification data storage area 163 of the RAM 16 are stored. Then, the monitoring data storage area 164 is initialized (S48), and the process ends. This sorting is performed by adding the notification information of the state number 1 to the reference value of the setting number 1. For example, the reference value of the setting number 1 is “0.3”, the notification information of the state number 1 is “0”, the reference value of the setting number 2 is “0.7”, the notification information of the state number 2 is “1”, When the reference value of the setting number 3 is “0.01” and the notification information of the state number 3 is “1”, the reference value of the setting number 1 is “0.3” and the reference value of the setting number 2 is “0”. .7 ", the reference value of setting number 1 is" 0.7 ", and the reference value of setting number 2 is" 0.3 ". At this time, the notification information is also attached to the reference value and replaced. Done. Therefore, the notification information “0” of the state number 1 and the notification information “1” of the state number 2 are interchanged, and the notification information of the state number 1 is “1” and the notification information of the state number 2 is “0”.
[0055]
Next, when the value of the determination method column is not “1” in S41 (S41: NO), it is confirmed whether or not the value of the determination method column is “2” (S42). If it is not "2" (S42: NO), the process is terminated because the setting data has not been received or the correct value is not stored. If the value of the determination method column is “2” (S42: YES), the information of the notification information column and the reference time column of the determination method 2 column of the reception setting data storage area 170 is stored in the determination method 2 setting table. The information is stored in the notification information column, the reference time column, and the reference time column of the area 173 in accordance with the output port number (S45). Next, among the reference values stored in the reference value table storage area 171, the reference value whose last column is set to “1” is stored in the reference value column of the determination method 1 setting table storage area 172 by the output port number. And the setting number is stored (S46), and the process proceeds to S48. For example, in the reference value table shown in FIG. 10, the reference value of the setting number 3 is “0.05” for the output port number 1, the reference value of the setting number 3 is “0.03” for the output port number 2, and the output port number 3 is the reference value. The reference value “1.0” for the setting number 1 and the reference value “0.05” for the setting number 2 for the output port number 4 are stored in the reference value column of the determination method 2 setting table storage area 173 shown in FIG. .
[0056]
Here, regarding the monitoring mode processing performed in the main processing, the monitoring mode processing (see S9 in FIG. 5) of the determination method 1 will be described with reference to FIGS. 15 to 18, and the monitoring mode processing of the determination method 2 will be described with reference to FIGS. The monitoring mode process (see S10 in FIG. 5) will be described.
[0057]
FIG. 15 is a schematic diagram of the previous measurement value table stored in the previous measurement value table storage area 161 of the RAM 16 of the current detection determination device 1. Here, the previous current measurement value used in the monitoring mode processing of the determination method 1 is stored for each output port. In the example shown in FIG. 15, the first output port has “0.6” A, the second output port has “0.1” A, and the third output port has “1.0” A. And at the fourth output port, "0.0" A.
[0058]
FIG. 16 is a schematic diagram of the determination data 162a stored in the determination data storage area 162 of the RAM 16 of the current detection determination device 1. Here, the determination data 162a used in the monitoring mode processing of the determination method 1 is stored. A reference value column and a measurement value column used when comparing the reference value stored in the determination method 1 setting table storage area 172 with the measurement value are provided. In the example shown in FIG. 16, the reference value column stores “0.3” A, and the measured value column stores “0.5” A.
[0059]
FIG. 17 is a schematic diagram of the notification data 163a stored in the notification data storage area 163 of the RAM 16 of the current detection determination device 1. Here, in the monitoring mode processing of the determination method 1, information for notifying the current usage state of the monitored device from the current detection determination device 1 to the terminal device 3 is stored. This information is represented by a two-digit hexadecimal number. When the determination method 1 is selected, the output port number is set in the first digit, and the state number is set in the second digit. In the example shown in FIG. 17, the output port number of the first digit is “1”, and the status number of the second digit is “2”, which is measured when the current is detected for the first output port. This is the state of state number 2 indicating that the value is less than the setting number 1 and equal to or greater than the reference value of the setting number 2, and is information created when the setting to notify in the state number 2 is made.
