JPH0260992B2 - - Google Patents

Description

[Detailed Description of the Invention] [Technical Field of the Invention] The present invention relates to a time correction method that corrects the time of a terminal-side device that measures the usage of electricity, gas, water, etc. using time data from a standard clock section of a center-side device. Regarding equipment.

[Technical background of the invention]

FIG. 6 is a block diagram of a conventional load survey system, in which a center-side computer 1 is connected to a center-side network control device 3 via a center-side modem 2. This center side network control device 3 is connected to a terminal side network control device 5 via an exchange 4, and each terminal measuring device 7 is connected to this terminal side network control device 5 via a plurality of terminal side modems 6, for example. It is connected. This terminal measuring device 7 is
It has a built-in time limit circuit that measures the amount of electricity used and stores it as usage data for a predetermined time period, for example, every 30 minutes. Note that the standard clock section 8 is used for correcting a timer circuit provided in the terminal measuring device 7, and 9 and 10 are telephone devices. Therefore, to collect usage data, when the computer 1 issues a call signal and is connected to the terminal-side network control device 5, control data is sent from the computer 1 to the terminal measuring device 7. Thereby, the terminal measuring device 7 reads the usage data for the time limit specified by this control data and sends it back to the electronic calculator 1.

By the way, the time limit circuit of the terminal measuring device 7 has temperature,
The time may become incorrect due to voltage fluctuations, etc., and if left unchecked, usage data corresponding to each time period cannot be accurately grasped. Therefore, as shown in FIG. 8, the time limit of the time limit circuit is checked and corrected before collecting usage data. The operating procedure for this correction is as shown in FIG.
Sends a transmission request signal RS to. Then, the center-side modem 2 sends a carrier to the terminal-side modem 6, and also sends a send enable signal CS to the computer 1. Upon receiving this transmission enable signal CS, the computer 1 transmits the temporarily stored time T as time data T to the terminal measuring device 7, and when the transmission is finished, it turns the transmission request signal RS "OFF". The time data T has a message structure as shown in FIG. 9, and the entire message is 21 characters (175ms). In addition, the CCD that makes up the message is a control code, and when "CCD = 0", the time is corrected.
"CCD=01" indicates that time adjustment is not executed, and "CCD=02" indicates that usage data collection is executed.

On the other hand, the terminal measuring device 7 temporarily stores the received time data T in its memory and reads the time Ta of its own time limit circuit. Thereafter, the time of the time limit circuit is corrected using the time data T. After this correction, a transmission request signal from the terminal measuring device 7 is sent to the terminal side modem 6 to enable communication, and the time Ta read before the correction is returned to the computer 1.

[Problems with background technology]

However, in the above system, even if the time is corrected, the time cannot be corrected accurately. In other words, since time adjustment is performed at random times, all reading times become T during the period from time T to T+1. Therefore, a time error of less than 1 s occurs here.

Also, a signal RS that can be sent to the center side modem 2
It takes about 50 to 90 ms from sending out until the sendable signal CS is returned, and furthermore, it takes 175 ms to send out the time data T (FIG. 9). Therefore, even if the processing time in the computer 1 and the terminal measuring device 7 is ignored, a time delay of 225 to 1265 ms will occur, resulting in a maximum time delay of 1265 ms and a minimum time delay of 225 ms.

[Purpose of the invention]

The present invention was made based on the above circumstances, and
The purpose is to provide a time adjustment device that can more accurately adjust the time on the terminal side.

[Summary of the invention]

In the present invention, when adjusting the time, the corrected time creation means reads the time of the standard clock section, adds a predetermined time to it, creates correction time data, and transmits it to the terminal side device by the transmission means, and the standard clock section A time adjustment device that stops transmission to the terminal side device when the time of 2 reaches the adjustment time, and when this stop is detected, the adjustment means immediately adjusts the time of the time limit circuit of the terminal side device using the adjustment time data. be.

[Embodiments of the invention]

An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is an overall configuration diagram of a road survey system to which the time adjustment device of the present invention is applied. In addition,
The same parts as in FIG. 6 are given the same reference numerals, and detailed explanation thereof can be omitted. Now, the electronic computer 20 is equipped with the following means. In other words, when adjusting the time, the time of the standard clock section 8 is read and the predetermined time, e.g.
A corrected time creation means that adds 1S to create corrected time data, a transmission means that sends this corrected time data to the terminal measuring device 21, and a means that makes sure that the time of the standard clock section 8 becomes the time of the corrected time data. The transmitter is provided with a transmission stop means for determining that the transmission means has stopped transmitting data to the terminal measuring device 21, and actually transmitting a transmission request signal RS "OFF".

On the other hand, the terminal measuring device 21 includes an electronic computer 2
Detects the “OFF” transmission request signal RS from 0,
At this time, a correction means is provided for correcting the time of the time limit circuit using the correction time data received previously. Specifically, the configuration is as shown in FIG. That is, a signal conversion circuit 213, a memory 214, a counter 215, and a CD "OFF" detection circuit 216 are connected to a control circuit 211 consisting of a CPU (central processing unit) via an internal bus 212. The signal conversion circuit 213 sends and receives various data to and from the terminal side modem 6,
The CD “OFF” detection circuit 216 receives the transmission request signal.
It has a function to detect RS “OFF”.
Note that the transmission request signal RS “OFF” is transmitted by the terminal side modem 6.
When it passes through the CD, it is received as a CD “OFF” signal. The counter 215 also includes the power conversion circuit 21
7 is connected, this power conversion circuit 217 receives a voltage signal ev proportional to the load voltage and a voltage signal ei negative to the consumed current, calculates the electric power, and further converts a frequency signal proportional to this electric power to the counter 21.
It is supposed to be sent to 5. Further, 218 is an address setting circuit, and 219 is a time limit circuit, from which a time limit signal is output.

