JP3767795B2 - Uninterruptible power supply system, setting program, and computer-readable recording medium recording the same - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
  The present invention relates to an uninterruptible power supply system including an uninterruptible power supply device disposed between a power source and a load device, and a setting program and a computer-readable recording medium on which the setting program is recorded. The present invention relates to an invention for automatically generating various setting data for a power supply device, thereby improving the service for each user.
[0002]
[Prior art]
  FIG. 4 is a system configuration diagram illustrating an example of a conventional uninterruptible power supply system.
[0003]
  The conventional uninterruptible power supply system includes a commercial AC power supply 50 as a power source, a load device 51, and an uninterruptible power supply device 52 disposed on a power supply path between them.
[0004]
  The uninterruptible power supply 52 outputs a commercial power supply path from the input terminal 53 to the output terminal 56 via the bypass wiring 54 and the two-input switch 55, and outputs from the battery 57 via the DC / AC inverter 58 and the two-input switch 55. And the microcomputer 59 monitors the input voltage and outputs a control signal to the two-input switch 55, so that the stored power supply path from the commercial power supply path when the power supply is abnormal is provided. Control to switch to. AC / DC converter 60 is provided to charge battery 57 with commercial AC power supply 50.
[0005]
  In the uninterruptible power supply 52, the microcomputer 59 normally outputs a control signal to the two-input switch 55 so as to select the commercial power supply path, and supplies the power of the commercial AC power supply 50 to the load device 51. When an abnormality occurs in the commercial AC power supply 50 or the like, the microcomputer 59 detects this abnormality by an input voltage or the like, and outputs a control signal for switching to the stored power supply path to the two-input switch 55.
[0006]
  By installing the uninterruptible power supply 52 in this manner, stable power can be supplied to the load device 51.
[0007]
[Problems to be solved by the invention]
  However, as shown in FIG. 4, the uninterruptible power supply 52 is provided with essential circuits such as a DC / AC inverter 58 and a microcomputer 59 in order to realize its functions. The circuit constantly consumes power.
[0008]
  In addition, when a power source in a factory is used as a power source, unlike commercial AC power provided by an electric power company, the voltage and frequency of AC power are likely to fluctuate due to increase or decrease in the number of load devices 51. In particular, night power supplied from an in-factory power plant designed on the assumption that the load is operating in a predetermined state, as shown in FIG. 5, the load state differs greatly from daytime at night. For this reason, the voltage or the like may rise beyond the standard of a general commercial power supply.
[0009]
  And if it becomes such an abnormal high voltage state, in the uninterruptible power supply 52 supplied on the assumption of the standard of a general commercial alternating current power supply, it will be judged as a power supply abnormality, and the electric power supplied to the load apparatus 51 Will be switched to the stored power of the battery 57.
[0010]
  In FIG. 5, the hatched portion is the allowable range of the input voltage, and the solid line waveform is the input voltage waveform corresponding to the stoppage of the factory operation. Here, the input voltage is abnormal in the upper limit level of the allowable range of the input voltage at night, and the uninterruptible power supply 52 supplies the stored power to the load device 51 during this period.
[0011]
  Such useless switching to stored power when the power supply is in a normal state is difficult to grasp. For example, the battery 57 deteriorates faster than expected due to repeated switching to stored power every night, and a power failure after the deterioration Sometimes, it is often recognized for the first time that the uninterruptible power supply 52 does not operate as specified. In this case, even if the uninterruptible power supply 52 is introduced, sufficient functions cannot be guaranteed when necessary.
[0012]
  For this reason, it is conceivable that the user himself / herself can change the setting of the detection voltage range for switching to the stored power of the uninterruptible power supply 52 as necessary. However, if the setting is changed in this way, there is a risk that the uninterruptible power supply 52 will not function normally in the event of an original abnormality.
[0013]
  Therefore, even if a setting program is provided to each user so that the setting of the uninterruptible power supply 52 can be changed from the personal computer, for each user who does not have sufficient knowledge and experience, the setting is appropriately set. It cannot be changed, and at most it is a level at which switching of operation / stop once a day as shown in FIG. 6 can be set. Here, the uninterruptible power supply 52 is set to operate from 8 am to 10 pm.
[0014]
  The present invention provides an uninterruptible power supply system capable of reducing power consumption without impairing reliability as an uninterruptible power supply in an uninterruptible power supply that requires reliability, and a setting. An object is to obtain a program and a computer-readable recording medium on which the program is recorded.
