KR20050117848A - Method for preventing a remote telemeter from wrong meter-reading and apparatus thereof - Google Patents

Abstract

According to the present invention, a magnetic part is attached to any one of a plurality of number wheels, and when a sensing unit provided at a predetermined position adjacent to the number wheel senses a magnetic unit, the detection unit generates a detection signal (pulse), and a generated detection signal ( Accumulated pulses are accumulated in the memory unit, and the accumulated amount (reading amount) is visually displayed on the display unit, and a remote meter reading instrument with a built-in battery for remotely transmitting the meter reading data to a place where a meter reading is requested when a remote meter reading request is made through the transceiver The present invention relates to a method for preventing misreading of a meter, and more particularly, a first step of storing a minimum pulse generation time according to a maximum use flow rate of a meter in the memory unit; When the detection unit detects the detection signal and compares the count value of the counter, the minimum pulse generation time stored in the memory unit with one of '0', the comparison unit compares and transmits a return value to the processing unit when the count is finished. A second step of accumulating the detection signal in the memory unit to display the accumulated amount on the display unit and controlling the processing unit to ignore the detection signal if a return value is not transmitted; When the detection signal in the second step is a normal signal, the counter includes a third step of counting the minimum pulse generation time stored in the memory unit in either descending or ascending order.

Therefore, when the detection unit generates a pulse by a variable other than the magnetic attached to the number wheel, the signal is ignored and only the detection signal generated after the minimum pulse generation time can be accumulated in the meter reading, thereby minimizing the metering error. Provided are a method for preventing the misreading of a remote metering meter and an article thereof to enable accurate meter reading.

Description

Method for preventing a remote telemeter from wrong meter-reading and apparatus Technical}

According to the present invention, a magnetic part is attached to any one of a plurality of number wheels, and when a sensing unit provided at a predetermined position adjacent to the number wheel senses a magnetic unit, the detection unit generates a detection signal (pulse), and a generated detection signal ( Accumulated pulses are accumulated in the memory unit, and the accumulated amount (reading amount) is visually displayed on the display unit, and a remote meter reading instrument with a built-in battery for remotely transmitting the meter reading data to a place where a meter reading is requested when a remote meter reading request is made through the transceiver unit. And, in particular, the detection unit ignores this signal when the pulse is generated by a variable other than the magnetic attached to the number wheel and at least detects a signal generated after the minimum pulse generation time. Remote meter reading system that allows the accumulation of meter readings, minimizes meter reading errors and ensures accurate meter reading It relates to five meter and how to prevent those things in groups.

In general, the conventional meter reading method for water, gas, electricity and the like consists of a process of the meter readers to directly check the meter, check the meter value, record the checked data, and then input the recorded content into the computer.

If an error occurs while performing this process, the problem of error caused by the consumer or the country may be lost. In addition, these meters need to be checked and exchanged regularly, but since there is no information on when to replace them and regular inspections, the parts purchased for exchange and inspection are left unattended and waste a lot of money. Therefore, various methods of remote meter reading system have been developed to solve this problem.

For example, a method has been developed in which a meter reader visits a customer by using a handy terminal and inputs meter reading data on site. However, this method has the advantage of shortening the input process of the computerized data, but it is not effective due to the disadvantage that it does not contribute to the reduction of labor costs due to the meter reading directly enter the data by the meter reader.

In addition, the improved metering method attaches a magnetic to any one of the number wheels of the meter, generates the rotation period of the number wheel as a pulse signal, accumulates this pulse signal, displays the meter reading, and transmits and receives remotely. A remote meter reader was proposed and used.

However, since the pulse generator of the remote meter is a magnetic attachment to the number wheel to detect the rotation period of the number wheel as described above, if there is a magnetic material in a position adjacent to the meter, serious error in the meter reading data The problem occurs that the meter is read less than the actual usage or excessively read.

In addition, even if the meter is installed outdoors, as the industry develops, various electronic devices are installed, and powerful electromagnetic waves are scattered around the living area. An error will occur.

In addition, in the past, the meter and the remote meter are far away from each other, so as to prevent the inconvenience of the installation that must be connected to the remote meter by extending the pulse line from the meter, and to prevent the breakage of the pulse line and interference from the external environment, Because of the influence of humidity, etc., this also acts as a problem causing a malfunction of the device.

In order to solve the above problems, the present invention stores a minimum pulse generation time according to the maximum flow rate level of the meter in a memory unit, and when a detection signal is generated, minimizes the time difference from the immediately detected signal of the generated detection signal. Its purpose is to allow normal signal selection to be compared with the time of occurrence.

