JP3746477B2 - Uninterruptible power supply system monitoring method, uninterruptible power supply system, and monitoring device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an uninterruptible power supply system monitoring method, an uninterruptible power supply system, and a monitoring device that monitor a plurality of uninterruptible power supply devices with a single monitoring device.
[0002]
[Prior art]
Conventionally, an uninterruptible power supply system including an uninterruptible power supply device and a monitoring device is disclosed in Patent Document 1, for example.
[0003]
In the conventional uninterruptible power supply system described in Patent Document 1, the uninterruptible power supply and the personal computer are connected by a public telephone line. And the input voltage switch of an uninterruptible power supply can be opened and closed by outputting a control signal from a personal computer to an uninterruptible power supply.
[0004]
By the way, in order to back up a load apparatus suitably, an uninterruptible power supply system may be constructed using a plurality of uninterruptible power supplies. In particular, in a power environment where a large number of communication devices that require power backup are used in a distributed manner as in recent years, for example, a plurality of uninterruptible power supplies are used for each communication device. An uninterruptible power supply system that uses a plurality of uninterruptible power supply devices as described above is disclosed in Patent Document 2, for example.
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 9-15285
[Patent Document 2]
JP-A-8-289485
[0006]
[Problems to be solved by the invention]
However, in the conventional uninterruptible power supply system disclosed in Patent Document 1, a personal computer is provided for each uninterruptible power supply. As a result, one personal computer cannot simultaneously monitor two or more uninterruptible power supplies. For this reason, when trying to monitor a plurality of uninterruptible power supplies at all times, a plurality of personal computers are required, which increases costs and complicates the system.
[0007]
Further, in the conventional uninterruptible power supply system disclosed in Patent Document 2, when power supplied from one uninterruptible power supply is supplied to a load device, the input power of the one uninterruptible power supply is For example, when a power failure occurs, the switch is switched to supply power to the load device from the other uninterruptible power supply. Thereby, although the input power of one uninterruptible power supply has a power failure, it is possible to continue operating the load device.
[0008]
Although the uninterruptible power supply system described in Patent Document 2 has such advantages, a plurality of uninterruptible power supplies are required for one load device, and in principle, one unit for each uninterruptible power supply. A monitoring device is required every time. In addition, what is necessary is just to set so that a monitoring apparatus may also switch a monitoring object corresponding to switching of an uninterruptible power supply. Thereby, one monitoring device is sufficient for a plurality of uninterruptible power supply devices, but each uninterruptible power supply device cannot always be monitored by one monitoring device.
[0009]
As described above, there is no conventional uninterruptible power supply system that can monitor a plurality of uninterruptible power supply devices simultaneously and constantly with one monitoring device. It is necessary to arrange a large number. For this reason, if it is going to monitor each uninterruptible power supply apparatus of an uninterruptible power supply system simultaneously and always, the wiring of an uninterruptible power supply system will become complicated, and cost will rise.
[0010]
The present invention has been made in view of the above problems, and an uninterruptible power supply system monitoring method and uninterruptible power supply system capable of simultaneously and constantly monitoring a plurality of uninterruptible power supply devices without complicating the configuration and the system. An object is to obtain a power supply system and a monitoring device.
[0011]
[Means for Solving the Problems]
The monitoring method of the uninterruptible power supply system according to the present invention is a monitoring method of the uninterruptible power supply system that monitors a plurality of uninterruptible power supply devices with the monitoring device, and from each uninterruptible power supply device, Switch setting value and device data for which the cooperative operation status of the device is set Monitoring device, device data and Of the switch for which the cooperative operation status is set Receiving the set value, displaying the display object of the uninterruptible power supply for each set value, and when the display object is selected, all the uninterruptible power supplies having the set value corresponding to the selected display object Display device data.
[0012]
If this method is adopted, the monitoring device can transmit and display device data of a plurality of uninterruptible power supply devices, and the management device can monitor the plurality of uninterruptible power supply devices simultaneously and constantly.
[0013]
In particular, by setting the same value to the switches of a plurality of uninterruptible power supply units connected in series or in parallel and operating in cooperation with each other, the plurality of uninterruptible power supply units are combined into one uninterruptible power supply unit. And the device data of a plurality of uninterruptible power supplies can be displayed as the configuration information of one uninterruptible power supply.