[0015]
[Means for Solving the Problems]
  In order to solve the above problems, the uninterruptible power supply system of the present invention isSelect one of the bypass wiring connected to the input terminal to which the power supply is connected and the DC / AC inverter supplied with the power input to the input terminal via the AC / DC converter and the online wiring. A two-input switch connected to the output terminal to which the load device is connected, and an on / off switch for connecting the power storage member to the online wiring,An uninterruptible power supply that supplies power from a power storage member provided therein to the load device when the power supply is abnormal, and storage means for storing power input to the uninterruptible power supply or output power together with time information And analyze the data stored in the storage means based on a predetermined period.In the time zone when power consumption is occurring, the DC / AC inverter is selected by the two-input switch, the on / off switch is closed, and the online operation mode in which the power storage member is connected to the online wiring is set. High efficiency in which the DC / AC inverter is selected by the two-input switch and the on / off switch is opened during the time period when power is generated and the power consumption of the load equipment is low and stable Set the operation modeAn uninterruptible power supply,The mode set by the analysis meansBased on dataIn different modes according to time of dayIt works.
[0016]
  If this configuration is adopted, based on the change in input power or output power caused by the power source and load accumulated by the storage means, the analysis means analyzes with a predetermined period as a reference,Set the online operation mode and high-efficiency operation mode of the UPS. In addition, since the mode set by the analysis means is created by an engineer who understands the characteristics of the uninterruptible power supply or related parties, it has technical information and knowledge about the uninterruptible power supply. It is possible to set so that the quality of the power source is significantly maintained as compared with the case where each user who directly sets the mode directly. Therefore, without impairing the reliability as an uninterruptible power supply, Suppressing charging / discharging of the electricity storage member by appropriate mode switching, extending the life of the electricity storage member,It becomes possible to reduce power consumption.
[0017]
  Another uninterruptible power supply system of the present invention is:An uninterruptible power supply that is connected between the power supply and the load device and supplies power from the power storage member provided inside to the load device when the power supply is abnormal, and power or output input to the uninterruptible power supply The storage means for storing the power to be stored together with the time information, and the data stored in the storage means is analyzed with reference to a predetermined period, If it is determined that there is a time zone in which the input voltage is constantly higher than the voltage of general commercial power, set the voltage abnormality detection range in that period higher than other time zones, or input When it is determined that there is a time period during which the voltage is constantly low, the analysis means for setting the voltage abnormality detection range in that period to be low, and the uninterruptible power supply is set by the analysis means Based on the detected value of the voltage abnormality detection range in the time zone, it is judged that the voltage range that is different for each time zone is abnormal.Is.
[0018]
  If this configuration is adopted,Based on a change in input power or output power caused by the power supply and load accumulated by the storage means, the analysis means analyzes with a predetermined period as a reference, and further detects a detection value for detecting an abnormal state of the power supply in a time zone. Set separately. In addition, since the detection value for each time zone set by the analysis means is created by an engineer who understands the characteristics of the uninterruptible power supply or related parties, the technical value related to the uninterruptible power supply Compared with the case where each user who does not have information or knowledge sets, it can set appropriately so that the quality of a power supply can be maintained markedly.
[0019]
  Therefore, for example, even when the input voltage fluctuates normally every time zone, for example, power is not supplied unnecessarily from the power storage member. When the input voltage fluctuates abnormally every time zone, Electric power can be supplied from the member. Without impairing the reliability as an uninterruptible power supply, for example, it is possible to reduce the number of useless times of the power storage member at night and to extend the life of the power storage member and reduce power consumption.
[0020]
The setting program of the present invention includes a bypass wiring connected to an input terminal to which a power source is connected, and a DC / AC inverter that supplies power input to the input terminal via an AC / DC converter and an online wiring. A two-input switch that selects one of the two and connects to an output terminal to which the load device is connected, and an on / off switch that connects the power storage member to the on-line wiring. A setting program for generating setting data, which is set for an uninterruptible power supply that supplies power from a stored power storage member to a load device. A step of accumulating information as log data in the data storage unit, and analyzing the log data in the data storage unit based on a predetermined period In the time zone when the power is generated, the DC / AC inverter is selected by the two-input switch, the on / off switch is closed, and the online operation mode in which the power storage member is connected to the online wiring is set. The high-efficiency operation mode in which the DC / AC inverter is selected by the two-input switch and the on / off switch is opened during the period when the power consumption of the load device is low and stable. The setting step is realized in a computer.
