KR100513840B1 - Automatic metering system weighing instrument - Google Patents

Abstract

The present invention relates to a meter used in an automatic meter reading system, the microcomputer 100 has a pulse generator 102 for generating a pulse of a predetermined cycle, the pulse generator 102 in the storage 103 The standard power usage corresponding to the pulse output from is stored. When the switch SW2 is turned on, the controller 101 in the microcomputer 100 controls the switch SW1 to input pulses of the pulse generator 102 to measure the power consumption per hour, and the measured power consumption per hour is standard. It is determined whether the power consumption is the same, and if it is different, the display unit 200 indicates an abnormal state.

Description

Meter in automatic meter reading system with self test

The present invention relates to an automatic meter reading system, and more particularly, to a meter of an automatic meter reading system capable of a self-test capable of determining whether or not abnormality itself.

A typical power meter is configured to display the power used by a user by a mechanical method. Such a general power meter has a problem that a separate meter reader needs to visually read the used power displayed on the power meter, which requires a lot of labor and may cause an error during the meter reading.

In order to solve this problem, an automatic meter reading system has been proposed.

The automatic meter reading system refers to a system in which a power meter detects the power used by an electrical method and wirelessly transmits the detected information to the main system through the repeater. The automatic meter reading system has the following features.

1. Automated meter reading and issuing can save labor cost.

2. It can be read quickly and accurately to determine the characteristics of the load quickly.

3. The installation position of the meter is free, so the piping and wiring can be economically constructed.

4. It is possible to settle the payment immediately when the director moves or moves in.

5. We can prevent crimes pretending to be meter readers.

6. You can prevent charges due to meter reading mistakes.

7. Accurate meter reading can prevent challenges.

1 is a view for explaining the principle of the meter used in the automatic meter reading system for having such a function.

In FIG. 1, reference numeral 1 denotes a rotation means, and means a means for rotating the internal shaft 11 at a speed corresponding to the amount of power used by the internal load.

The disc 2 is configured on the shaft 11 of the rotating means 1, and the user can infer the current amount of power used by the rotation state of the disc 2. On the other hand, a part of the lower surface of the original plate 2 is formed with a light absorbing portion 21 painted with black light, and a photo coupler circuit 3 is formed under the original plate 2. That is, the photo coupler 3 which consists of the light emitting diode 31 and the photo transistor 32 is comprised in the lower part of the original plate 2, The said light emitting diode 31 emits light, and the lower part of the original plate 2 is carried out. When some surface is irradiated, the photo transistor 32 is comprised so that the light of the light emitting diode 31 reflected from the lower surface of the disk 2 may be received.

In such a configuration, most of the light of the light emitting diode 31 is reflected on the lower surface of the original plate 2 to be received by the photo transistor 32, but when the light absorbing surface 21 of the original plate 2 is irradiated, the reflected light It does not exist. Therefore, by counting the number of times that light is not received by the photo transistor 32, the rotation speed and the rotation amount of the original plate 2 can be detected.

That is, the conventional meter uses this principle, and the light emitting diode 31 and the photo transistor 32 are connected to the microcomputer 4, and the microcomputer 4 does not receive light to the photo transistor 32. By counting the number of times, the rotation speed and the rotation amount of the disc 2 can be measured.

The microcomputer 4 converts the measured rotation amount of the original plate 2 into power consumption and transmits it to the main system through a repeater, while displaying on the display unit 5 so that the user can easily check the amount of power used.

However, such a conventional device may cause a problem such as an incorrect billing statement being charged to the receiver in the event of an abnormality of the meter.

In order to solve this problem, it is necessary to always check the abnormality of the meter, which causes considerable inconvenience.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to provide a meter of an automatic meter reading system capable of a self-test that can easily check whether there is a problem with the meter used in the meter reading system.

The present invention for achieving the above object is an apparatus for measuring the amount of power used as a pulse signal of a cycle corresponding to the power used, comprising: a pulse generator for generating a pulse of a predetermined period; A storage unit storing standard power usage corresponding to pulses output from the pulse generator; A first switch for selecting and outputting pulses of a cycle corresponding to the power used and pulses of the pulse generator; A second switch for setting a normal mode and a test mode; A display unit; When the normal mode is set by the second switch, the first switch is controlled to input a pulse of a cycle corresponding to the used power, and the corresponding hourly power consumption is calculated and displayed on the display. When the test mode is set by the second switch, The controller may include driving a pulse generator and controlling a first switch to input a pulse of the pulse generator to determine whether a corresponding hourly power consumption is the same as the standard power usage, and to display an abnormality on the display unit.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a schematic block diagram of an apparatus for carrying out the present invention. Here, the sense pulse as an input means the output of the photo transistor 32 shown in FIG. That is, the output pulse of the photo transistor 32 corresponding to the rotation of the original plate 2 is applied to the microcomputer 100.

In the microcomputer 100, a switch SW1 is configured as shown, and the switch SW1 selectively selects the output of the pulse generator 102 or the output of the photo transistor 32 to the controller 101 according to the switching. It is configured to apply.