[0060]
FIG. 18 is a flowchart of the monitoring mode process of the determination process 1. Here, the monitoring of the determination method 1 is performed on the output port 19 whose output port number is the value of the output port number counter n used in the main processing (see FIG. 5). First, all the judgment data storage areas 162 are initialized to “0”, and the value of the setting number counter m is initialized to “0” (S21). Next, the current of the n-th output port is measured and stored in the measurement value column of the determination data storage area 162 (S22). Next, 1 is added to the set number counter m (S23), and it is determined whether or not the value of the set number counter m is larger than 3 which is the total set number (S24). If the value of the setting number counter m is not larger than 3 (S24: NO), the reference value of the setting number m of the output port number n in the determination method 1 setting table storage area 172 is acquired, and the determination data storage area 162 is obtained. (S25), and it is compared whether the measured value stored in the determination data storage area 162 is equal to or larger than the reference value (S26). If the measured value is not equal to or more than the reference value (S26: NO), the process returns to S23, and the comparison with the next reference value is performed. If the measured value is equal to or larger than the reference value (S26: YES), the process proceeds to S27. At this time, a comparison is made with the reference value of the setting number m, and the state number of the judgment value at that time is m. Also, if the value of the setting number counter m is larger than 3 in S24 (S24: YES), the process directly proceeds to S27, in which case the measured values are compared with the reference values of all the setting numbers, and This is a state where the value is not more than the value, which indicates the state number 4, which is equal to the set number counter m.
[0061]
Next, in S27, it is confirmed whether or not the measured value is equal to the previous measured value stored in the previous measured value column of the n-th output port number of the previous measured value table 161 (S27). When the measured value is equal to the previous measured value (S27: YES), the notification is not performed, and the process is terminated. If it is not equal to the previous measurement value (S27: NO), the measurement value is stored in the previous measurement value column of the n-th output port number of the previous measurement value table 161 (S28). Next, it is confirmed whether the value of the notification information column of the state number m of the output port number n in the determination method 1 setting table storage area 172 is "1", indicating that notification is to be performed (S29). If "1" indicating notification is stored (S29: YES), the output port number n is set to the first digit of the notification data storage area 163, and the status number is set to the second digit. The value of m is set and transmitted to the current detection determination device 1 (30). Then, the process ends. If "1" indicating notification is not stored (S29: NO), the process ends.
[0062]
For example, if the output port number counter n = 1 and the measured value is “0.5” A, “0.5” A is set in the measured value column of the determination data 162a shown in FIG. 16 (S22). . First, for the setting number counter m = 1, the output port number 1 of the determination method 1 setting table storage area 172 and the reference value “0.7” A of the setting number 1 shown in FIG. S23 to S25). Since “0.5” A is less than “0.7” A (S 26: NO), for the setting number counter m = 2, the reference value column shows the determination method 1 setting table storage area 172 shown in FIG. The output port number 1 and the reference value “0.3” A of the setting number 2 are set (S23 to S25). Since “0.5” A is equal to or more than “0.3” A (S26: YES), the value is compared with the previous measurement value “0.6” A of the output port number 1 in the previous measurement value table 161 shown in FIG. (S27). The state number at this time is “2” which is the value of the set number counter m. Since “0.5” A is not equal to “0.6” A, “0.5” A is set as the previous measured value (S28). Next, since the notification information of the status number 2 of the output port number 1 in the determination method 1 setting table storage area 172 is “1”, the output port number “1” is set to the first digit of the notification data 163a, and the two digits are set. The state number “2” is set in the eye and transmitted to the current detection and determination device 1.
