KR200343443Y1 - Rotation Counter for Rotational Disk of Watthour Meter - Google Patents

Abstract

The present invention relates to an apparatus for electronically counting the number of revolutions of a mechanical wattmeter rotating disc, which enables remote meter reading while using a mechanical wattmeter as it is. The detection sensor is installed on the outer surface of the front cover of the mechanical wattmeter. It is installed so as to face the circumference, and the detection sensor is composed of a light emitting element and a light receiving element to detect the change in the signal received from the light receiving element when the painting display part displayed at a position of the edge of the rotating disc passes, thereby amplifying the signal and shaping the waveform. It is a device that can measure the number of revolutions by discriminating the signal through

Description

Rotation Counter for Rotating Disk of Mechanical Power Meter

The present invention relates to a rotation speed measuring device of a mechanical wattmeter rotating disc which enables remote meter reading while using a mechanical wattmeter as it is. The detection sensor is installed on the outer surface of the front cover of the mechanical wattmeter, but installed in front of the rotating disc, and the detection sensor Is composed of a light emitting element and a light receiving element, and detects the change in the signal received from the light receiving element when the painting display part displayed at a position on the edge of the rotating disc passes and determines the signal through the amplification and waveform shaping of the signal. It is a device that can measure.

Mechanical wattmeters, which have been commonly used to date and are now installed in large quantities at this time, have the advantage of relatively stable usage record keeping against electric and mechanical shock, burnout and damage. However, in today's rapid progress of informatization of infrastructure, the meter reading is becoming inevitable, and the mechanical meter is a major obstacle to the digitization of electricity consumption, which is a prerequisite for meter reading.

Then, it can be easily solved by using an electronic wattmeter, but the reason why the electronic wattmeter is also not widely distributed is that it is still more expensive than the mechanical wattmeter, and it is vulnerable to the abnormal current or the abnormal voltage and thus the abnormal current or abnormality. It may cause a breakdown in the invasion of voltage or erase all stored data. On the other hand, the mechanical wattmeter has the advantage that the record of the amount of usage is still preserved even in case of burnout or damage as well as invasion of abnormal current or abnormal voltage. In addition, the electronic electricity meter has not been used for a long time to wash out the doubt that an increase in the use error will occur due to the change in the characteristics of components due to the aging change. Thus, if a utility company replaces more than 15 million low-voltage consumer electricity meters with electronic electricity meters, and a situation arises, it will lead to power disturbances. Therefore, even if the electricity company operating extremely conservatively, it is not possible to take the risk of replacing the electronic electricity meter unless the stability of the electronic electricity meter is guaranteed.

What should the utility do for meter reading? Until the stability of the electronic electricity meter is proved, it uses the current stable mechanical electricity meter as it is, and converts the mechanical energy meter's instructions into electronic data or data capture or transmits the image of the instructions by image sensing and analyze or rotate the disc. The only way to measure the number of revolutions is to digitize it.

In order to achieve these objectives, the technology disclosed so far has been searched through a patent publication, and a method and device for remote meter reading of an electricity meter (application number: 10-2001-0042194, publication number: SPEC 2001-00794 08, publication date: 2001) August 22) and two remote meter reading devices (application number: 20-2002-0008433, registration number: 20-0278950, registration date: June 05, 2002) are the most similar to the technology of the present invention. Was searched for.

However, both devices using the above technology open the front cover of the electricity meter and install it inside the electricity meter to detect the rotation speed. It can only be installed by opening the State Proof Seal, which is sealed by the Law on Metering. If the national test seal is opened, it can be used again after retesting the error test and the test seal.To do so, after dismantling the current meter, repairing the factory, and testing, the test seal must be mounted on site. . In that case, the demolition equipment, factory repair and sealing costs, and logistics costs together exceed the cost of purchasing a new meter. For reference, the dismantling and auxiliary equipment of the single-phase two-wire ordinary electricity meter of the electric power company currently exceeded KRW 16,000 by standard production. For these reasons, it is considered that a device using the above two technologies will have considerable difficulty in its practical use.

The present invention is devised to solve the above problems, it is to install the detection sensor on the outside of the electricity meter without opening the calibration seal of the electricity meter to measure the rotational speed of the electricity meter rotation disc. Therefore, it solves various disadvantages of the technology installed inside the electricity meter at a glance.

However, since the detection sensor should be installed on the outer side of the front cover of the electricity meter to face the circumferential part of the rotating disc, the position of the light emitting element and the light receiving element should be symmetrically symmetrically with the circumferential surface of the thin rotating disc, and the top, bottom, left and right sides of the transparent power meter front cover In addition, countermeasures against malfunctioning light incident to the incident light must be taken, and a countermeasure against this may be necessary since nighttime and daytime change or other reasons may cause a malfunction of ambient light changes. In addition, since it is installed on the outside front of the electricity meter, it should be small in size, slim, thin and beautiful in appearance, and the method of attaching the electricity meter surface of the detection sensor and the wiring method of the pulse communication line should be considered. Among these problems, in particular, a thorough countermeasure against malfunction is a technical problem of the present invention.