[0021]
The device in which the setting program is installed sets the online operation mode and the high-efficiency operation mode of the uninterruptible power supply based on the change in input power or output power caused by the power source and load accumulated by the accumulation unit. In addition, the mode set by this setting can be set so that the quality of the power supply is significantly maintained as compared with the case where each user directly sets the mode. Therefore, it is possible to extend the life of the power storage member and reduce power consumption without impairing the reliability of the uninterruptible power supply.
[0022]
Another setting program of the present invention is set for an uninterruptible power supply that is connected between a power source and a load device and supplies power from the power storage member provided therein to the load device when the power source is abnormal. A setting program for generating setting data, the step of accumulating the power input to the uninterruptible power supply or the output power as log data together with time information in the data storage unit, and log data of the data storage unit When the input voltage is determined to be constantly higher than the general commercial power voltage, the voltage abnormality detection range for that period is set to other time zones. Set higher than, or When it is determined that there is a time zone in which the input voltage is constantly low, the step of setting the voltage abnormality detection range in that period to be lower is realized in the computer.
[0023]
In the device in which the setting program is installed, the analysis unit analyzes the input power or the output power caused by the power source and the load accumulated by the storage unit based on a predetermined period, and further detects the abnormal state of the power source. Set the detection value for detection by time zone. In addition, the detection value for each time zone set by the analysis means can be set appropriately so as to maintain the quality of the power supply as compared with the case where each user sets. Therefore, it is possible to extend the life of the power storage member and reduce power consumption without impairing the reliability of the uninterruptible power supply.
[0024]
The computer-readable recording medium of the present invention includes a bypass wiring connected to an input terminal to which a power supply is connected, and a DC / DC supplied with electric power input to the input terminal via an AC / DC converter and an online wiring. One of the AC inverters is selected, and has a two-input switch that connects to an output terminal to which the load device is connected, and an on / off switch that connects the power storage member to the online wiring. A computer-readable recording medium recording a setting program for generating setting data, which is set for an uninterruptible power supply for supplying power from a power storage member provided inside to a load device, the uninterruptible power supply Storing data relating to input power or output power transmitted from A together with time information as log data in the data storage unit; The log data in the data storage unit is analyzed with a predetermined period as a reference, and the data storage unit selects a DC / AC inverter by a two-input switch and an on / off switch during a time period when power consumption occurs. The online operation mode for closing the power storage member and connecting the power storage member to the online wiring is memorized, and in the period when the power consumption is occurring and the power consumption of the load device is low and stable, The step of selecting the DC / AC inverter by the two-input switch and storing the high-efficiency operation mode in which the on / off switch is opened, and the step of reading the setting data from the data storage unit and transmitting it to the uninterruptible power supply Is realized on a computer.
[0025]
The computer in which this setting program is installed sets the on-line operation mode and the high-efficiency operation mode of the uninterruptible power supply based on the change in input power or output power caused by the power source and load accumulated by the accumulation means. In addition, the mode set by this setting can be set so that the quality of the power supply is significantly maintained as compared with the case where each user directly sets the mode. Therefore, it is possible to extend the life of the power storage member and reduce power consumption without impairing the reliability of the uninterruptible power supply.
[0026]
Moreover, since this setting program is stored in a computer-readable recording medium, it can be distributed to each user together with the uninterruptible power supply, and is executed on a computer different from the uninterruptible power supply. Therefore, it is possible to provide a better service at a lower cost than when the uninterruptible power supply itself is incorporated.
[0027]
Another computer-readable recording medium of the present invention is an uninterruptible power supply apparatus that is connected between a power source and a load device, and supplies power from the power storage member provided therein to the load device when the power source is abnormal. A computer-readable recording medium recording a setting program for generating setting data to be set for the log data in the data storage unit together with time information and data related to input power or output power transmitted from the uninterruptible power supply And the log data of the data storage unit is analyzed with reference to a predetermined period, and the data storage unit has a time zone in which the input voltage is constantly higher than the voltage of general commercial power If it is determined, remember that the voltage abnormality detection range in that period is set higher than other time zones, or input voltage If it is determined that permanently made there is a time zone low, and storing the setting the voltage abnormality detection range in the period to be lower, the de The step of reading the setting data from the data storage unit and transmitting the setting data to the uninterruptible power supply is realized in a computer.
[0028]
In the computer installed with this setting program, the analysis means analyzes the change of the input power or the output power caused by the power supply and the load accumulated by the storage means with reference to a predetermined period, and further detects the abnormal state of the power supply. Set the detection value for detection by time zone. In addition, the detection value for each time zone set by the analysis means can be set appropriately so as to maintain the quality of the power supply as compared with the case where each user sets. Therefore, it is possible to extend the life of the power storage member and reduce power consumption without impairing the reliability of the uninterruptible power supply.Moreover, this setting program is stored in a computer-readable recording medium.,NothingA better service can be provided at a lower cost than when this is incorporated in the power failure power supply itself.