[0014]
As a result, it is possible to monitor the plurality of uninterruptible power supply devices that are operating in a coordinated manner not only individually but also in a state in which the cooperative operation is performed, that is, the interlocking relationship. In addition, a plurality of uninterruptible power supply devices operating in cooperation with each other can be managed by a single monitoring device together with other uninterruptible power supply devices.
[0015]
The monitoring method for the uninterruptible power supply system according to the present invention further includes determining whether each uninterruptible power supply is supplying power or stopping power supply based on the device data, and supplying the uninterruptible power supply. Only the device data of the power supply device is displayed according to the selection of the display object.
[0016]
If this method is employed, the uninterruptible power supply that has stopped supplying power is not displayed. Therefore, for example, when redundant operation is performed with n + 1 uninterruptible power supply apparatuses, only the device data of the n uninterruptible power supply apparatuses to which power is supplied can be displayed. As a result, the n + 1 uninterruptible power supply devices that are redundantly operated can be monitored as an aggregate of n uninterruptible power supply devices.
[0017]
An uninterruptible power supply system according to the present invention is provided in a plurality of uninterruptible power supply devices, a monitoring device that monitors the plurality of uninterruptible power supply devices, and each uninterruptible power supply device. The cooperative operation status of the device is set A switch, a lower communication member provided in each uninterruptible power supply, a higher communication member provided in the monitoring device, a plurality of signal lines connecting the plurality of lower communication members and the upper communication member, and each uninterruptible power supply Transmitting means provided in the device for transmitting the respective device data and switch setting values to the lower communication member, a storage member provided in the monitoring device, and the device data and switch provided in the monitoring device via the upper communication member A receiving means for receiving the set value and storing the received data in a storage member; and a monitoring device, Of the switch for which the cooperative operation status is set Display that displays the display object of the uninterruptible power supply for each set value, and displays the device data related to all uninterruptible power supplies having the set value corresponding to the selected display object when the display object is selected Means.
[0018]
If this configuration is adopted, the monitoring device can transmit and display the device data of the plurality of uninterruptible power supply devices, and the management device can simultaneously monitor the plurality of uninterruptible power supply devices at the same time. In particular, by setting the same value to the switches of a plurality of uninterruptible power supply units connected in series or in parallel and operating in cooperation with each other, the plurality of uninterruptible power supply units are combined into one uninterruptible power supply unit. And the device data of a plurality of uninterruptible power supplies can be displayed as the configuration information of the single uninterruptible power supply.
[0019]
The uninterruptible power supply system according to the present invention further operates by determining whether each uninterruptible power supply is feeding or stopping feeding based on the device data stored in the storage member. Only the device data of the uninterruptible power supply is displayed according to the selection of the display object.
[0020]
If this configuration is adopted, the uninterruptible power supply that has stopped supplying power is not displayed. Therefore, for example, when redundant operation is performed with n + 1 uninterruptible power supply apparatuses, only the device data of the n uninterruptible power supply apparatuses to which power is supplied can be displayed.
[0021]
The monitoring device according to the present invention is a monitoring device for monitoring a plurality of uninterruptible power supply devices, each of the storage member and each of the plurality of uninterruptible power supply devices, and each device data and The cooperative operation status of the device is set An upper communication member for receiving a setting value by the switch, and a receiving means for storing the device data and the setting value received by the upper communication member in a storage member; Of the switch for which the cooperative operation status is set Display that displays the display object of the uninterruptible power supply for each set value, and displays the device data related to all uninterruptible power supplies having the set value corresponding to the selected display object when the display object is selected Means.
[0022]
If this configuration is adopted, the monitoring device can transmit and display the device data of the plurality of uninterruptible power supply devices, and the management device can simultaneously monitor the plurality of uninterruptible power supply devices at the same time. In particular, by setting the same value to the switches of a plurality of uninterruptible power supply units connected in series or in parallel and operating in cooperation with each other, the plurality of uninterruptible power supply units are combined into one uninterruptible power supply unit. And the device data of a plurality of uninterruptible power supplies can be displayed as the configuration information of the single uninterruptible power supply.