[0063]
Next, the monitoring mode process of the determination method 2 will be described. FIG. 19 is a schematic diagram of the monitoring data stored in the monitoring data storage area 164 of the RAM 16 of the current detection determination device 1. Here, data used in the monitoring mode processing of the determination method 2 is stored for each output port. In the determination method 2, the monitoring time is divided for each reference time, the number of times that the measured value of the current exceeds the reference value within the monitoring time is counted, and it is determined whether or not the total number is equal to or more than the reference number. ing. The output port number field stores the output port number, the measured value field stores the measured current value, the start time field stores the start time of the monitoring time, and the current time field obtains the measured value. The time is stored, and the time elapsed from the start time to the current time is stored in the elapsed time column. In the example shown in FIG. 19, the total number of times of the output port “1” is “3”, the start time is “9:10:08”, the current time is “9:10:12”, and the elapsed time is Is "4" seconds. The total number of output ports “2” is “2”, the start time is “9:10:08”, the current time is “9:10:12”, and the elapsed time is “4” seconds. . The total number of times of the output port "3" is "3", the start time is "9:10:08", the current time is "9:10:12", and the elapsed time is "4" seconds. . The total number of times of the output port “4” is “4”, the start time is “9:10:08”, the current time is “9:10:12”, and the elapsed time is “4” seconds. .
[0064]
FIG. 20 is a schematic diagram of the determination data 162b stored in the determination data storage area 162 of the RAM 16 of the current detection determination device 1, and uses the same storage area as the determination data 162a shown in FIG. Here, the determination data used in the monitoring mode processing of the determination method 2 (see S10 in FIG. 5) is stored. A reference value column and a measured value column used when comparing the measured value with the reference value stored in the determination method 2 setting table storage area 173 are provided. In the example shown in FIG. 20, the reference value column stores “0.05” A, and the measurement value column stores “0.2” A.
[0065]
FIG. 21 is a schematic diagram of the notification data 163b stored in the notification data storage area 163 of the RAM 16 of the current detection determination device 1, and uses the same storage area as the notification data 163a shown in FIG. Here, information for notifying the current use state of the monitored device from the current detection determination device 1 to the terminal device 3 in the monitoring mode process of the determination method 2 (see S10 in FIG. 5) is stored. This information is represented by a two-digit hexadecimal number. When the determination method 2 is selected, the output digit is set to the first digit, and the number of times exceeding the reference value is set to the second digit. . In the example shown in FIG. 21, the output port number of the first digit is “1”, and the number of the second digit is “12”, which is a reference when the current is detected for the first output port. This information is created when the number of times that the measured value exceeds the reference value during a time period of 60 seconds is 12 and the notification is set at the first output port.
[0066]
FIG. 22 is a flowchart of the monitoring mode process when the determination process 2 is selected. First, it is confirmed whether or not the reference time of the n-th output port is set (S70). If there is no setting because the reference time is “0” or the value has not been set (S70: NO), the process ends as it is. If the reference time is set (S70: YES), the current of the n-th output port is measured and stored in the measurement value column of the determination data storage area 162a (S71). Next, the current time is obtained from the timer circuit 21 and set in the current time column of the output port number n of the monitoring data storage area 164, and the difference between the start time and the current time is set in the elapsed time column (S72). If no time is stored in the start time column, that is, if this process is the first monitoring mode process performed on the nth output port, the current time is also stored in the start time column. Then, an initial value “0” is set in the total number column of the n-th output port. Next, it is determined whether the monitoring time has exceeded the reference time (S73). Here, the elapsed time stored in the elapsed time column of the monitoring data storage area 164 is compared with the reference time of the output port number n stored in the determination method 2 setting table storage area 173.
[0067]
In S73, if the value in the elapsed time column is not greater than or equal to the value in the reference time column (S73: NO), the reference value of the output port number n stored in the determination method 2 setting table storage area 173 is obtained and determined. The value is set in the reference value column of the data storage area 162 (S74), and it is confirmed whether or not the measured value acquired in S71 is equal to or larger than the reference value (S75). If the measured value is equal to or greater than the reference value, “1” is added to the total number column of the n-th output port (S75: YES, S76), and the process ends. If the measured value is not equal to or larger than the reference value (S75: NO), the process ends.