Figure 1a is an exemplary view showing a state in which the mechanical power meter rotational disc rotation speed counting device of the present invention is installed in front of the outer cover of the conventional mechanical power meter front cover.

Figure 1b is an exemplary view showing in a cross-sectional view the mounting state of the rotating disk speed counter of Figure 1a.

Figure 2a is an exemplary view showing the configuration of the rotating disc and the position of the light emitting element and the light receiving element.

2B is an exemplary diagram illustrating an electronic power amount display device 26 for counting a rotational disc speed.

Figure 3 is a block diagram showing an embodiment of an electronic circuit of the rotating disk speed counter.

In order to achieve the above objects, the mechanical power meter rotational disc speed counting device of the present invention installed on the outer surface of the mechanical power meter front cover will be described as follows.

First, the mechanical power meter rotational disc speed counting device of the present invention is installed on the external surface of an existing mechanical power meter and converts the mechanical usage guide into a digital usage guide, so that it can be used for data communication of a remote meter reading system. . If the purpose is not to apply to such a remote metering system, A / D conversion of the usage guidelines would be meaningless. Therefore, the mechanical power meter rotational disc counting device of the present invention should always be considered simultaneously with the remote meter reading system.

Although there are various methods for the remote meter reading system, here, the collection of hundreds of small-area meter reading data to the focuser by power line communication will be described as an example, and the long-range communication means, the data transmission means to the upper part, will not be described. Do not. Therefore, one power line communication modem is provided for every power meter when the communication means in a small area is used for power line communication, or for each collective power meter box when there is a collective electricity meter box. Therefore, the data of the usage guideline output from the mechanical power meter rotational disc speed counting device of the present invention is transmitted to the power line communication modem via wired communication, and then to the concentrator through power line communication.

In addition, the mechanical power meter rotational disc speed counting device of the present invention should be installed on the outer surface of the existing mechanical power meter, so that the degree of protrusion to the front side should be minimized, and the appearance should be compact and as small as possible. . Therefore, by installing components other than the detection sensor composed of the light emitting elements 24 and 25 and the light receiving element 23, that is, a power supply device, an LCD drive, an electronic circuit, etc., if possible, move them to the power line communication modem or other device side. Therefore, the purpose of miniaturization and slimming can be effectively achieved.

Hereinafter, exemplary embodiments of the present invention will be described in more detail with reference to the accompanying drawings.

Figure 1a is an exemplary view showing a state in which the mechanical power meter rotational disc rotation speed counting device of the present invention is installed in front of the outer cover of the conventional mechanical power meter front cover.

Conventional mechanical power meter is composed of a power meter base plate 10, the front cover 11, the terminal block 12, the input and output terminal 13, the mechanical counting device 14, the rotating disc and other accessories. The mechanical power meter rotational disc speed counting device 15 of the present invention is mounted on the outer surface of the mechanical power meter front cover 11 in front of the internal rotational disc so that the counting data is output through the wired communication line 16.

Figure 1b is an exemplary view showing in a cross-sectional view the mounting state of the rotating disk speed counter of Figure 1a.

The rotating disc speed counter 15 is mounted in front of the rotating disc 17 so that the rotation speed can be easily counted.

Figure 2a is an exemplary view showing the configuration of the rotating disc and the position of the light emitting element and the light receiving element.

The rotating disc 20 is a thin circular plate made of metal, which is to be rotated by an induction force of electricity. In addition, as shown in the drawing, the rotating disc 20 is connected to one part of the disc, that is, the upper surface, the lower surface, and the circumferential surface 22 by connecting with the painting display 21 or other methods. It is. Therefore, when the display portion 21 passes in front of the rotational disc speed counter 15 while the rotational disc rotates, the infrared rays irradiated from the two light emitting elements 24 and 25 are wound around the rotational disc 20. In the light receiving amount reflected from the surface 22 and input to the light receiving element 23, a large difference occurs as usual. This difference can be used to count the number of revolutions of the disc.

FIG. 2B is an exemplary view illustrating an electronic power amount display device 26 installed in a rotating disc speed counter.

It is installed in the rotating disc rotation speed counting device 15, and the number of the LCD display plate 27 and the LCD display plate 27 in accordance with the guidelines of the mechanical counting device, which indicates the current power consumption, and the number of the mechanical counting device 14 And a display lamp 29 for indicating the power supply and the presence or absence of the rotation speed counting function. In addition, this display lamp is used to adjust the installation position so that the infrared rays irradiated from the light emitting elements 24 and 25 at the time of the first installation are reflected on the circumferential surface 22 of the rotating disc 20 to be properly incident on the light receiving element 23. It can also be used as an indicator lamp. That is, the function of the display lamp 29 is that when the power supply is supplied while the rotating disc speed counter is mounted while the painting display 21 of the rotating disc circumferential surface 22 is not visible from the front, the circumferential surface 22 If the reflected light does not enter the light receiving element 23 properly, the signal is not received and the display lamp 29 does not blink. However, if you move the position little by little and it is properly positioned, it will blink.

Figure 3 is a block diagram showing an embodiment of an electronic circuit of the rotating disk speed counter.