[0023]
In the monitoring apparatus according to the present invention, the display unit is further operated by determining whether each uninterruptible power supply is supplying power or stopping power supply based on the device data stored in the storage member. Only the device data of the uninterruptible power supply is displayed according to the selection of the display object.
[0024]
If this configuration is adopted, the uninterruptible power supply that has stopped supplying power is not displayed. Therefore, for example, when redundant operation is performed with n + 1 uninterruptible power supply apparatuses, only the device data of the n uninterruptible power supply apparatuses to which power is supplied can be displayed.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a method for monitoring an uninterruptible power supply system, an uninterruptible power supply system, and a monitoring apparatus according to the present invention will be described with reference to the drawings. The method for monitoring the uninterruptible power supply system will be described as part of the operation of the uninterruptible power supply system.
[0026]
FIG. 1 is a device configuration diagram showing an uninterruptible power supply 1 according to an embodiment of the present invention.
[0027]
The uninterruptible power supply 1 includes a pair of input terminals 11 to which a later-described distribution line 3 is connected, a pair of output terminals 12 to which a later-described distribution line 3 is connected, a converter 13 connected to the input terminal 11, An inverter 14 connected to the output terminal 12 and a battery 15 connected between the converter 13 and the inverter 14 are provided.
[0028]
Converter 13 converts AC power input from input terminal 11 into DC power. This DC power is supplied to the battery 15 and the inverter 14. The battery 15 is charged with DC power. The inverter 14 converts DC power into AC power. The AC power generated by the inverter 14 is output from the output terminal 12.
[0029]
Converter 13 and inverter 14 are controlled by microcomputer 16. The microcomputer 16 includes an I / O port (Input / Output Port) 17 that outputs a control signal to the converter 13 and the inverter 14, a storage member 18 that stores a program and data, and a central processing unit (CPU: CPU) that executes the program. A central processing unit (RAM) 19, a RAM (Random Access Memory) 20 used as a work area when the central processing unit 19 executes a program, and a system bus 21 interconnecting them.
[0030]
The storage member 18 stores a power supply monitoring program 22. The power supply monitoring program 22 is executed by the central processing unit 19 when the uninterruptible power supply 1 is activated. Thereby, power supply monitoring means is realized. The storage member 18 stores device data such as setting data 23, operation data 24, and alarm data 25.
[0031]
The power monitoring unit monitors the AC power input to the input terminal 11. Actually, a detection signal from a detection member (not shown) that detects an input voltage and an input current is input to the I / O port 17, and the detection signal input to the I / O port 17 is monitored. The detection signal input to the I / O port 17 is stored in the storage member 18 as a part of the operation data 24.
[0032]
When the detection signal input to the I / O port 17 can be determined to be normal based on the setting data 23 such as the input voltage range, for example, the power supply monitoring unit operates the converter 13 and the inverter 14. Thereby, normal AC power input from the input terminal 11 is output from the output terminal 12 via the converter 13 and the inverter 14. Further, the battery 15 is charged with the electric power converted into direct current by the converter 13.
[0033]
When the detection signal input to the I / O port 17 becomes abnormal due to a power failure or the like, the power supply monitoring unit stops the converter 13. As a result, the DC power stored in the battery 15 is converted into AC power by the inverter 14, and this AC power is output from the output terminal 12 as backup power. Further, the power monitoring means stores alarm data 25 indicating a state in which backup power is supplied in the storage member 18. The power supply monitoring unit continues to monitor the AC power input to the input terminal 11 and operates the converter 13 again when the AC power returns to a normal state. Further, the power supply monitoring unit erases the alarm data 25 in the storage member 18 simultaneously with or before or after the re-operation of the converter 13. Note that the alarm history may be stored as data inside without being deleted.
[0034]
As described above, even if the AC power input to the input terminal 11 is abnormal, the uninterruptible power supply 1 switches the power supply source to the battery 15 and continues to supply normal AC power from the output terminal 12. be able to. As a result, a load device 5 to be described later connected to the output terminal 12 may continue to operate normally with the backup power even though the AC power input to the input terminal 11 is in an abnormal state. it can.