[0068]
In S73, if the value in the elapsed time column is equal to or greater than the value in the reference time column (S73: YES), the monitoring time serving as a delimiter has ended, and the current time is stored in the start time column (S77). Next, it is confirmed whether or not the value of the total number column of the n-th output port is equal to or more than the reference number of the output port number n stored in the determination method 2 setting table storage area 173 (S78). When the value of the total number column of the n-th output port is not equal to or greater than the reference number (S78: NO), the process proceeds to S81. When the value of the total number column of the n-th output port is equal to or greater than the reference number (S78: YES), the notification information column of the output port number n stored in the determination method 2 setting table storage area 173 is referred to. Then, it is confirmed whether or not the notification is designated (S79). If "1" indicating notification is stored (S79: YES), the value of the output port number n is set in the first digit of the notification data storage area 163, and the n-th value is set in the second digit. The notification data is created by setting the value of the total number column of the output port of (1) and transmitted to the terminal device 3 (S80). If "0" indicating no notification is stored (S79: NO), the process proceeds to S81 without doing anything. Next, the value of the totaling number column of the n-th output port is initialized to “0” (S81), and the process ends.
[0069]
For example, assuming that the output port number counter n = 4, the start time is “9:10:08”, the current time is “9:10:12”, and the measured value is “0.2” A, FIG. “9:10:08” is stored in the start time column of the monitoring data storage area 164, and “0.2” A is set in the measurement value column of the determination data storage area 162b shown in FIG. 20 ( S71). Also, since the current time is “9:10:12”, “9:10:12” is set in the current time column of the monitoring data storage area 164 shown in FIG. 19, and “9:10:12” is set in the elapsed time column. : 08 "and" 4:10 ", which is the difference between" 9:10:12 ", is set in the elapsed time column of the output port number 1 in the monitoring data storage area 164 (S72). When the elapsed time “4” seconds is compared with the reference time “60” of the output port number 1 in the determination method 2 setting table storage area 173 shown in FIG. 12, since the reference time has not passed yet (S73: NO), The reference value “0.05” A stored in the output port number 1 of the determination method 2 setting table storage area 173 is set in the reference value column of the determination data 162b (S74). Since the measured value “0.2” A is a value equal to or larger than the reference value “0.05” A (S75: YES), 1 is added to the total number column of the n-th output port, and the process ends.
[0070]
As described above, the current detection determination device 1 according to the above embodiment has a power tap shape, measures the current supplied to the current supply destination device, and determines the change. Further, the current detection determination device 1 is connected to the terminal device 3 via a network, and can notify a determination result. In addition, the reference value for making the determination can be set by pressing the setting button 14 of the current detection and determination device 1, and the selection of the determination method and other settings are set on the current monitoring setting screen 23 of the terminal device 3. be able to.
[0071]
Therefore, the terminal device 3 can know the change in the amount of current of the monitored device using the current detection determination device 1. When the determination method 1 is selected, for example, consider the personal computer 51 connected to the output port 19a of the current detection determination device 1. For the personal computer 51, a reference value is set in “operating state”, “state where power is only turned on”, and “state where power is turned off”. It is assumed that they are 0.3A and 0.05A. At this time, the reference value of the setting number 1 is 0.7A, the reference value of the setting number 2 is 0.3A, the reference value of the setting number 3 is 0.05A, and the measurement value of the state number 1 is 0.7A or more. The number 2 is a state where the measured value is 0.3 or more and less than 0.7 A, the state number 3 is a state where the measured value is 0.05 A or more and less than 0.3 A, and the state number 4 is a state where the measured value is less than 0.05 A. For example, in the case of nighttime, the personal computer is in the “power-off state”, and the measured value should be 0.05 A or more and less than 0.3 A of the state number 3. Here, the terminal device 3 can monitor the personal computer 51 by making notification settings for the status numbers 1, 2, and 4. In the case of state number 1, it is known that someone is using the personal computer. In the case of state number 2, it is known that the power of the personal computer 51 has been forgotten to be turned off. It can be seen that it has been removed from the detection determination device 1 or has been removed.
