JP3453020B2 - Remote monitoring device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] The present invention relates to a remote monitoring system for automatically transmitting abnormality detection information due to an abnormality of equipment or the like to a receiving device provided at a remote place via a communication line. It concerns the device. 2. Description of the Related Art FIG. 5 is a configuration diagram showing a configuration of a conventional remote monitoring device disclosed in, for example, Japanese Patent Application Laid-Open No. 6-46011. In the figure, reference numeral 1 denotes a remote monitoring device, which is a battery 2 operable for a fixed time during a power failure, and a display circuit 3.
A line I / F circuit 4, an E ² PROM 5 having a battery operation time counter 51, a battery 2, a display circuit 3, a line I / F circuit 4, and an E ² PROM 5;
And a control circuit 6 for controlling these. 7
Is an exchange connected to the line I / F circuit 4, and 8 is an exchange 7
Are connected to the receiving device. Next, the operation of the conventional remote monitoring device will be described. At the time of normal power supply operation, when the control circuit 6 of the remote monitoring device 1 detects an abnormality of the equipment or the like, the control circuit 6 controls the line I / F circuit to send the abnormality detection signal to the receiving device 8, and through the exchange 7. The communication path is set and the abnormality detection information is sent to the receiving device 8. At this time, the battery 2 is charged as needed. [0004] In the event of a power failure, the above-described operation is performed by the power supply of the battery 2, and remote monitoring of abnormalities in equipment and the like is continued. In the remote monitoring device 1, in order to manage the life and replacement time of the battery 2, when the control circuit 6 detects from the battery 2 that the battery has been operated,
E ² PROM is a value that increments at regular intervals.
5 is written into the battery operation time counter 51. When the control circuit 6 detects that the battery operation has stopped, the writing to the battery operation time counter 51 is stopped, and the battery operation time counter 51
Is displayed on the display circuit 3. When the battery operation is stopped from the battery operation, the control circuit 6 notifies the receiving device 8 of the value written in the battery operation time counter 51 via the line I / F circuit 3 and the exchange 7. [0005] The conventional remote monitoring device is configured as described above, and performs remote monitoring by the battery 2 at the time of a power failure, but during the remote monitoring at the time of the power failure. In some cases, the power of the battery 2 is lost without waiting for the elapse of a battery operation time (a fixed time) that can be set for each battery, and remote monitoring cannot be continued. There are two factors that prevent the battery from operating (backup) for a predetermined period of time determined for each battery, such as whether the battery 2 is insufficiently charged or the battery 2 has reached the end of its life. It is conceivable that the charging time of the battery 2 was not enough based on the operation time of the battery 2
Life could not be identified. SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and a first object of the present invention is to provide a remote monitoring device capable of easily grasping the state of charge of a battery. A second object is to obtain a remote monitoring device capable of detecting the degree of battery deterioration. [0008] A remote monitoring apparatus according to the present invention comprises a battery operable for a fixed time when the supply of normal power is stopped, and a charging time for the battery and the above-mentioned operation when the supply of normal power is stopped. Memory means for storing the operation time based on the battery, and control means for counting the charging time for the battery and the operation time based on the battery when the supply of the normal power is stopped, and storing the values in the memory means. The control means, when the charging time reaches the charging completion time determined for each battery when the normal power supply is restarted, and when the operation time does not reach the predetermined time predetermined for each battery, Notifying the charging time and the operating time stored in the memory means to a receiving device provided at a remote place via a communication line. It is. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First Embodiment FIG. 1 is a diagram showing a remote monitoring device according to an embodiment of the present invention, in which 1A is a remote monitoring device,
The battery 2 operable for a fixed time during a power failure, the display circuit 3, the line I / F circuit 4, the battery operation time counter 51 for counting the operation time by the battery 2, and the normal power supply, that is, the drive time by the power supply other than the battery 2 It comprises an E ² PROM 5A having a non-battery operating time counter 52 for counting, and a control circuit 6 connected to and controlling the battery 2, the display circuit 3, the line I / F circuit 4, and the E ² PROM 5A. Reference numeral 7 denotes an exchange connected to the line I / F circuit 4, and reference numeral 8 denotes a reception device connected to the exchange 7. FIG. 2 is a flowchart showing the operation of the remote monitoring device 1A in the present embodiment. Hereinafter, the operation of the remote monitoring device 1A will be described with reference to this flowchart. When the control circuit 6 of the remote monitoring device 1A detects an abnormality of the equipment or the like, the control circuit 6 controls the line I / F circuit 4 to send the abnormality detection signal to the receiving device 8, and sets a communication path via the exchange 7. And sends abnormality detection information to the receiving device 8. At this time, in step S1, the control circuit 6 of the remote monitoring device 1A determines whether or not the battery 2 is driven based on the power supply. In the apparatus 1A, a value (battery operation time) that is incremented at regular intervals is written in a battery operation time counter 51 of the E ² PROM 5A. When the control circuit 6 detects that the battery operation has stopped, the control circuit 6 stops writing to the battery operation time counter 51 and displays the value (battery operation time) written to the battery operation time counter 51 on the display circuit 3. Let it. When the battery operation is stopped from the battery operation, the control circuit 6 receives the value written in the battery operation time counter 51 through the line I / F circuit 3 and the exchange 7 to the receiving device 8.