[0035]
The uninterruptible power supply 1 according to the first embodiment is further provided with a lower communication member 26 and a dip switch 27 as a switch. The lower communication member 26 and the dip switch 27 are each connected to the I / O port 17. In addition, a communication program 28 is stored in the storage member 18.
[0036]
The dip switch 27 is a combination of a plurality of switches. Each switch is alternatively set to an on state or an off state. Each switch outputs a setting state. The dip switch 27 outputs a combination of setting states of a plurality of switches as a setting value.
[0037]
In this embodiment, the dip switch 27 is used as a switch for outputting the set value, but it may be a rotary switch or a simple switch. Also, a switch realized by a program may be used. However, since the DIP switch 27 is generally a combination of 4 or 8 switches, 15 (16 (= 24)) types of setting values and 255 (256 (= 28)) types of setting values are available. Even in a situation where the number of uninterruptible power supply devices 1 constituting the uninterruptible power supply system increases as will be described later, the uninterruptible power supply device 1 of the present embodiment is used. can do.
[0038]
The lower communication member 26 transmits communication data input from the I / O port 17 to a later-described upper communication member 36 via a later-described signal line 6 connected to the lower communication member 26. The lower communication member 26 outputs communication data received from the upper communication member 36 (see FIG. 2), which will be described later, via the signal line 6 to the I / O port 17.
[0039]
Examples of the signal line 6 (see FIG. 3) include an Ethernet cable and a telephone line cable. When an Ethernet cable is used as the signal line 6, the lower communication member 26 and the upper communication member 36 transmit or receive communication data according to a communication procedure compliant with TCP / IP (Transmission Control Protocol / Internet Protocol) or the like. When a telephone line cable is used as the signal line 6, the lower communication member 26 and the upper communication member 36 transmit or receive communication data according to a communication procedure corresponding to ATM (Asynchronous Transfer Mode).
[0040]
The communication program 28 is executed by the central processing unit 19 when the uninterruptible power supply 1 is activated. Thereby, a communication means as a transmission means is realized.
[0041]
The communication means reads the setting data 23, the operation data 24, and the alarm data 25 from the storage member 18, and also reads the setting values of the dip switch 27 input to the I / O port 17, and summarizes these device data and setting values. And output to the lower communication member 26 as communication data. At this time, for example, when the lower communication member 26 is operating based on TCP / IP, the communication means designates the destination IP address. Thereby, the lower communication member 26 can transmit the device data and the set value as communication data to the designated transmission destination.
[0042]
The communication unit may periodically transmit the setting data 23 or the like, or may transmit the setting data 23 or the like in response to a transmission request from the upper communication member 36.
[0043]
Further, the communication means stores the communication data received by the lower communication member 26 in the storage member 18. At this time, for example, when the received communication data is the setting data 23, the communication unit overwrites the old setting data 23 with the new setting data 23. Accordingly, the latest setting data 23 can be always stored in the storage member 18, and the uninterruptible power supply 1 can be controlled based on the latest setting data 23.
[0044]
FIG. 2 is a device configuration diagram showing the monitoring device 2 according to the embodiment of the present invention.
[0045]
The monitoring apparatus 2 includes an I / O port 31, a storage member 32 that stores programs and data, a central processing unit 33 that executes programs, and a RAM 34 that the central processing unit 33 uses as a work area when executing the programs. And a system bus 35 for connecting them to each other.
[0046]
In addition, a host communication member 36, a keyboard 37, and a monitor 38 are connected to the I / O port 31. The upper communication member 36 outputs the received communication data to the I / O port 31 and transmits communication data input from the I / O port 31.
[0047]
The storage member 32 stores a monitoring program 39. The monitoring program 39 is executed by the central processing unit 33 when the monitoring device 2 is activated. Thereby, the monitoring means as the receiving means and the display means is realized.
[0048]
The monitoring unit causes the storage member 32 to store communication data output from the higher-level communication member 36 to the I / O port 31. At this time, each piece of communication data is stored with identification information added so that the uninterruptible power supply 1 of the transmission source can be specified. As the identification information used for such a purpose, for example, the TCP / IP address of each lower communication member 26 can be used. When the communication data itself includes identification information that can distinguish the uninterruptible power supply 1 from other uninterruptible power supply 1, the monitoring unit does not newly add identification information. It's okay.