[0072]
When the determination method 2 is selected, for example, when five printers are installed in one department, a reference value is set while the printers are performing printing, and all printers are set. Perform similar settings. By monitoring with this setting continuously for a certain period of time, for example, for one month, it is possible to grasp the usage status of the printer by analyzing the notification data. A printer with a large number of notifications can be regarded as a frequently used printer. Therefore, when reducing the number of printers, it is possible to remove a printer with a small number of determination results, or to update a printer with a large number of determination results to the latest when introducing a new high-performance printer.
[0073]
Considering from the setting side, the reference value can be set by pressing the setting button 14 of the current detection / judgment device 1 so that the current at the time of pressing can be measured and set. It is not necessary to input a specific numerical value such as 3A, and the monitored device can be set in the “powered-on state”, “printing state”, “scanning”, “sleeping”, “normal” state. It is only necessary to set the reference value such as "in operation" and to press the setting button.
[0074]
Furthermore, in the monitoring performed by the current detection determination device 1, there is no need to make any changes to the monitored device. Therefore, if it is a personal computer, there is no need to install monitoring software, so it will not affect the personal computer or make other systems unstable, and furthermore, the situation when the personal computer is not running You can also monitor. In addition, the operation status of an electric device such as a printer, a scanner, or a refrigerator can be monitored even if the monitoring function is not provided in advance.
[0075]
In the present embodiment, the current detection / judgment device 1 is formed in the shape of a power tap, and while the current is supplied to the monitored terminal, the current is detected and determined. It is not necessary to supply the power supply, and it may be shaped like an uninterruptible power supply, a battery device, or a device with a power generation function, or may be shaped to be attached to the power supply intake member of the monitored terminal. Further, although the number of the output ports 19 of the current detection / judgment device 1 is set to four, the number is not limited to four and may be smaller or larger. Although the personal computer 51, the display 52, the printer 53, and the scanner 54 have been described as examples of the power supply destination device, the connected devices are not limited to these electrical devices, and may be connected to the output port 19 of the current detection determination device 1. Any device may be used.
[0076]
Further, in the above embodiment, one terminal device 3 is treated as the setting terminal and the notification destination terminal for the current detection determination, but may be separate terminal devices. Further, in the above embodiment, the programs of the two determination methods are stored in the current detection determination device 1 in advance, and the terminal device 3 selects from the two determination methods. However, the number of the determination methods to be selected is more than this. May be. Alternatively, only one type of determination method stored in the current detection determination device 1 in advance may be used without selecting a determination method. Further, the program may be transmitted from the terminal device 3 and stored in the non-volatile RAM 17 of the current detection / judgment device 1 without being stored in the current detection / judgment device 1 in advance.
[0077]
Further, in the above-described embodiment, the current detection determination device 1 transmits the notification data to the terminal device 3 via the network 2 to perform the notification, but the transmission destination of the notification data is not limited to the terminal device 3 and the , Facsimile, buzzer, lamp and the like. The notification data is not limited to the output port number, the state number, and the number of times, but may include other information such as a determination time and a reference value. Instead of transmitting the notification data, the current detection determination device 1 may be provided with a buzzer, a lamp, or the like, and the notification may be performed by these.