The frequency generator 33 generates a square wave, and the generated square wave amplifies the waveform in the waveform amplifier 32 and transmits the waveform to the light emitting device 30 to emit light. In this example, two light emitting elements are connected in parallel to emit light from both sides of the light receiving element, so that no malfunction occurs even if disturbed light enters from either side. In the present invention, in order to prevent malfunction due to disturbed light, the number of installation of the light emitting element and the light receiving element is increased to 2 to 5, respectively.

Another countermeasure against malfunction due to disturbed light is to treat the front cover 11 of the transparent mechanical wattmeter with an opaque material to prevent the intrusion of the disturbed light at all.

The light receiving element 31 receives the infrared square wave reflected from the circumferential surface 22 of the rotating disc, amplifies the received waveform in the waveform amplifier 34, and shapes the amplified waveform in the waveform shaping unit 35. The signal is transmitted to the signal discriminating unit 37 to discriminate the signal. Here, the automatic gain control unit 36 is to cope with the change in the illumination according to the environment and time of the surroundings, and the signal is discriminated at a constant level at all times even when the incident light is high due to the high ambient illumination and vice versa. In order to be input to the unit 37, the amplification degree of the waveform amplifier 34 is automatically adjusted.

As described above, the present invention is a simple mechanical power meter rotational disc counting device with high reliability, so that the mechanical power meter rotational disc speed counting device of the present invention is installed inside the mechanical calorimeter, It can also be used as a way to make a part of the lower part of the display by painting.

Mechanical calorimeter rotation disc counting device designed as described above is to install the detection sensor on the outer surface of the electricity meter without opening the calibration seal of the electricity meter to measure the rotational speed of the calorimeter rotation disc. Therefore, in constructing a power usage remote meter reading system of a power company, an economical and stable system is constructed due to the following advantages.

1. The record of the electricity meter usage is preserved even in case of abnormal current or abnormal voltage invasion, burnout or damage.

2. There is no fear of increase of the use error due to the change of the part characteristics due to the aging change.

3. No factory repair is required for retrofit of the electricity meter.

4. There is no need for dismantling of existing electricity meters, additional equipment and logistics costs.

Claims (8)

In the mechanical power meter rotational disc speed counting device (15), The light-emitting element 24 and 25 and the light-receiving element 23 which can recognize the painting display part 21 displayed on a part of the circumferential surface 22 inside the mechanical wattmeter through a transparent window on the outer surface of the mechanical wattmeter Detection sensor, An electronic circuit for generating a predetermined signal and then amplifying the waveform to supply the light emitting elements 24 and 25, and an electron having a function of performing waveform amplification and waveform shaping on the signal received from the light receiving element 23 and discriminating the signal. Circuits, The detection sensor may be installed in close contact with an external surface of a mechanical wattmeter, and a light receiving angle of the light receiving element 23 may receive a light beam reflected from a peripheral surface 22 of the rotating disc inside the mechanical wattmeter. Rotational counting device of a mechanical power meter rotational disc characterized in that it is installed so as to be able to count the rotational speed of the rotating disc. The method of claim 1, In the speed counting device of the mechanical power meter rotation disc, LCD display panel 27 for displaying the amount of power, An instruction adjusting device 28 which can adjust the instructions of the LCD display panel 27 to match the instructions of the mechanical counting device 14; At the time of the first installation, whether the angle of reception of the light receiving element 23 is installed so that a part of the light rays radiated from the light emitting elements 24 and 25 can properly receive the light reflected from the circumferential surface 22 of the rotating disc inside the mechanical wattmeter. Rotational speed counting device of a mechanical power meter rotation disc, characterized in that for installing the indicator (29) that can be easily confirmed. The method of claim 1, A rotation counting device of a mechanical calorimeter rotating disc, characterized by using a light emitting element for emitting an infrared signal and a light receiving element for receiving an infrared signal as a detection sensor. The method of claim 1, Among the components required for the rotational speed counting device of the mechanical energy meter rotational disc, components other than the detection sensor made up of the light emitting elements 24 and 25 and the light receiving element 23 are moved to the outside, whereby the rotational speed of the mechanical power meter rotational disc A rotation speed counting device of a mechanical power meter rotation disc, characterized in that to reduce the size of the counting device. The method of claim 1, A rotation counting device of a mechanical power meter rotational disc, characterized in that for using the two to five light emitting elements and two to five light receiving elements at the same time for the configuration of a detection sensor for preventing malfunction due to disturbance light. The method of claim 1, If the front cover (11) of the mechanical wattmeter is made of a transparent material, the rotation counting device of the mechanical power meter rotation disc, characterized in that to be used after opaque processing to prevent malfunction due to disturbance light. The method of claim 1, A speed counting device for a mechanical wattmeter rotating disc, characterized by using a square wave as a signal used as a detection means. In the rotational speed counting device of the mechanical power meter rotation disc, After amplifying the received signal by the light-receiving element and performing waveform shaping, the amplifier receives an automatic gain control signal for measuring the reception level (receive level) of the signal and adjusting the amount of amplification so as to maintain a constant level of output at all times. A rotation counting device for a mechanical power meter rotation disc, characterized in that an automatic gain control unit (AGC) for inputting.