[0049]
The monitoring unit outputs information related to the uninterruptible power supply system stored in the storage member 32 from the I / O port 31 to the monitor 38. The monitor 38 displays information input from the I / O port 31 on the display screen.
[0050]
The monitoring unit generates setting data 23 and control data based on input data input from the keyboard 37 to the I / O port 31. The setting data 23 and control data are output from the I / O port 31 to the upper communication member 36 and transmitted to the lower communication member 26 of the predetermined uninterruptible power supply 1 by the upper communication member 36. Even if the setting data 23 and the control data are generated by the monitoring unit and then once stored in the storage member 32 and then output from the I / O port 31, the I / O port 31 is immediately generated when generated by the monitoring unit. May be output from.
[0051]
Next, an uninterruptible power supply system using the uninterruptible power supply device 1 and the monitoring device 2 will be described.
[0052]
3 is a system configuration diagram showing an example of an uninterruptible power supply system configured by combining the uninterruptible power supply 1 shown in FIG. 1 and the monitoring device 2 shown in FIG.
[0053]
In this uninterruptible power supply system, the input terminals 11 of the two uninterruptible power supply devices 1 are connected in parallel to the commercial AC power supply 4 via the distribution line 3. In FIG. 3, the pair of input terminals 11 and the pair of output terminals 12 of each uninterruptible power supply 1 are collectively shown as one, and the connection portion of the power supply line 3 is also shown as one simplified at both ends.
[0054]
A load device 5 is connected to the output terminal 12 of one uninterruptible power supply 1 via a distribution line 3.
[0055]
The input terminals 11 of the five uninterruptible power supply devices 1 are connected in parallel to the output terminal 12 of the other uninterruptible power supply device 1 via the distribution line 3. The output terminals 12 of the five uninterruptible power supply devices 1 are commonly connected to one other load device 5 via the distribution line 3. The five uninterruptible power supply devices 1 are operating in cooperation.
[0056]
In addition, the lower communication members 26 of these seven uninterruptible power supply devices 1 are connected to the upper communication member 36 of the monitoring device 2 by the signal line 6.
[0057]
When the uninterruptible power supply system has such a configuration, the same value is set in each dip switch 27 of the five uninterruptible power supply devices 1 connected in parallel and operating in cooperation. The dip switches 27 of the other two uninterruptible power supply devices 1 are set to values different from those of the five uninterruptible power supply devices 1 and different from each other. Therefore, in this uninterruptible power supply system, a total of three different set values are set for the dip switch 27.
[0058]
In each uninterruptible power supply 1 of such an uninterruptible power supply system, the power monitoring means monitors the quality of the input power input to each based on the setting data 23, and an abnormality such as a power failure occurs in the input power. In the case of the failure, the converter 13 is stopped and the output power is generated by the power of the battery 15. The input power monitoring data is stored in the storage member 18 as operation data 24. When the abnormality occurs, alarm data 25 is stored in the storage member 18. The setting data 23, operation data 24, and alarm data 25, together with the setting value of the dip switch 27, are designated by the monitoring device 2 as a transmission destination under the control of the communication means, and the signal line from the lower communication member 26. 6 is transmitted.
[0059]
The setting data 23, the operation data 24, the alarm data 25, and the setting values of the dip switch 27 are received by the upper communication member 36 of the monitoring device 2 and stored in the storage member 32 of the monitoring device 2. The monitoring means displays a display object 42 (see FIG. 4) described later corresponding to the uninterruptible power supply 1. At this time, the same number of display objects 42 as the types of set values of the dip switch 27 stored in the storage member 32, in this embodiment, only three are displayed.
[0060]
The display object 42 corresponding to each uninterruptible power supply 1 may be a figure, a character string, or a symbol. In the case of a character string, for example, the model name of each uninterruptible power supply 1 may be used. In the case of a graphic or symbol, all the display objects 42 may be the same, but may be assigned to each of a plurality of types of display objects 42 so that they can be distinguished from each other. Thereby, each uninterruptible power supply 1 can be distinguished from each other on the monitor 38.