Report to. On the other hand, at the time of driving with the normal power supply, the process proceeds to step S2, and a value that is incremented at regular intervals is written in the non-battery operation time counter 52 of the E ² PROM 5A. When the control circuit 6 detects that the operation based on the normal power supply (charging of the battery 2) is stopped, the control circuit 6 stops writing to the non-battery operation time counter 52 and further writes the value written to the non-battery operation time counter 52. Is displayed on the display circuit 3. According to the present embodiment, the value (charging time) that is incremented at regular intervals of the internal clock is written in the non-battery operating time counter 52 when the battery 2 is driven by the normal power supply. The charging time can be easily detected, and even if the battery 2 runs out during the battery operation, the cause of the battery running out is based on the battery charging time and the battery operating time. No, battery 2
Of the battery 2 can be easily determined, and the life and replacement time of the battery 2 can be managed, so that the workability of maintenance and inspection is improved. Embodiment 2 FIG. In the second embodiment, when all power supplies stored in the battery 2 are driven by a power failure of a normal power supply due to a power failure or the like, the battery operation time stored in the battery operation time counter 51 is used for the battery 2 based on the battery operation time. A case where deterioration is examined will be described. FIG. 3 is a flowchart showing a flow of processing performed by the remote monitoring device 1A in the second embodiment. The operation will be described with reference to this flowchart. When the supply of the normal power supply is stopped due to a power failure or the like, the remote monitoring device 1A is driven for an operation time set for each battery 2 based on the power stored in the battery 2.
Here, when the control circuit 6 detects an operation based on the battery 2, the control circuit 6 increments a number that is incremented at regular intervals for a battery operation time counter 51 in the E ² PROM ⁵ A.
Write to. When the supply of the normal power supply is continued for the operating time of the battery 2 or more, the power stored in the battery 2 is exhausted, and the remote monitoring based on the remote monitoring device 1A ends. At this time, the operation time driven based on the battery 2 is stored in the battery operation time counter 51 in the E ² PROM 5A. Thereafter, when the normal power supply is resumed,
In step S3, it is determined whether or not the battery operation time stored in the battery operation time counter 51 in the E ² PROM 5A has reached a predetermined maximum capacity of the battery 2 (time during which the battery 2 can operate as an emergency power supply). If it is determined that the battery operation time has not reached the maximum capacity, the process proceeds to step S4, where the battery operation time is stored in the battery operation time counter 51 of the receiving device 8 via the line I / F circuit 4 and the exchange 7. Report the value.
On the other hand, if the battery operation time stored in the battery operation time counter 51 has reached the maximum capacity of the battery operation time, the processing shifts to the normal processing by the normal power supply. In step S3, by comparing with the maximum capacity of the battery 2, all the information of the deteriorated battery 2 can be transmitted. For example, if the maximum capacity (maximum operation time) of the battery 2 is 30 minutes, the battery 2 deteriorates. If the operation time based on the battery 2 is less than 30 minutes, all the values are reported, and The deterioration can be easily grasped, the life of the battery 2, the replacement time, and the like can be managed, and the maintenance work efficiency is improved. Embodiment 3 FIG. In the third embodiment, when all power sources stored in the battery 2 are driven due to a power failure of a normal power source due to a power failure or the like, the battery operation time counter and the non-battery operation time counter stored in the battery operation time counter 51 are used. A case in which the deterioration of the battery 2 is checked based on the operation time with the normal power supply stored in the storage 52 will be described. FIG. 4 is a flowchart showing the flow of processing performed by the remote monitoring device 1A in the third embodiment. The operation will be described with reference to this flowchart. When the supply of the normal power supply is stopped due to a power failure or the like, the remote monitoring device 1A is driven for an operation time set for each battery 2 based on the power stored in the battery 2.
