KR20180055181A - Inspection apparatus for electronic watt-hour meter's optical - Google Patents

Abstract

Provided is an apparatus to inspect optical characteristics of an electronic watt-hour meter, capable of inspecting optical characteristics of a light emitting device without disassembling a case of an electronic watt-hour meter. According to the present invention, the apparatus comprises an electronic watt-hour meter and an optical characteristic measurement unit. The electronic watt-hour meter includes: a case; a wattage calculation unit disposed in the case to calculate and store a used wattage of a load, and outputting the number of pulse signals corresponding to the used wattage; a display unit disposed to be exposed to the outside so as to display the used wattage of the load; a light emitting device flickered in accordance with the number of pulses outputted from the wattage calculation unit; and a light receiving device receiving light emitted from the light emitting device to convert the light into an electric signal. The optical characteristic measurement unit is electrically connected to the electronic watt-hour meter to measure the electric signal outputted from the light receiving device and monitors an output amount of the light emitting device in accordance with the used wattage of the load through the measured electric signal.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an optical watt-

The present invention relates to an apparatus for inspecting optical characteristics of an electronic watt-hour meter, which is formed to improve the structure and shorten the inspection time.

Generally, a watt-hour meter installed to measure the amount of power consumed in a home or a factory is classified into a mechanical watt-hour meter and an electronic watt-hour meter according to its operation mode and structure.

Since the electronic watt-hour meter does not have a mechanical moving part, it is possible to provide a reliable meter reading value as compared with a mechanical watt-hour meter. In addition, not only is it possible to miniaturize through the integration of circuits, but also it is possible to easily apply the remote meter reading function using various media (telephone line, dedicated line, power line, optical cable, wireless, etc.) It is a fact that it is increasing.

The electronic watt-hour meter calculates and stores the amount of power through the power calculation unit, outputs a number of pulse signals corresponding to the amount of power, and blinks the LED according to the pulse signal.

On the other hand, the electronic watt-hour meter must monitor whether the LED installed in the electronic watt-hour meter outputs the voltage value corresponding to the usage amount of the load in order to check whether it meets the standard of IEC 60255-11 which is the watt-hour meter standard.

However, conventionally, there is no device that can measure the voltage value of the LED outside the electronic watt-hour meter, and the voltage value of the LED has to be measured by measuring the pulse signal input to the PCB installed inside the electronic watt-hour meter. Therefore, in order to inspect the optical characteristics of the LED, it is necessary to disassemble the case of the electronic watt hour meter, so that the inspection time is lengthened and the working efficiency is lowered.

Published Patent Application No. 10-2011-0038861 (published Apr. 15, 2011)

An object of the present invention is to provide an apparatus for inspecting an optical characteristic of an electronic watt-hour meter, which is capable of checking whether a voltage value output from a light emitting element and a used power amount of a load match without disassembling the electronic watt-

According to an aspect of the present invention, there is provided an apparatus for inspecting optical characteristics of an electronic watt-hour meter, including an electronic watt-hour meter and an optical property measuring unit. The electronic watt-hour meter includes a case, a power calculation unit that is disposed in the case to calculate and store the used power amount of the load and output a number of pulse signals corresponding to the used power amount, A light emitting element which is flickered according to the number of pulses outputted from the power calculating section, and a light receiving element which receives the light emitted from the light emitting element and converts it into an electric signal. The optical characteristic measuring unit is electrically connected to the electronic watt-hour meter to measure an electric signal output from the light-receiving element, and monitors the output of the light-emitting element according to the amount of power used by the load through the measured electric signal.

According to the present invention, the voltage value of the light emitting device that is flickered according to the amount of power used can be measured through the optical characteristic measuring unit electrically connected to the electronic watt-hour meter. As a result, it is possible to confirm whether or not the voltage value output from the light emitting element and the used power amount of the load coincide with each other without disassembling the electronic watt hour meter as in the prior art.