[0061]
In particular, when a figure or symbol is used as the display object 42, a plurality of figures or symbols corresponding to the operation state of the uninterruptible power supply 1 are stored in the storage member 32 as the display object 42 corresponding to each uninterruptible power supply 1. It is good to memorize. The monitoring means selects and displays one of a plurality of figures and symbols stored in the storage member 32 according to the operation data. Thereby, the overall operation state of the uninterruptible power supply system can be easily confirmed on the monitor 38.
[0062]
Furthermore, the display object 42 may be a combination of these figures, character strings, symbols, and the like.
[0063]
FIG. 4 shows an example of the monitoring window 41 displayed on the monitor 38 of the monitoring device 2. In the monitoring window 41, a list of display objects 42 is displayed on the left side. On the right side of the monitoring window 41, setting data, operation data, and alarm data of the display object 42 selected on the left side are displayed.
[0064]
In this monitoring window, the list of display objects 42 is arranged in a tree structure according to the connection relationship between the uninterruptible power supply devices 1. Specifically, the display object 43 corresponding to the commercial AC power supply 4 is connected to the display object 42 corresponding to the two uninterruptible power supply devices 1. A display object 44 corresponding to the load device 5 is connected to the display object 42 corresponding to one uninterruptible power supply 1. A display object 42 corresponding to another uninterruptible power supply 1 is connected to the display object 42 corresponding to the other uninterruptible power supply 1. A display object 44 corresponding to the load device 5 is connected to the display object 42 corresponding to the further uninterruptible power supply 1.
[0065]
The monitoring means may search the storage member 32 when displaying it on the monitor 38, and thereby determine the number of types of setting of the dip switch 27. In addition, for example, each time the monitoring means receives communication data from each uninterruptible power supply 1, it determines the setting value of the dip switch 27 included in the communication data, and displays a list of setting values of the dip switch 27. The list may be stored in the storage member 32 and displayed on the monitor 38 to display a predetermined number of display objects 42. Thereby, the processing time until the list of the uninterruptible power supply 1 is displayed can be shortened. In addition, when displaying a list | wrist with a tree structure, it is good to include the information regarding the connection relation of the uninterruptible power supply 1 corresponding to each setting value in a list | wrist.
[0066]
When the display object 42 of one uninterruptible power supply 1 in the monitoring window 41 is selected by an input device such as a keyboard 37, the monitoring unit selects the uninterruptible power supply 1 corresponding to the selected display object 42. The setting data 23, the operation data 24, and the alarm data 25 are read from the storage member 32 and displayed on the right side of the monitoring window 41. In FIG. 4, the operation state, input voltage, output voltage, and alarm (alarm) state of each uninterruptible power supply 1 are displayed.
[0067]
When searching for device data in the storage member 32 based on the selection of the display object 42, the monitoring unit creates a list in which the display object 42 is associated with the set value in advance and stores the list in the storage member 32. Good. Then, when the display object 42 is selected, the monitoring unit searches the list for the setting value corresponding to the display object 42, and further searches the device data of the uninterruptible power supply 1 corresponding to the setting value. The setting data 23, the operation data 24, and the alarm data 25 relating to the uninterruptible power supply 1 corresponding to the selected display object 42 can be read from the storage member 32.
[0068]
In this way, data relating to a plurality of uninterruptible power supply devices 1 having the same set value can be displayed on the monitor 38 as one uninterruptible power supply device 1 in the monitoring device 2. As a result, the plurality of uninterruptible power supply devices 1 operating in cooperation can be monitored as one uninterruptible power supply device 1 in the monitoring device 2 only by setting the same value to the DIP switches 27. it can.
[0069]
In addition, as a case where a plurality of uninterruptible power supply devices 1 are cooperatively operated, a so-called n + 1 redundant operation may be performed. Normally, n uninterruptible power supply devices 1 are operated, and when any one of the uninterruptible power supply devices 1 fails, an extra uninterruptible power supply is used instead of the failed uninterruptible power supply device 1. The apparatus 1 is activated. Thereby, even if any uninterruptible power supply 1 fails, predetermined power can be stably supplied to the load device 5.