[0078]
【The invention's effect】
As described above, in the current detection / judgment device according to the first aspect of the present invention, the measuring means measures a current value flowing through the current detection / judgment device, and the analog-to-digital conversion means measures the measured current measured by the measuring means. The value is converted to digital data, the current value storage means stores the measured current value converted to digital data by the analog-to-digital conversion means, and the reference current value setting means serves as a reference when determining a change in current. A current value is set, the reference current value storage means stores one or more reference current values set by the reference current value setting means, and the determination means determines the measured current value and the reference current value stored in the current value storage means. Based on the reference current value stored in the current value storage means, it is determined whether the change in the current is a predetermined change, and the notification means determines that the change in the current is the predetermined change by the determination means. It can inform the determination result when it is. Therefore, the state of the change in the current can be known using the current detection determination device. The reference current value storage means converts the measured current value measured by the measurement means into digital data by analog-to-digital conversion means by pressing a setting button provided in the current detection / judgment device. Can be set as
[0079]
According to a second aspect of the present invention, in addition to the effect of the first aspect, the first determining means provided in the determining means includes a measuring current stored in the current value storing means. It is determined whether the value is equal to or greater than the reference current value stored in the reference current value storage means, and the second determination means determines whether the measured current value stored in the current value storage means has been stored in the current value storage means. It can be determined whether or not it is equal to the previous measurement current value that is the previous measurement result. Therefore, it is possible to know a change in the amount of current with reference to the reference current value. In addition, since one or more reference current values are set, determination can be made for a plurality of reference current values, and measurement is performed based on which reference value the measured current value has exceeded due to a change in current. It is possible to know a change in the state of the device to which the current is supplied. For example, the first reference current value is set in a state where the device to which the current to be measured is supplied is operating normally, and the second reference current value is set in a state where the device is only turned on. If the third reference current value is set while the device is turned off, the device is turned off when the device is turned off, such as at night or on holidays when the device is not normally used. The value of the supplied current should be detected and determined to be less than the second reference current value and not less than the third reference current value. Here, if it is determined that the current value is equal to or more than the first reference current value, a notification is performed, and it is possible to know that there is a possibility that the device is being used illegally, and the device is used for monitoring the device. be able to.
[0080]
According to a third aspect of the present invention, in addition to the effects of the first aspect, the third determining means of the determining means is measured by the measuring means for a predetermined period, and is converted into an analog-to-digital conversion means. It is possible to determine whether or not a predetermined number of measured current values among a plurality of measured current values converted into digital data are equal to or greater than a reference current value. Therefore, it is possible to know the usage load of the device to which the current being measured is supplied. For example, there may be a plurality of terminal devices, and the current detection determination device may detect and determine the current supplied to each terminal device. If the current value during normal operation of these terminal devices is set as the reference current value, it can be understood that a terminal device with a high notification frequency is a terminal device that is frequently used among these terminal devices, and replacement of the device is performed. It can be used as a reference for moving the installation location.
[0081]
Further, in the current detection / judgment device of the invention according to claim 4, in addition to the effect of the invention according to any one of claims 1 to 3, the input means can be connected to an outlet which is an electric supply port, and the current can be reduced. The input and one or more output means can be connected to a power plug of an electric device, and can output a current to the power plug. Further, the measuring means and the analog digital means can be provided in the respective output means. Therefore, the current detection determination device can detect and determine the current and supply the current to the device to which the measured current is supplied. Further, a current can be supplied to a plurality of devices, and the current can be detected and determined.
[0082]
Further, in the current detection determination device according to the fifth aspect of the present invention, in addition to the effect of the invention according to any one of the first to fourth aspects, the receiving means transmits information relating to the determination and notification set in the setting terminal device. The receiving and information storage means can store the information received by the receiving means. Therefore, the current detection determination device can be connected to the setting terminal device via the network, receive information from the setting terminal device, and store the information.
[0083]
In the current detection determination device according to the sixth aspect of the present invention, in addition to the effect of the fifth aspect of the present invention, the information is notification information as to whether or not to perform notification, and determination as a reference for determining a current change. At least one of the reference information and the determination program for performing the determination can be used. Accordingly, the current detection determination device receives notification information as to whether or not to perform notification, determination reference information serving as a reference for determining a current change, or a determination program for performing determination from a setting terminal device via a network, and stores the information. can do. That is, it is possible to receive and store notification information as to whether or not to perform notification and determination reference information that is a reference for determining a current change. Information can be stored. In addition, since the determination program can be received and stored, the determination method can be designated by receiving and storing from the setting terminal device.