[0029]
DETAILED DESCRIPTION OF THE INVENTION
  An uninterruptible power supply system according to an embodiment of the present invention, a setting program, and a computer-readable recording medium in which the setting program is recorded will be described with reference to the drawings. The setting program and the computer-readable recording medium on which the setting program is recorded will be described on the assumption that these programs are already installed in the computer.
[0030]
  FIG. 1 is a system configuration diagram showing an example of an uninterruptible power supply system according to Embodiment 1 of the present invention.
[0031]
  The uninterruptible power supply system includes a computer 1 as a load device, an AC commercial power source 2 as a power source, and an uninterruptible power supply device 3 connected between the commercial AC power source 2 and the computer 1.
[0032]
  The uninterruptible power supply 3 includes an input terminal 4 to which a commercial AC power supply 2 is connected, an output terminal 5 to which a computer 1 is connected, a relay switch, and the like, and a fixed contact 6 is connected to the output terminal 5. Connected to the input switch 7, a bypass wiring (first power supply path) 9 that connects one switching contact 8 of the two-input switch 7 and the input terminal 4, and the other switching contact 10 of the two-input switch 7. The power supply circuit 11 during power failure and the state of the commercial AC power source 2 are monitored, the state of the commercial AC power source 2 is determined using the setting data stored in the data storage unit 12, and the two-input switch 7 and power failure And a microcomputer 13 for controlling the operation of the hourly power supply circuit 11. An unillustrated cutoff switch for completely stopping the power supply to the computer 1 may be provided between the two-input switch 7 and the output terminal 5.
[0033]
  The power supply circuit 11 at the time of a power failure includes a power storage member 14 made of a battery or a capacitor, and a DC / AC inverter 15 that converts DC power stored in the power storage member 14 into AC power having the same waveform as that of the commercial AC power supply 2. An AC / DC converter (charging means) 16 that converts part of the power input from the input terminal 4 to DC power and outputs the output, and an output of the AC / DC converter 16 and an input of the DC / AC inverter 15 An online wiring 17 to be connected and an on / off switch 18 provided between the online wiring 17 and the power storage member 14 are provided. The path from the AC / DC converter 16 to the DC / AC inverter 15 via the online wiring 17 corresponds to the second power supply path.
[0034]
  In the uninterruptible power supply 3 having such a hardware configuration, the microcomputer 13 selects the bypass wiring 9 in the two-input switch 7, and thereby bypasses the power supply directly from the commercial AC power supply 2 to the load device 1. Mode, an on-line operation mode in which the DC / AC inverter 15 is selected in the two-input switch 7 and the on / off switch 18 is set in an on (connected) state, and the DC / AC inverter 15 is selected in the two-input switch 7 A high-efficiency operation mode in which the on / off switch 18 is set to an off (that is, disconnected) state can be set.
[0035]
  When these operation modes are compared, it is the online operation mode that can be switched to the power supply from the power storage member 14 earliest when a power failure of the commercial AC power supply 2 is detected, followed by the high efficiency operation mode, and finally the bypass operation. It becomes a mode. On the contrary, the power consumption of the uninterruptible power supply 3 can be minimized, in the bypass operation mode, followed by the high efficiency operation mode and finally the online operation mode. Therefore, depending on the type of the load device, it is possible to achieve both high reliability and economical efficiency (suppression of power consumption) by switching these transmission modes as necessary.
[0036]
  The computer 1 as a load device includes an interface unit (I / F unit) 19 connected to a port (not shown) of the microcomputer 13, a control body 21 including a control unit 20, a program storage unit 22, and a data storage unit 23. And a power supply unit 25 that supplies predetermined power to them. An output terminal 5 is connected to the power supply unit 25.
[0037]
  The control unit 20 executes various programs stored in the program storage unit 22 to control data transmission / reception processing with the microcomputer 13 by the I / F unit 19.
[0038]
  The program storage unit 22 stores a transfer program for the uninterruptible power supply device including a log accumulation program 26, a log analysis program 27, a transfer program 28, and the like, and other programs that are executed by the control unit 20. . The data storage unit 23 stores log data 29, setting data 30, and other data, which are various data used when the control unit 20 executes each program. Note that the uninterruptible power supply transfer program is generally provided to each user in a state of being stored in a computer-readable storage medium (not shown), and each user installs the program in the computer 1. As a result, the program is stored in the program storage unit 22.