[0070]
In such a case, the monitoring means extracts only the data of the uninterruptible power supply 1 that supplies power from the data of the plurality of uninterruptible power supply 1 extracted based on the common set value, and supplies this power. Only the data of the uninterruptible power supply 1 may be displayed. As a result, the power actually supplied to the load device 5 and the power supplied on the monitoring device 2 can be matched. In addition, what is necessary is just to determine based on the operation | movement data received from each uninterruptible power supply 1, for example whether each uninterruptible power supply 1 is supplying electric power or stopping electric power supply.
[0071]
Further, when the setting data 23 and the operation data 34 displayed on the monitoring window 41 are changed by an input of the keyboard 37 or the like, the monitoring device 2 newly sets the changed setting data 23 and operation data 24. The setting data 23 or operation data to be changed is transmitted from the upper communication member 36 as control data. The control data is data for starting and stopping the operation state of the uninterruptible power supply 1. As the uninterruptible power supply 1 operates based on this control data, the operation data changes as a result.
[0072]
The setting data 23 and control data are received by the lower communication member 26 of the uninterruptible power supply 1 corresponding to the display object 42 via the signal line 6 and stored in the storage member 18 of the uninterruptible power supply 1. The The monitoring means of each uninterruptible power supply 1 monitors the power supply based on the setting data 23 and control data stored in the storage member 18. Therefore, each uninterruptible power supply 1 performs an operation of monitoring the power based on the setting data 23 and control data input in the monitoring device 2.
[0073]
As described above, in this embodiment, a single management device 2 can monitor a plurality of uninterruptible power supply devices 1 simultaneously and constantly.
[0074]
In particular, a plurality of uninterruptible power supply devices 1 connected in series or in parallel and operating in cooperation with each other are monitored as one uninterruptible power supply device 1 by setting a common value to the DIP switches 27. can do.
[0075]
As a result, a plurality of uninterruptible power supply devices 1 that are operating in a coordinated manner can be monitored in detail, including not only individually but also the state of the cooperative operation, that is, the interlocking relationship. In addition, a plurality of uninterruptible power supply devices 1 operating in cooperation with each other can be monitored by one monitoring device 2 together with other uninterruptible power supply devices 1.
[0076]
In addition, as apparatus data, it is good also as not only all of the setting data 23, the operation data 24, and the alarm data 25 but one or more. Data other than these data may be used as device data. The device data to be displayed on the monitor 38 may be a part of the received device data rather than all received device data. Further, the set value of the dip switch 27 may be displayed on the monitor 38.
[0077]
The above embodiment is an example of a preferred embodiment of the present invention. However, the present invention is not limited to this, and various modifications and changes can be made without departing from the scope of the present invention.
[0078]
For example, in the above embodiment, each uninterruptible power supply 1 is provided with a dip switch 27, and a value set in the dip switch 27 is transmitted as it is as a set value. In addition, for example, other switches such as a rotary switch may be provided in each uninterruptible power supply 1. Also, other values may be generated by the microcomputer 16 based on the values set in these switches, and the values generated by the microcomputer 16 may be transmitted as set values.
[0079]
In the said embodiment, the some uninterruptible power supply 1 which is operating in cooperation is provided as a separate uninterruptible power supply 1. In addition, for example, a unit box may be provided, and the plurality of uninterruptible power supply devices 1 may be stored in the unit box as uninterruptible power supply units. In this case, the lower communication member 26 and the dip switch 27 provided for each uninterruptible power supply 1 may be provided on the unit box side instead of the uninterruptible power supply 1 side. In the case where the dip switch 27 is provided on the unit box side, only one dip switch 27 may be provided in the unit box and used in common by the plurality of lower communication members 26.
[0080]
In the above embodiment, dip switches 27 are provided in all uninterruptible power supply devices 1, and set values are transmitted from all uninterruptible power supply devices 1 to the monitoring device 2. In addition, for example, the dip switch 27 may be provided only in the uninterruptible power supply 1 that is desired to be managed as one uninterruptible power supply 1 by performing a cooperative operation, and the set value may be transmitted. In this case, the monitoring means associates one display object 42 with each uninterruptible power supply 1 having no set value.