The storage unit 103 is connected to the controller 101, and the storage unit 103 has a program (such as a program for calculating the power consumption per hour in response to an input pulse) and a predetermined period required for the operation of the controller 101. Hourly power usage information (hereinafter referred to as standard power usage) corresponding to the pulse is stored. The controller 101 performs the operation described later according to the power usage information of the storage unit 013.

The pulse generator 102 is also connected to the controller 101, and the pulse generator 102 is configured to drive under the control of the controller 101 to output a pulse of a predetermined period. Here, the pulse of the cycle output by the pulse generator 102 is configured to have a cycle corresponding to the standard power usage information stored in the storage 103 as described above.

The controller 101 is also connected to a switch SW2 for setting the normal mode and the test mode, and the controller 101 performs the operation described later in accordance with the drive of the switch SW2.

The display unit 200 and the transmitter 300 are connected to the microcomputer 100 having the above-described configuration, and the controller 101 in the microcomputer 100 displays the necessary information on the display unit 200 while displaying the transmitter 300. It is configured to transmit to the repeater via.

3 shows a flowchart performed by the controller 101 in the apparatus having the above-described configuration.

As shown, the controller 101 determines whether the switch SW2 is turned off (step 131), and proceeds to step 132 if the switch is turned off. In step 132, the controller 101 switches the switch SW1 to the terminal a, and measures the period of the pulse input from the photo transistor 32 of FIG. 1 (step 133).

After performing step 133, the controller 101 calculates the amount of power used per hour in response to the measured pulse period (step 134), and displays the calculated amount on the display unit 200, or transmits the transmitter 300. To the repeater.

However, as a result of the determination of step 131, the switch SW2 is turned on, and the controller 101 proceeds to step 136 to switch the switch SW1 to the terminal b so that it is removed from the photo transistor 32. The input of the pulse is stopped and the pulse from the pulse generator 102 is input. That is, the controller 101 drives the pulse generator 102 after switching the switch SW2 to the terminal b by step 136 (step 137).

In step 137, the pulse generator 102 outputs a pulse of a predetermined cycle, and the controller 101 inputs the cycle of the pulse from the pulse generator 102 to calculate the power usage per hour corresponding to the input pulse cycle. (Step 138, 139). The controller 101 reads the standard power consumption previously stored in the storage 103 (step 140). Here, the standard power usage means power usage corresponding to a pulse of a cycle output by the pulse generator 102 as described above.

The controller 101 determines whether the hourly power usage calculated in step 139 and the standard power usage read out in step 140 are the same (step 141). If so, the process proceeds to step 144. Here, since the calculated power consumption and the read standard power usage are the same, it means that the power usage calculated by the controller 101 by the cycle of the input pulse is correct, so that the controller 101 displays a meter on the display unit 200. It indicates that normal driving is performed, and all the processes are finished after switching the switch SW2 to the terminal a.

However, the difference between the calculated power usage and the read standard power usage means that the power usage calculated by the controller 101 according to the period of the input pulse is incorrect, so that the controller 101 displays a meter on the display unit 200. Indicates abnormal operation and ends all processes.

As can be seen from the above description, the present invention further comprises a pulse generator in the microcomputer, and determines whether the meter is abnormal by judging whether the hourly power consumption calculated by the pulse by the pulse generator corresponds to the standard power usage. Judging.

As described above, the present invention has an effect that it is possible to simply check whether there is an abnormality in the meter for measuring the power consumption.

1 is a view schematically showing the structure of a conventional meter,

2 is a block diagram of a meter of an automatic meter reading system capable of self-test according to the present invention,

3 is an operational flowchart of a meter of an automatic meter reading system capable of self-test according to the present invention.

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

100: micom 101: controller

102: pulse generator 103: storage unit

200: display unit 300: transmission unit

Claims (1)

An apparatus for measuring the amount of power used as a pulse signal of a cycle corresponding to the power used, A pulse generator 102 generating pulses of a predetermined period; A storage unit 103 for storing standard power usage, that is, power usage per hour corresponding to a period of a pulse output from the pulse generator 102; A first switch (SW1) for selecting and outputting a pulse of a cycle corresponding to the power used and a pulse of the pulse generator (102); A second switch SW2 for setting a normal mode and a test mode; When the normal mode is set by the second switch SW2, the first switch SW1 is controlled to input a pulse of a period corresponding to the used power, and the hourly power consumption is an hourly power consumption corresponding to the period of the pulse. Is calculated and displayed on the display unit 200. When the test mode is set by the ground of one end of the second switch SW2, the pulse generator 102 is driven and the first switch SW1 is controlled. Inputting the pulse of the pulse generator 102 to calculate the hourly power usage, which is the hourly power usage corresponding to the period of the pulse, and determines whether the calculated hourly power usage is the same as the standard power usage if the normal drive signal A controller 101 for generating an error signal and generating an abnormal driving signal if it is not the same; And Display unit 200 for displaying the hourly power consumption calculated in the normal mode and the drive signal generated in the test mode Metering of the automatic meter reading system capable of self-test.