Next, the time adjustment operation of the apparatus configured as described above will be explained according to the operating procedure shown in FIG. The electronic computer 20 executes time adjustment according to the time adjustment flowchart shown in FIG. That is, the electronic computer 20 reads and stores the time T of the standard clock section 8 in step s1, and in step s2
From time adjustment execution to time T of the standard clock section 8
It is determined whether this is the first time that . In this case, since it is the first time, 1s is added to the time read in step s3 to create correction time data T+1. Then, in step s5, a transmission request signal RS is sent to the center modem 2. Then,
The center-side modem 2 sends a carrier to the terminal-side modem 6 to enable communication, and also returns a transmission enable signal CS to the computer 1. Therefore, the electronic computer 20 receives a transmission ready signal from the center modem 2.
It is determined in step s6 whether the CS has been returned, and upon receiving this sendable signal CS, the computer 1 sends the temporarily stored time T+1 to the terminal measuring device 7 in step 7 as time data T+1. After this transmission, the time data T+1 and the current time of the standard clock section 8 are compared and determined in step s8, and if the time of the time data T+1 is determined to be in the past, the communication of the terminal side modem 6 is stopped. Separate it and read the time on the standard clock 8 again. In this case, since this reading will be performed more than once, the process moves to step 10, and 2s is added to the first read time T to create correction time data of T+2.

Now, the time on the standard clock section 8 is the correction time T+1.
has not been reached and steps over time
When it is determined in S11 that the time of the standard clock section 8 has reached T+1, the transmission request signal RS is turned "OFF" in step 12.

On the other hand, in the terminal measuring device 21, the control circuit 211 performs control operations according to the time adjustment flowchart shown in FIG. Note that the frequency signal from the power conversion circuit 217 is counted by the counter 215,
A time limit signal from the time limit circuit 219 causes the usage amount data to be stored in the memory 214 for each time limit. Now, when the time data T+1 is received by the signal conversion circuit 213 in step s20, it is determined in step s21 whether or not there is an error in this time data T+1 as shown in FIG.
In s22, it is determined to execute time adjustment and memory 2
14. Then, the terminal measuring device 21 receives a signal CD from the terminal side modem 6 indicating that communication has stopped.
It is determined whether “OFF” has been received. When this CD "OFF" is received, the current time Tb of the time limit circuit 219 is read at the time of this reception (step s25), and immediately thereafter, the current time Tb of the time limit circuit 219 is read.
The correction time data T+1 stored in is read out, and the time of the time limit circuit 219 is corrected to T+1 (step s26). After this time adjustment, the transmission request signal RS is sent to the terminal side modem 6, and when the transmission permission signal CS is returned as a response, the time Tb read before the time adjustment is sent to the computer 20 in step s27. Send it back.

In this way, in the above-mentioned embodiment, when adjusting the time, the time of the standard clock section 8 is read, a predetermined time is added to this to create time data for adjustment, and this is transmitted to the terminal measuring device 21, and the standard When the time on the clock section 8 reaches the correction time, the terminal measuring device 21
Since the time limit circuit 219 is configured to immediately adjust the time using the correction time data when this stop is detected, if the correction time is T+1, the time is corrected at this point using the correction time data T+1. The delay is the time required for the transmission request signal RS "OFF" to be transmitted to the terminal measuring device 21, and the actual delay is 5 to 15 ms. This is a significant improvement compared to conventional systems. Therefore, usage data for each time period is accurate and corresponds to each time period, and a highly accurate road survey system can be achieved.

Note that the present invention is not limited to the above-mentioned embodiment, and can be modified without departing from the spirit thereof. For example, as a transmission means, not only a telephone line but also other means can be applied, and in the case of a road survey system, not only a 1:1 communication method but also a 1:N communication method can be applied.

Furthermore, the present invention can also be applied to a case where a switch is used as a terminal side device, and when the switch changes from open to close or from close to open, this information and the time are made to match.

〔Effect of the invention〕

As described in detail above, according to the present invention, it is possible to provide a time adjustment device that can more accurately adjust the time on the terminal side when adjusting the time.

[Brief explanation of the drawing]

FIG. 1 is an overall configuration diagram when an embodiment of the time adjustment device according to the present invention is applied to a road survey system, FIG. 2 is a specific configuration diagram of the terminal measuring device shown in FIG. 1, and FIG. 3 1 is a diagram showing the operating procedure of the system shown in FIG. 1, FIGS. 4 and 5 are time correction flowcharts of the system shown in FIG. 1, and FIG.
This figure is a block diagram of a conventional road survey system, and FIGS. 7 to 9 are diagrams for explaining the time adjustment operation in the system shown in FIG. 6. 2... Center side modem, 3... Center side network control device, 4... Exchange, 5... Terminal side network control device,
6...Terminal side modem, 8...Standard clock section, 20...
...Electronic computer, 21...Terminal measuring instrument, 213...
Signal conversion circuit, 214...Memory, 216...
CD “OFF” detection circuit, 219...time limit circuit.

Claims (1)

[Claims] 1. In a time control system that sends control data from a center side device having a standard clock section to correct the time limits stored in a plurality of terminal side devices each having a time limit circuit, the time of the standard clock section is adjusted when the time is adjusted. a correction time creation means for creating correction time data by adding a predetermined reading time; a transmission means for sending the correction time data to the terminal side device; transmission stopping means for determining that the transmitting means has stopped transmitting data to the terminal side device; What is claimed is: 1. A time adjustment device characterized by comprising: adjustment means for performing the adjustment.