[0039]
  The log data 29 is data in which various data transmitted as appropriate from the microcomputer 13 are stored according to time.
[0040]
  The setting data 30 is data for storing in the data storage unit 12 and operating the microcomputer 13 using the setting data 30.
[0041]
  The log storage program 26 is executed by the control unit 20 based on a data transmission request from the microcomputer 13 or an activation request from a timer (not shown). The control unit (storage unit) 20 that executes the log storage program 26 performs data communication with the microcomputer 13, and logs various data collected by the microcomputer 13 at that time together with the time information to the log data 29. To perform additional registration.
[0042]
  The log analysis program 27 is repeatedly executed by the control unit 20 based on an activation request from a timer (not shown) or the like. Then, the control unit (analyzing means) 20 that executes the log analysis program 27 analyzes the log data 29 so that optimum operation control by the microcomputer 13 can be obtained, and stores these analysis results as setting data 30. Store in the unit 23.
[0043]
  The transfer program 28 is executed by the control unit 20 based on inter-program communication from the log analysis program 27 or subsequent timer interruption. The control unit (transfer unit) 20 that executes the transfer program 28 performs data communication with the microcomputer 13 and stores various data stored as setting data 30 in the data storage unit 23 in the data storage of the microcomputer 13. Processing to be stored in the unit 12 is performed.
[0044]
  Next, the operation will be described.
[0045]
  The commercial AC power supply 2 is connected to the input terminal 4 of the uninterruptible power supply 3, and the computer 1 as a load device is connected to the output terminal 5. In the initial state when the power is turned on, the uninterruptible power supply 3 is normally set to the online operation mode so that the maximum capacity is exhibited during a power failure.
[0046]
  As a result, the AC power supplied from the commercial AC power source 2 is supplied to the computer 1 via the input terminal 4, the AC / DC converter 16, the online wiring 17, the DC / AC inverter 15, the two-input switch 7, and the output terminal 5. Is supplied to the power supply unit 25. Then, the control main body 21 and the storage device 24 start operation by the power supplied from the power supply unit 25. Further, the DC output output from the AC / DC converter 16 is supplied to the power storage member 14 via the on / off switch 18, and the power storage member 14 is charged.
[0047]
  In such a state, the microcomputer 13 monitors the voltage or frequency of the AC power input to the input terminal 4, and this is a voltage abnormality detection range such as a standard of the commercial AC power supply 2 (for example, “100 v ± 10%”). ) Is performed every very short period to detect abnormalities in power quality, such as whether or not the above is satisfied or whether the load is overloaded. Data such as a voltage abnormality detection range is stored as setting data 30 in the data storage unit.
[0048]
  For example, when a power failure occurs such that the input voltage becomes lower than the voltage abnormality detection lower limit level (for example, “100 v−10%”), the microcomputer 13 detects this and turns the two-input switch 7 on one of them. The switching contact 8 is switched to the other switching contact 10. Thereby, the stored power obtained by converting the power stored in the power storage member 14 into the AC power source by the DC / AC inverter 15 is supplied to the computer 1 via the output terminal 5, and the commercial AC power source 2 is abnormal. Regardless, the computer 1 can continue to operate normally based on the stored power.
[0049]
  After that, when the input voltage is stabilized at a voltage higher than the voltage abnormality detection lower limit level, the microcomputer 13 detects this and performs a process of returning the two-input switch 7 from the other switching contact 10 to the one switching contact 8. Do. As a result, the computer is operated by the AC power from the commercial AC power supply 2 and the power storage member 14 is charged.
[0050]
  While the monitoring process of such input power and the switching process of the power supply source at the time of power failure are performed in the uninterruptible power supply 3 under the control of the microcomputer 13, the control unit 20 of the computer 1 The log storage program 26 is executed on the basis of a data transmission request from the timer 13 or a startup request from a timer (not shown), and the various data collected by the microcomputer 13 is stored as log data 29 together with the time information to the data storage unit 23. Remember.
[0051]
  As a result, log data 29 obtained by sampling the input voltage, the input frequency, the output voltage, the output frequency, etc. every predetermined time is stored in the data storage unit 23.
[0052]
  Further, the control unit 20 repeatedly executes the log analysis program 27 based on a start request from a timer or the like. Then, the control unit 20 that executes the log analysis program 27 analyzes the log data so that the optimum uninterruptible power supply process according to the user is obtained, and the data storage unit 23 uses these analysis results as setting data 30. Remember me.