The above purpose is to attach the magnetic 103 to any one of the number wheel 101 of the number wheel 101, and the sensing unit 102 provided at a predetermined position adjacent to the number wheel 101a has a magnetic ( When detecting 103, the detection unit 104 generates a detection signal (pulse), and accumulates the generated detection signal (pulse) in the memory unit 106 to visually display the accumulated amount (reading amount) on the display unit (not shown). In the method of preventing the misreading of the remote meter reading meter with a battery (108) for displaying and remotely transmitting the meter reading data of the memory unit (106) to the place where the meter reading is requested by the remote meter reading request through the transmitting / receiving unit (107). A first step of storing a minimum pulse generation time according to the maximum use flow rate of the meter in the memory unit 106; The detection unit 104 detects the detection signal and at the same time the comparison unit 112 compares the count value of the counter 111 with the minimum pulse generation time stored in the memory unit 106 and '0'. If it is in the finished state, the return value is transmitted to the processing unit 105, and the processing unit 105 accumulates the detection signal in the memory unit 106 to display the accumulated amount on the display unit, and if the return value is not transmitted, the processing unit to ignore the detection signal. A second step controlled by 105; And a third step in which the counter 111 counts the minimum pulse generation time stored in the memory unit 106 in either descending or ascending order when the detection signal in the second step is a normal signal. It is achieved by the method of preventing misreading of the remote metering meter.

Here, in the second step, the comparison unit 112 compares the minimum pulse generation time stored in the memory unit 106 with the count value of the current counter 111 when the counting method of the counter 111 is an ascending count. If it is equal or greater, the return value is transmitted to the processing unit 105. If the counting method of the counter 111 is a descending count, '0' is compared with the count value of the current counter 111. 105).

On the other hand, the magnetic 103 is attached to any one of the number wheel 101 of the number wheel 101, the sensing unit 102 provided at a predetermined position adjacent to the number wheel (101a) is a magnetic 103 Upon detection, the detection unit 104 generates a detection signal (pulse), accumulates the generated detection signal (pulse) in the memory unit 106, and visually displays the accumulated amount (reading amount) on the display unit, and the transmission / reception unit 107 In the remote meter reading meter with a battery 108 for transmitting the meter reading data of the memory unit 106 to the place where the meter reading is requested by the remote meter reading request, the maximum use of the meter stored in the memory unit 106 A counter 111 for counting the minimum pulse generation time according to the flow rate in one of descending and ascending order; When the detection unit 104 detects the detection signal, the counter 111 according to the previous detection signal and any one of the minimum pulse generation time and '0' stored in the memory unit 106 according to the counting method of the counter 111. A comparator 112 for comparing a count value of? When the minimum pulse generation time and the count value of the counter 111 are the minimum pulse generation time and '0' according to any one of the counting methods in ascending and descending order, the comparing unit 112 may detect the detection signal. It is also achieved by a remote meter reading meter, which comprises a processing unit 105 which accumulates in the display unit and controls the display unit to display the accumulated amount on the display unit and controls the counter 111 to count the minimum pulse generation time.

Hereinafter, a method of preventing the misreading of the remote meter reading meter and the remote meter reading meter of the present invention will be described in parallel with reference to FIGS. 1 and 2.

First, as shown in FIG. 1, the meter 110 and the remote reading unit 109 are integrally formed. That is, the bar reader 109 is built into the meter 110 as shown in FIGS. 1 and 2, and as shown in FIG. 3, the remote meter reading unit 109 is disposed below the number wheel 101. However, the sensing unit 102 is disposed at a predetermined position of the remote reading unit 109 adjacent to the number wheel 101a to which the magnetic 103 is attached to the number wheel 101 to detect the rotation period of the number wheel 101a. Let's do it.

In addition, when the detector 102 detects the magnetic 103, the detector 104 generates a detection signal (hereinafter, referred to as a pulse signal).

Therefore, the method of preventing misreading according to the present invention records or stores the minimum pulse generation time according to the maximum use flow rate of the meter 110 in the memory unit 106 before the metering is performed, and thus preliminary step for misreading the reading. As a first step.

That is, the meter 110 is graded according to the amount used, and when the meter 110 used by the consumer is the first grade, the maximum flow rate per hour (m ³ / h) is 1 m ³ / h, and the second grade is 2 m ³ / h, 3 grade is 3m ³ / h, and Class 7 is 7m ³ / h when assuming that, typically meter 110 is first-class and the point below the number wheel (101a) (101b) (101c ) 3 If the number wheel 101a and the number wheel 101a of the number wheel 101a, the rotation speed ratio of the number wheel 101a is 10: 1, so the lowest number wheel 101c (lower-point number wheel 101 is 3). Can't do more than 1,000 revolutions per hour.

In addition, when the magnetic 103 is attached to the lowest number wheel 101c, one pulse is generated every 10 revolutions, which is 36 seconds when calculated as the minimum time per pulse.

As described above, the first step of storing the minimum pulse generation time per pulse calculated for each grade in the memory unit 106 is performed.

When the detection unit 104 detects the detection signal, the comparison unit 112 compares the count value or the count value currently being counted by the counter 111 from the time when the detection signal was generated immediately before the detection signal. ) Is compared to determine whether the detection signal is a normal detection signal.

In this case, the counter 111 counts the minimum pulse generation time, and the minimum pulse generation time may be counted in ascending order, and may be counted in descending order. In the present invention, either of the two cases is alternatively counted, but the results are the same.

That is, since the minimum pulse generation time is to count the time interval, the descending count when the minimum pulse generation time is 10 seconds is to count from '10' to '0' and the ascending count is from '0' to ' Count up to 10 '.