[0084]
According to a seventh aspect of the present invention, in addition to the effects of the first aspect, the notifying means of the current detection / judgment device includes a buzzer attached to the current detection / judgment device. Alternatively, a lamp can be used. Therefore, when it is determined that the change in the measured current value is a predetermined change, it is possible to know the change by listening to the ear or visually.
[0085]
Further, in the current detection determination device according to the invention according to claim 8, in addition to the effect of the invention according to any one of claims 1 to 7, the notification information generating means of the notification means transmits the notification information to be transmitted to the notification terminal device. Is generated based on the determination result, and the broadcast information transmitting unit can transmit the broadcast information to the broadcast terminal device. Therefore, the notification terminal device can receive the notification information from the current detection determination device, and can use the notification information as data. For example, data can be totaled to obtain statistics, or a new determination criterion can be set by reflecting the totaled result.
[0086]
Further, in the setting terminal device according to the ninth aspect, the setting means sets information relating to the determination and the notification, the determination method selection means selects one determination method from a plurality of determination methods, and the transmission means, Information regarding the determination and the notification can be transmitted to the current detection determination device. Therefore, it is possible to set a criterion, set whether or not to perform notification, set a notification destination, and select a determination method with a setting terminal device, and set the setting information and determination thereof. The program can be transmitted to the current detection determination device.
[Brief description of the drawings]
FIG. 1 is a block diagram of a configuration of a device according to an embodiment of the present invention.
FIG. 2 is a plan view showing an external structure of the current detection / judgment device 1. FIG.
FIG. 3 is a block diagram of an electrical configuration of the current detection and determination device 1.
FIG. 4 is a block diagram of an electrical configuration of the terminal device 3;
FIG. 5 is a flowchart of a main process performed in the current detection determination device 1 of the present embodiment.
FIG. 6 is an image diagram of a current monitoring setting screen 23 of the terminal device 3.
FIG. 7 is a schematic diagram of setting data 380a stored in setting data storage area 380 when determination method 1 is selected.
FIG. 8 is a schematic diagram of setting data 380b stored in setting data storage area 380 when determination method 2 is selected.
FIG. 9 is a schematic diagram of a reception setting data storage area 170 stored in a nonvolatile RAM 17 of the current detection and determination device 1.
FIG. 10 is a schematic diagram of a reference value table storage area 171 stored in the nonvolatile RAM 17 of the current detection and determination device 1.
FIG. 11 is a schematic diagram of a determination method 1 setting table storage area 172 stored in a nonvolatile RAM 17 of the current detection determination device 1.
FIG. 12 is a schematic diagram of a determination method 2 setting table storage area 173 stored in the nonvolatile RAM 17 of the current detection determination device 1.
FIG. 13 is a flowchart of a setting mode process performed in the main process.
FIG. 14 is a flowchart of a setting data storage process performed in a main process and a setting mode process.
FIG. 15 is a schematic diagram of a previous measurement value table stored in a previous measurement value table storage area 161 of a RAM 16 of the current detection determination device 1;
FIG. 16 is a schematic diagram of determination data 162a stored in a determination data storage area 162 of a RAM 16 of the current detection determination device 1.
FIG. 17 is a schematic diagram of notification data stored in a notification data storage area 163 of the RAM 16 of the current detection and determination device 1.
FIG. 18 is a flowchart of a monitoring mode process of a determination process 1;
FIG. 19 is a schematic diagram of monitoring data stored in a monitoring data storage area 164 of the RAM 16 of the current detection and determination device 1.
FIG. 20 is a schematic diagram of determination data 162b stored in a determination data storage area 162 of a RAM 16 of the current detection and determination device 1.