[0053]
  Specifically, first, in the present embodiment, the microcomputer 13 acquires information on the voltage and frequency of the AC power input to the input terminal 4 and information on the voltage and frequency of the output terminal 5 and performs log analysis. The control unit 20 that executes the program 27 is based on, for example, a period such as one day or one week depending on the importance of the load input by the user in advance, that is, how much instantaneous power failure is allowed. The log is analyzed, and based on this, operation schedule data for optimizing the operation mode, for example, in units of one hour is generated. In this analysis, other environmental information such as the environmental temperature may be appropriately taken into consideration.
[0054]
  For example, when the setting is such that no power failure is allowed, operation schedule data that is always operated in the online operation mode is generated. That is, it is set not to switch to another mode.
[0055]
  On the other hand, power consumption is constantly generated in the night time zone based on the power consumption log data as in the case where the instantaneous power failure is allowed and the computer 1 as the load device is used only in the daytime. If it can be determined that it is not, set the online operation mode or high-efficiency operation mode during the daytime when power consumption is occurring, and bypass operation mode during the nighttime when it does not occur. Or stop is set. In FIG. 2, the online operation mode is set from 8:00 am to 10:00 pm, and the rest is set to stop.
[0056]
  Furthermore, a period in which instantaneous power failure is allowed and the power consumption of the load device (computer 1) is low and stable, such as during lunch, repeatedly occurs in the same time zone based on the power consumption log data. If it can be determined that the vehicle is in the high-efficiency operation mode during that time period. In FIG. 2, the high-efficiency operation mode is set from 12:00 am to 1:00 pm.
[0057]
  With these settings, the power consumption of the uninterruptible power supply 3 can be changed according to the usage status of the user's load device (computer 1), and the reliability and economics of the uninterruptible power supply 3 are enhanced. Both can be achieved.
[0058]
  In this embodiment, in addition, the microcomputer 13 obtains information on the voltage and frequency of the AC power input to the input terminal 4 and information on the voltage and frequency of the output terminal 5, and the log analysis program 27 is executed. The executing control unit 20 analyzes the log data 29 in units of periods such as one day or one week, and generates detection level schedule data for optimizing the power supply abnormality detection range, for example, in units of one hour based on this. . Note that other environmental information such as environmental temperature may be appropriately taken into consideration.
[0059]
  When supplying AC power to a load device, generally, the electrical characteristics of the load change due to an increase or decrease in the number of load devices, and the voltage level and frequency of the AC power also change. Therefore, the electric power company predicts such load fluctuations based on past data, and performs control to keep the quality of commercial power constant. However, power plants in factories and the like are often designed on the assumption that the load is operating in a predetermined state. Therefore, control equipment for keeping the voltage level and frequency of such AC power constant. In many cases, is not provided. As a result, the power supplied from the power plant in the factory may fluctuate greatly between the daytime when the load device is operating and the nighttime when it is stopped.
[0060]
  For example, when it is determined that there is a time zone in which the input voltage is constantly higher than the voltage of general commercial power based on the log data of the input voltage, the voltage abnormality detection range in that period is set to other range. Set higher than the time zone. In addition, when it is determined that there is a time zone that is constantly low, the voltage abnormality detection range in that period is set lower. In FIG. 3, the voltage abnormality detection range that is normally set to “100V ± 10%” is changed from 8 pm to 6 am, and the upper limit level of voltage abnormality detection is changed to “100 V + 20%”. The center value (100 V in this example) may be adjusted instead of expanding the range (plus or minus range) in this way.
[0061]
  With these settings, a margin between the input voltage and each detection voltage can be appropriately ensured according to a change in the voltage of the AC power input to the input terminal 4, for example, instantaneously without any problem at night. It is possible to prevent switching to the power supply from the power storage member 14 based on a typical voltage change or the like. Thereby, the useless frequency | count of the electrical storage member 14 can be reduced, and the lifetime of the electrical storage member 14 can be extended.
[0062]
  The control unit 20 of the computer 1 executes the transfer program 28 based on the inter-program communication of the log analysis program 27 or the subsequent timer interrupt. Various setting data 30 stored in the data storage unit 23 is transferred to the data storage unit 12 of the microcomputer 13 and stored therein.
[0063]
  When the setting data 30 is transferred to the data storage unit 12 by the transfer program 28, it is better to inquire the user prior to the processing. Thereby, the user himself / herself can use the data optimized under the responsibility.
[0064]
  Thereby, the microcomputer 13 operates in each operation mode based on the new setting data 30 optimized based on the log data 29, and periodically inputs the input voltage input to the input terminal 4 and the like. And if the abnormality occurs in them, a process of switching the two-input switch 7 to another selection contact 10 is performed.