In addition, since the electronic watt-hour meter conforming to the standard of IEC 60255-11, which is the standard of the watt-hour meter, can be provided by checking the optical characteristics of the light-emitting device, the reliability of the product can be improved.

In addition, after the rail portion is formed on the rear surface of the electronic watt-hour meter, the electronic watt-hour meter is slidably mounted along the guide rail of the first fixing portion, thereby enhancing convenience in installation. In addition, since a plurality of electronic watt-hour meters can be mounted on the guide rails, a plurality of electronic watt-hour meters can be simultaneously inspected.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of an apparatus for inspecting an optical characteristic of an electronic watt-hour meter according to an embodiment of the present invention. FIG.
FIG. 2 is a side view of the optical characteristic measuring unit and the second fixing unit shown in FIG. 1; FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an apparatus for testing optical characteristics of an electronic watt-hour meter according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings. Here, the same reference numerals are used for the same components, and repeated descriptions and known functions and configurations that may obscure the gist of the present invention will not be described in detail. Embodiments of the invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

1 is a configuration diagram of an apparatus for inspecting optical characteristics of an electronic watt-hour meter according to an embodiment of the present invention. 2 is a side view of the optical characteristic measuring unit and the second fixing unit shown in FIG.

As shown in FIGS. 1 and 2, an apparatus 100 for testing optical characteristics of an electronic watt-hour meter includes an electronic watt-hour meter 110 and an optical property measurement unit 120.

The electronic watt hour meter 110 is for measuring the electricity supplied to the load side and includes a case 111, a power calculation unit 112, a display unit 113, a light emitting device 114, a light receiving device 115, .

The case 111 may be composed of a front case and a rear case that can be assembled or disassembled with each other. And a predetermined space is formed between the front case and the rear case so that various components can be accommodated.

The power calculation unit 112 is disposed in the case 111 to calculate and store the used power amount of the load, and outputs a number of pulse signals corresponding to the used power amount. For example, the power calculator 112 converts the input analog voltage into a digital signal, and multiplies the voltage signal and the current signal for each phase by an internal multiplication circuit to obtain power of each phase. Then, the power of each phase is added to obtain a used energy corresponding to the power used by the load, and a pulse signal proportional to the energy is output.

The display unit 113 is disposed to be exposed to the outside of the case 111 to display the amount of power used for the load. More specifically, the display unit 113 is connected to the power calculation unit 112 and displays information data such as the amount of power provided by the power calculation unit 112. The display unit 113 includes a liquid crystal display (Liquid Crystal Display), a touch panel panel or the like.

The light emitting element 114 is flickered according to the number of pulses output from the power calculation unit 112. [ Accordingly, the number of times of blinking of the light emitting element 114 varies in proportion to the amount of power used. Specifically, the light emitting device 114 may be formed of a selected one of a visible light LED and an infrared LED.

The light receiving element 115 receives the light emitted from the light emitting element 114 and converts it into an electric signal. Here, the electrical signal to be converted may be a voltage. It is preferable to arrange the light emitting element 114 and the light receiving element 115 so as to face each other so that the light generated from the light emitting element 114 can be reflected by the reflecting surface and be efficiently received by the light receiving element 115 Do.

Meanwhile, the electronic watt hour meter 110 may be disposed inside the dark room 150. This is to prevent an error measurement due to the light around the electronic watt hour meter 110 when the light receiving element 115 receives light supplied from the light emitting element 114. Here, only the electronic watt hour meter 110 may be disposed in the dark room 150, or the entire optical property measuring apparatus 100 of the electronic watt hour meter may be disposed in the dark room 150 as shown in FIG.

The optical characteristic measuring unit 120 measures an electrical signal output from the light receiving element 115 by being electrically connected to the electronic watt hour meter 110 and outputs the output amount of the light emitting element 114 according to the used electric power through the measured electric signal Monitoring.