Thus, when the counter 111 counts in descending order, when the signal detected by the detector 102 is normal, the count value of the counter 111 is 0 when the detector 102 detects the signal. If the count value of the counter 111 is between 10 and 1, it is a signal within the minimum pulse generation time and thus may not be a normal signal.

In addition, when the counter 111 counts in ascending order, when the signal detected by the detector 102 is normal, the count value of the counter 111 generates the minimum pulse when the detector 102 detects the signal. It should be a time (10 seconds), and if the count value of the counter 111 is a value between 0 and 9, it means that the signal is within the minimum pulse generation time and thus cannot be a normal signal.

Therefore, in the second step, the comparison unit 112 determines the count value of the counter 111 according to one of '0' and the minimum pulse generation time and the previous detection signal according to the counter 111 method of the counter 111. In comparison, if the detected detection signal is a normal signal, the return value is transmitted to the processing unit 105 so as to indicate that the detected signal is a normal signal, so as to process the detected signal in the third step to be described later. The return value indicating that the value is not transmitted to the processing unit 105 or indicating a false reading signal is transmitted to the processing unit 105 so that the processing unit 105 ignores the detection signal.

Here, the return value according to the abnormal detection signal may be transmitted to the processing unit 105, and may not be transmitted, but the present invention is not limited thereto.

Therefore, as described above, when the return value indicating that the detection signal is a normal detection signal is transmitted to the processing unit 105, the processing unit 105 accumulates the detection signal in the memory unit 106 to display the accumulated amount on the display unit. .

On the other hand, when the detection signal in the second step is a normal signal, the counter 111 counts the minimum pulse generation time stored in the memory unit 106 in either descending or ascending order of the detection signal to be subsequently detected. A third step is performed so that the count value can be referred to the normality determination.

Therefore, the normal detection signal is accumulated by selecting only the signal generated after the minimum pulse generation time, so that it is possible to minimize the occurrence of damage to the customer by being over-detected.

As described above, the present invention compares the pulse signal generation time and the immediately generated pulse signal generation time with the minimum pulse generation time by the counter to discriminate whether there is a reading error, and to read only a normal detection signal. By minimizing the misreading caused by the influence of electromagnetic waves and the misreading caused by the interference of peripheral devices, the billing error and the customer are minimized so as not to suffer any economic loss.

1 is a diagram showing the present invention remote meter reading meter.

2 is a diagram schematically showing the configuration of the present invention.

<Description of the symbols for the main parts of the drawings>

101: numeric wheel 102: detector

103: magnetic 104: detector

105: processing unit 106: memory unit

107: transceiver 108: battery

109: remote meter reading unit 110: meter

111: counter 112: comparison unit

Claims (3)

When a magnetic is attached to any one of the number wheels, and a sensing unit provided at a predetermined position adjacent to the number wheel detects the magnetic, the detection unit generates a detection signal (pulse) and generates the detected signal (pulse). Accumulated accumulating (measurement amount) accumulates in the memory part and visually displays on the display part, and when the remote meter reading request is requested by the transmitter / receiver, a false reading of a remote meter reading meter with a built-in battery which transmits the reading data of the memory part remotely In the prevention method, A first step of storing a minimum pulse generation time according to the maximum use flow rate of the meter in the memory unit; When the detection unit detects the detection signal and compares the count value of the counter, the minimum pulse generation time stored in the memory unit with any one of '0', the comparison unit compares and transmits a return value to the processing unit when the count is finished. A second step of accumulating the detection signal on the memory unit to display the accumulation amount on the display unit and to control the processing unit to ignore the detection signal if a return value is not transmitted; And a third step in which the counter counts the minimum pulse generation time stored in the memory unit in any one of a descending order and an ascending order when the detection signal in the second step is a normal signal. Prevention method. The method of claim 1, The comparison unit in the second step, If the counting method of the counter is ascending, the minimum pulse generation time stored in the memory unit is compared with the count value of the current counter, and if it is equal or greater, the return value is sent to the processing unit. If the counting method of the counter is descending, '0' and Comparing the count value of the current counter, if it is equal to or less than, the return value is transmitted to the processing unit. When a magnetic is attached to any one of the number wheels, and a sensing unit provided at a predetermined position adjacent to the number wheel detects the magnetic, the detection unit generates a detection signal (pulse) and generates the detected signal (pulse). In the remote meter reading instrument with a battery that accumulates in the memory unit and displays the accumulated amount (reading amount) visually on the display unit, and remotely transmits the meter reading data to the place where the meter reading is requested when a remote meter reading request is made through the transceiver unit. A counter for counting the minimum pulse generation time according to the maximum usage flow rate of the meter stored in the memory unit in any one of a descending order and an ascending order; A comparator for comparing the count value of the counter according to the previous sensing signal with any one of '0' and the minimum pulse generation time stored in the memory unit according to the counter counting method when the detector detects the sensing signal; If the minimum pulse generation time and the count value of the counter are one of ascending and descending counting methods, the comparison unit accumulates the detection signal in the memory unit and displays the accumulated amount on the display unit when the minimum pulse generation time and '0' are counted. And a processor configured to control the counter to count the minimum pulse generation time.