[0065]
  The above embodiment is a preferred embodiment of the present invention, but can be appropriately modified without departing from the gist of the invention. For example, in this embodiment, the load data (computer 1) connected to the output terminal 5 generates the log data 29 and generates various setting data 30 based on the log data 29. However, the same processing may be performed in a device separate from the load device, or the same processing may be performed in the uninterruptible power supply 3.
[0066]
  However, as in the present embodiment, the setting of the uninterruptible power supply 3 including the log accumulation program 26, the log analysis program 27, and the transfer program 28 as a program that operates on an apparatus different from the uninterruptible power supply 3 By providing the program, it is possible to provide the detailed service described above at low cost (with high economy) without changing the hardware of the uninterruptible power supply 3 itself.
[0067]
  Further, in the uninterruptible power supply 3 that is generally sold, the power supply must be repeatedly monitored in a short cycle, and the processing capability of the current microcomputer used for such a purpose is used. When the same processing is performed in the uninterruptible power supply 3, it is better to incorporate a microcomputer as a control unit aside from the microcomputer 13. Thereby, it can optimize, without impairing the original functions (monitoring function etc.) of the uninterruptible power supply 3.
[0068]
  In this embodiment, various setting data 30 are obtained based on the information on the AC power input to the input terminal 4 and the load power output from the output terminal 5. These may be obtained using environmental data such as humidity and humidity. In particular, when setting an absolute value or the like based on the log data 29 as in the case where the set value of the voltage detection range is obtained as described above, the log data 29 at each time is corrected using such environmental data. It is good to use it for arithmetic processing above. Although the environmental data used here may be detected by a sensor (not shown) incorporated in the uninterruptible power supply 3, the computer 1 may obtain it from a weather information service on the Internet (not shown). May be.
[0069]
【The invention's effect】
  In the present invention, in an uninterruptible power supply that requires reliability in this way, an uninterruptible power supply system that enables reduction of power consumption without impairing reliability as an uninterruptible power supply, and setting A program and a computer-readable recording medium on which the program is recorded can be obtained.
[Brief description of the drawings]
FIG. 1 is a system configuration diagram showing an example of an uninterruptible power supply system according to a first embodiment of the present invention.
FIG. 2 is a diagram showing an example of a setting schedule for an operation mode of the uninterruptible power supply in the uninterruptible power supply system of FIG.
FIG. 3 is a diagram showing an example of a setting schedule for a voltage abnormality detection range of an input voltage of the uninterruptible power supply in the uninterruptible power supply system of FIG. 1;
FIG. 4 is a system configuration diagram showing an example of a conventional uninterruptible power supply system.
FIG. 5 is an explanatory diagram showing a change in voltage level per day of power supplied from a power plant in a factory.
FIG. 6 is an explanatory diagram showing an operation example of the uninterruptible power supply per day that can be set by the user.
[Explanation of symbols]
1 Computer (loading equipment)
2 AC commercial power supply
3 Uninterruptible power supply
4 input terminals
5 Output terminal
6 Fixed contacts
7 Two-input switch
8 One switching contact
9 Bypass wiring (first power supply route)
10 The other switching contact
11 Power supply circuit at power failure
12 Data storage
13 Microcomputer
14 Power storage member
15 DC / AC inverter (second power supply path)
16 AC / DC converter (charging means, second power supply path)
17 Online wiring (second power supply route)
18 On / off switch
19 Interface section (I / F section)
20 Control unit
21 Control body
22 Program storage
23 Data storage
24 storage equipment
25 Power supply unit
26 Log accumulation program
27 Log analysis program
28 Transfer program
29 Log data
30 Setting data

Claims (6)

One of the bypass wiring connected to the input terminal to which the power is connected and the DC / AC inverter supplied with the power input to the input terminal via the AC / DC converter and the online wiring is selected. A two-input switch for connecting to an output terminal to which a load device is connected, and an on / off switch for connecting a power storage member to the online wiring, and from the power storage member provided inside when the power supply is abnormal An uninterruptible power supply that supplies the power to the load equipment,
Storage means for storing power input to the uninterruptible power supply or output power together with time information;
The data stored in the storage means is analyzed with a predetermined period as a reference, and the DC / AC inverter is selected by the two-input switch and the on / off switch in a time zone in which power consumption occurs. Is set in an online operation mode in which the power storage member is connected to the online wiring, and the power consumption of the load device is low and stable during the time period when the power consumption is occurring. Comprises analyzing means for selecting the DC / AC inverter by the two-input switch and setting the high-efficiency operation mode in which the on / off switch is opened ,
The uninterruptible power supply system operates in a different mode for each time zone based on the mode data set by the analyzing means .   An uninterruptible power supply that is connected between a power source and a load device, and supplies power to the load device from the power storage member provided inside when the power source is abnormal,