Here, upon detecting an operation based on the battery 2, the control circuit 6 writes a value (battery operation time) that is incremented at regular intervals into a battery operation time counter 51 in the E ² PROM 5A. Also, E ² P
In the non-battery operation time counter 52 in the ROM 5A, the drive time by the normal power supply (corresponding to the charge time of the battery 2) is written. When the supply of the normal power supply continues for the operable time of the battery 2 or longer, the power stored in the battery 2 is exhausted, and the remote monitoring based on the remote monitoring device 1A ends. Here, for example, by automatically switching to the second battery, the time for the backup system can be made longer, and the function of the remote monitoring device can be further improved. At that time, the battery operation time driven based on the battery 2 is stored in the battery operation time counter 51 in the E ² PROM 5A, and the battery charging time for charging the battery 2 is stored in the non-battery operation time counter 52. Have been. Thereafter, when the supply of the normal power is resumed,
In step S5, whether or not the battery operation time stored in the battery operation time counter 51 in the E ² PROM 5A has reached a predetermined constant value of the battery operation time is further stored in the non-battery operation time counter 52. It is determined whether the battery charging time has reached a predetermined value of a predetermined battery charging time, and the battery charging time has reached a certain value of the battery charging time, and the battery operating time has reached the predetermined value of the battery operating time. Only when the value does not reach the fixed value, the process proceeds to step S6, where the value stored in the battery operation time counter 51 and the non-battery operation are transmitted to the receiving device 8 via the line I / F circuit 4 and the exchange 7. The value stored in the time counter 52 is reported. On the other hand, in other cases, the processing shifts to the normal processing using the normal power supply. The constant value of the battery operating time determined in step S5 is a maximum capacity (maximum operating time) determined for each battery, and the constant value of the battery charging time is
Time required for charging determined for each battery (charger,
(A value that varies depending on the charging current), all information on a deteriorated battery that does not have a predetermined maximum operation time after charging for a required charging time is transmitted. For example, when the maximum capacity (maximum operating time) of the battery 2 is 30 minutes and the time required for charging is 60 hours, the charging time is sufficient but the battery 2 is deteriorated, and the operating time based on the battery 2 is reduced to 30 minutes. If not, all of the values are reported and the deterioration of the battery 2 can be easily grasped.
The life and replacement time of the battery 2 can be managed, and the maintenance work efficiency is improved. Further, when determining the time to replace the battery 2, not only the determination based on the deterioration and insufficient charging of the battery 2 but also the change (decrease) in the operating time of the battery 2 due to a wiring trouble or the like is taken into consideration. This will make it easier to replace the battery and improve the efficiency of maintenance work. In the first to third embodiments described above,
The case where the battery operation time counter 51 and the non-battery operation time counter 52 of the E ² PROM 5A write the value to be incremented has been described, but the value to be decremented is written, and the steps S3 and S5 are performed.
The same is true even if the check condition is reversed. Since the present invention is configured as described above, it has the following effects. A battery operable for a fixed time when supply of normal power is stopped, a memory means for storing a charge time for the battery and an operation time based on the battery when supply of normal power is stopped, a charge time for the battery and a normal power supply Control means for counting the operation time based on the battery when the supply of the battery is stopped, and storing these values in the memory means.The control means determines the charge time for each battery when the supply of the normal power is resumed. When the charging completion time reaches the predetermined charging completion time and the operation time does not reach the predetermined time predetermined for each battery, the charging time and the operation time stored in the memory means are remotely controlled via a communication line. Since the notification is sent to the receiving device provided at the place, the state of charge of the battery can be easily grasped. However, based on the battery charging time, it is easy to determine whether the cause of the battery depletion is the insufficient battery charge or the battery life, and it is possible to manage the battery life and replacement time. And the workability of maintenance and inspection is improved. Further, the degree of deterioration of only the deteriorated battery can be detected, and the life and replacement time of the battery can be managed more accurately, so that the workability of maintenance and inspection is further improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram illustrating a configuration of a remote monitoring device according to an embodiment of the present invention. FIG. 2 is a flowchart showing the operation of the remote monitoring device according to the present invention. FIG. 3 is a flowchart showing the operation of the remote monitoring device according to the present invention. FIG. 4 is a flowchart showing the operation of the remote monitoring device according to the present invention. FIG. 5 is a configuration diagram showing a configuration of a conventional remote monitoring device. [Description of Signs] 1A Remote monitoring device 2 Battery 3 Display device 4 Line I / F
Circuit 5A E ² PROM 51 Battery operation time counter 52 non battery operation time counter 6 control circuit 7 switch 8 receiving apparatus

Continuation of the front page (72) Inventor Toshiaki Kawahara 2-6-1, Otemachi, Chiyoda-ku, Tokyo Mitsubishi Electric Building Techno Service Co., Ltd. (56) References JP-A-7-298512 (JP, A) JP-A Heihei 5-336680 (JP, A) JP-A-6-46011 (JP, A) JP-A-7-23291 (JP, U) (58) Fields investigated (Int. Cl. ⁷ , DB name) H02J 7/00 -7/12 H02J 7/34-7/36 H04B 17/00

Claims (1)

(57) [Claims] [Claim 1] A battery operable for a fixed time when the supply of normal power is stopped , a charging time for this battery, and a supply of normal power when the supply of power is stopped
A memory means for storing the operation time based on the battery, and a charge time for the battery and when the supply of normal power is stopped
Counting the operation time based on the battery, Preparations and control means, the for their value is stored in said memory means
When the normal power supply is resumed, the control means controls the charging time.
Reaches the charging completion time specified for each battery,
In addition, the above operation time is predetermined for each battery.
If the time has not been reached, the
The charging time and the above operation time can be set remotely via a communication line.
A remote monitoring device for notifying a receiving device provided at a location .