FIG. 21 is a schematic diagram of notification data 163b stored in a notification data storage area 163 of the RAM 16 of the current detection and determination device 1.
FIG. 21 is a flowchart of a monitoring mode process when a determination process 2 is selected.
[Explanation of symbols]
1 Current detection and judgment device
2 Network
3 Terminal device
4 outlets
10 sensors
13 Mode switch
14 Setting button
18 Network connection terminal
19 Output port
20 input ports
21 Timer circuit
22 lamp
23 Current monitor setting screen
38 Hard Disk Drive
51 PC
52 Display
53 Printer
54 Scanner
161 Previous measurement value table storage area
162 Judgment data storage area
163 Notification data storage area
164 Monitoring data storage area
170 Reception setting data storage area
171 Reference value table storage area
172 Judgment method 1 setting table storage area
173 Judgment method 2 setting table storage area
380 Setting data storage area
k Output port number counter
m Setting number counter
n Output port number counter
p Setting number counter

Claims (9)

A current detection and determination device that detects a current, determines a change in the current, and reports the result,
Measuring means for measuring a current value flowing through the current detection determination device,
Analog-to-digital conversion means for converting the measured current value measured by the measurement means into digital data,
Current value storage means for storing the measured current value converted to digital data in the analog-to-digital conversion means,
Reference current value setting means for setting a current value serving as a reference when determining a change in current,
Reference current value storage means for storing one or more reference current values set by the reference current value setting means;
Determining means for determining whether a change in current is a predetermined change based on the measured current value stored in the current value storage means and the reference current value stored in the reference current value storage means; ,
And a notifying means for notifying a result of the determination when the change in the current is determined to be a predetermined change by the determining means. The determining means includes:
First determination means for determining whether or not the measured current value stored in the current value storage means is equal to or greater than the reference current value stored in the reference current value storage means;
A second determination unit that determines whether the measured current value stored in the current value storage unit is equal to a previous measurement current value that is a previous measurement result stored in the current value storage unit. The current detection determination device according to claim 1, wherein: The determining means includes:
It is determined whether or not a predetermined number of measured current values are equal to or greater than the reference current value among a plurality of measured current values measured by the measuring unit during a predetermined period and converted into digital data by the analog-to-digital conversion unit. The current detection determination device according to claim 1, further comprising a third determination unit. In the current detection determination device,
An input means that can be connected to an outlet that is an electricity supply port and that inputs current,
One or more output means capable of connecting a power plug of an electric device and outputting a current to the power plug,
4. The current detection determination device according to claim 1, wherein the output unit includes the measurement unit and the analog digital unit. The current detection determination device is a current detection determination device connected via a network to a setting terminal device that performs settings related to determination and notification,
Receiving means for receiving information related to the determination and notification set in the setting terminal device,
The current detection determination device according to claim 1, further comprising an information storage unit configured to store the information received by the reception unit. 6. The information processing apparatus according to claim 5, wherein the information is at least one of notification information indicating whether or not to perform notification, determination reference information serving as a reference for determining a current change, and a determination program for performing determination. Current detection determination device. The current detection determination device according to claim 1, wherein the notification unit of the current detection determination device is a buzzer or a lamp attached to the current detection determination device. The current detection determination device is a current detection determination device connected via a network to a notification terminal device that is notified of a change in current,
The notifying means,
Notification information creating means for creating notification information to be transmitted to the notification terminal device based on the determination result,
The current detection determination device according to any one of claims 1 to 7, further comprising: notification information transmitting means for transmitting the notification information to the notification terminal device. A setting terminal device connected via a network to the current detection determination device according to any one of claims 1 to 8, wherein the setting terminal device detects the current, determines a change in the current, and reports the result.
Setting means for setting information regarding determination and notification,
A judging method selecting means for selecting one judging method from a plurality of judging methods;
A setting terminal device comprising: a transmitting unit configured to transmit information regarding determination and notification to the current detection determination device.

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