Storage means for storing power input to the uninterruptible power supply or output power together with time information;
  When the data stored in the storage means is analyzed based on a predetermined period, and it is determined that there is a time zone in which the input voltage is constantly higher than the voltage of general commercial power, Analysis that sets the voltage abnormality detection range higher than other time zones, or if it is determined that there is a time zone during which the input voltage is constantly low, sets the voltage abnormality detection range lower during that period Means,
  The uninterruptible power supply system is characterized in that, based on a detection value of a voltage abnormality detection range in a time zone set by the analysis means, a different voltage range for each time zone is determined to be abnormal.   One of the bypass wiring connected to the input terminal to which the power is connected and the DC / AC inverter supplied with the power input to the input terminal via the AC / DC converter and the online wiring is selected. A two-input switch for connecting to an output terminal to which a load device is connected, and an on / off switch for connecting a power storage member to the online wiring, and from the power storage member provided inside when the power supply is abnormal A setting program for generating setting data, which is set for the uninterruptible power supply that supplies the power to the load device,
  Storing the power input to the uninterruptible power supply or the output power together with time information in the data storage unit as log data;
  The log data in the data storage unit is analyzed with reference to a predetermined period, and during the time period when power consumption is occurring, the DC / AC inverter is selected by the two-input switch and the on / off switch is closed. The online operation mode for connecting the power storage member to the online wiring is set, and in the time zone in which the power consumption is occurring and the power consumption of the load device is low and stable, Select the DC / AC inverter with the two-input switch and set the high-efficiency operation mode with the on / off switch open And steps to
  A setting program comprising: A setting program for generating setting data, which is connected between the power source and the load device, and is set for the uninterruptible power supply that supplies power from the power storage member provided inside to the load device when the power source is abnormal Because
Storing the power input to the uninterruptible power supply or the output power together with time information as log data in the data storage unit;
When the log data of the data storage unit is analyzed with reference to a predetermined period, and it is determined that there is a time zone in which the input voltage is constantly higher than the voltage of general commercial power, the voltage abnormality in that period If the detection range is set higher than other time zones, or if it is determined that there is a time zone during which the input voltage is constantly low, a step of setting the voltage abnormality detection range lower during that period; and
A setting program comprising: One of the bypass wiring connected to the input terminal to which the power is connected and the DC / AC inverter supplied with the power input to the input terminal via the AC / DC converter and the online wiring is selected. Te, a two-input switch for connecting the output terminals of the load device is connected, the storage member has an on / off switch that is connected to the line wiring, from the storage member provided inside during of the power failure A computer-readable recording medium that records a setting program for generating setting data for the uninterruptible power supply that supplies the power to the load device,
Storing data relating to input power or output power transmitted from the uninterruptible power supply device together with time information as log data in a data storage unit;
Log data in the data storage unit is analyzed with a predetermined period as a reference, and the DC / AC inverter is selected by the two-input switch and the DC / AC inverter is selected in the time period during which power consumption is generated in the data storage unit. An on-off switch is closed to store an on-line operation mode in which the power storage member is connected to the on-line wiring. Further, the power consumption of the load device is low and stable within the time period when the power consumption is occurring. A step of selecting the DC / AC inverter by the two-input switch and storing the high-efficiency operation mode in which the on / off switch is opened ;
And reading the setting data from the data storage unit and transmitting the setting data to the uninterruptible power supply.   A setting program for generating setting data that is connected between the power source and the load device and is set for the uninterruptible power supply that supplies power from the power storage member provided in the inside to the load device when the power source is abnormal A computer-readable recording medium on which is recorded,
  Storing data relating to input power or output power transmitted from the uninterruptible power supply device together with time information as log data in a data storage unit;
  When the log data of the data storage unit is analyzed based on a predetermined period, and it is determined that the data storage unit has a time zone in which the input voltage is constantly higher than the voltage of general commercial power , Remember to set the voltage abnormality detection range in that period higher than other time zones, or if you determine that there is a time zone during which the input voltage is constantly lower, Memorizing that the detection range is set lower;
  And reading the setting data from the data storage unit and transmitting the setting data to the uninterruptible power supply.

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