[0081]
【The invention's effect】
In the present invention, since a plurality of uninterruptible power supply devices can be monitored simultaneously and constantly with one management device, a plurality of uninterruptible power supply devices can be monitored simultaneously and constantly without complicating the configuration and system. can do.
[Brief description of the drawings]
FIG. 1 is a device configuration diagram showing an uninterruptible power supply according to an embodiment of the present invention.
FIG. 2 is a device configuration diagram showing a monitoring device according to an embodiment of the present invention.
3 is a system configuration diagram showing an example of an uninterruptible power supply system configured by combining the uninterruptible power supply device shown in FIG. 1 and the monitoring device shown in FIG. 2;
4 is a diagram showing an example of a monitoring window displayed on the monitor of the monitoring apparatus shown in FIG. 2. FIG.
[Explanation of symbols]
1 Uninterruptible power supply
2 Monitoring device
6 signal lines
19 Central processing unit (part of transmission means)
23 Setting data (device data)
24 Operation data (device data)
25 Alarm data (device data)
26 Subordinate communication members
27 DIP switch (switch)
28 Communication program (part of transmission means)
36 upper communication members
32 Memory members
33 Central processing unit (part of receiving means, part of display means)
39 Monitoring program (part of receiving means, part of display means)
42 display objects

Claims (6)

A method for monitoring an uninterruptible power supply system in which a plurality of uninterruptible power supply devices are monitored by a monitoring device,
From each uninterruptible power supply, send the setting value and device data of the switch where the cooperative operation status of the device is set ,
The monitoring device receives the device data and the set value, displays a display object of the uninterruptible power supply for each set value of the switch for which the cooperative operation status is set , and further, the display object selects When this is done, the device data relating to all uninterruptible power supply devices having the set value corresponding to the selected display object is displayed.   The monitoring device determines whether each uninterruptible power supply is feeding or stopping feeding based on the device data, and only the device data of the uninterruptible power supply that is feeding, 2. The uninterruptible power supply system monitoring method according to claim 1, wherein display is performed in accordance with selection of a display object. A plurality of uninterruptible power supplies,
A monitoring device for monitoring the plurality of uninterruptible power supply devices;
A switch that is provided in each uninterruptible power supply and in which the cooperative operation status of the apparatus is set ,
Lower communication members provided in each of the uninterruptible power supply devices,
A host communication member provided in the monitoring device;
A plurality of signal lines connecting the plurality of lower communication members and the upper communication member;
Transmitting means that is provided in each uninterruptible power supply, and that transmits the respective device data and the set value of the switch to the lower communication member;
A storage member provided in the monitoring device;
A receiving means provided in the monitoring device, for receiving the device data and the set value of the switch via the host communication member, and storing the received data in the storage member;
A display object of the uninterruptible power supply is displayed for each set value of the switch that is provided in the monitoring device and the cooperative operation status is set. When the display object is selected, the selected display object is displayed. An uninterruptible power supply system comprising: display means for displaying the device data relating to all uninterruptible power supply devices having the corresponding set values.   The display means determines whether each uninterruptible power supply is supplying power or has stopped supplying power based on device data stored in the storage member, and the uninterruptible power supply in operation 4. The uninterruptible power supply system according to claim 3, wherein only the device data is displayed according to the selection of the display object. A monitoring device for monitoring a plurality of uninterruptible power supply units,
A memory member;
From each of the plurality of uninterruptible power supply devices, a host communication member that receives a setting value by a switch in which the respective device data and the cooperative operation state of the device are set ;
Receiving means for storing the device data and set values received by the host communication member in the storage member;
The display object of the uninterruptible power supply is displayed for each set value of the switch for which the cooperative operation status is set, and when the display object is selected, the display object has the set value corresponding to the selected display object. And a display means for displaying the device data relating to all uninterruptible power supply devices.   The display means determines whether each uninterruptible power supply is supplying power or has stopped supplying power based on device data stored in the storage member, and the uninterruptible power supply in operation 6. The monitoring device according to claim 5, wherein only the device data is displayed according to the selection of the display object.

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