That is, the optical characteristic measuring unit 120 measures an electrical signal output from the light receiving element 115, and the light receiving element 115 receives the flickering light from the light emitting element 114, May be a voltage value of the light emitting device 114 that is flickered according to the amount of power used in the load.

Accordingly, it is possible to check whether the light emitting element 114 is driven properly by confirming whether the voltage value output from the light emitting element 114 matches the amount of power used by the load.

Specifically, the optical characteristic measuring unit 120 may be formed of an oscilloscope.

An oscilloscope is a device that outputs the change of input voltage over time to a screen, and observes a signal that changes with time such as electric vibration or pulse. Since the optical characteristic measuring unit 120 including the oscilloscope is electrically connected to the electronic watt-hour meter 110, it is possible to monitor the voltage value of the light emitting device 114 blinking according to the amount of power used in real time.

The apparatus 100 for testing optical characteristics of the electronic watt-hour meter may further include a first fixing unit 130 and a second fixing unit 140.

An electronic watt hour meter 110 is detachably mounted on the first fixing part 130. Specifically, the first fixing part 130 includes a fixing member 131 disposed on the wall surface and spaced from the bottom surface, and at least one guide rail 132 mounted on one surface of the fixing member 131 in one direction do.

Here, the fixing member 131 may be installed on the wall surface through a separate fixing means such as a bolt, an adhesive, or the like in a state where one surface is in contact with the wall surface. The guide rails 132 may be formed as a pair and may be spaced apart from the other surfaces of the fixing member 131.

The electronic watt-hour meter 110 may include a rail portion 116 slidably mounted along the guide rail 132 to mount the electronic watt-hour meter 110 on the guide rail 132.

Specifically, the guide rail 132 is mounted on one side of the fixing member 131 in the lateral direction, and the rail part 116 is formed to be slidable in the lateral direction along the guide rail 132. However, But is not limited to. That is, the guide rail 132 may be mounted on one side of the fixing member 131 in the longitudinal direction, and the rail portion 116 may be formed to be slidable in the longitudinal direction along the guide rail 132.

Since the rail portion 116 is formed on the rear surface of the electronic watt-hour meter 110, a plurality of the electronic watt-hour meters 110 can be fixed to the first fixing portion 130 irrespective of the type of the electronic watt- .

As shown in FIG. 2, the optical property measuring unit 120 is detachably mounted on the second fixing unit 140. The second fixing part 140 includes a first supporting member 141 that is seated on a bottom surface of the first supporting member 141 and a plurality of rings 142a And a second support member 142 formed with a second support member 142.

Specifically, it is preferable that the second support member 142 is longitudinally mounted on the upper portion of the first support member 141, and a plurality of rings 142a spaced longitudinally apart from the front are formed, It does not. That is, the second support member 142 is laterally mounted on the upper portion of the first support member 141, and the plurality of rings 142a are formed to be laterally spaced from the front surface of the second support member 142 It is possible.

In order to mount the optical characteristic measuring unit 120 on the ring 142a, a groove 121 to be mounted on one of the plurality of rings 142a may be formed on the rear surface of the optical characteristic measuring unit 120. [

As described above, the apparatus for inspecting the optical characteristics of the electronic watt-hour meter 100 can measure the voltage value of the light-emitting element 114 which is flickered according to the amount of power used by the load through the optical characteristic measuring unit 120 electrically connected to the electronic watt- Can be measured.

Accordingly, it is possible to check whether the voltage value output from the light emitting element 114 matches the amount of power used by the load without disassembling the electronic watt-hour meter 110 as in the prior art. Therefore, it is easy to check the optical characteristics of the electronic watt- .

In addition, since the electronic watt-hour meter 110 conforming to the standard of the IEC 60255-11 which is the standard of the watt-hour meter can be provided by examining the optical characteristics of the light-emitting element 114, the reliability of the product can be improved.

The electronic watt hour meter 110 may be mounted on the guide rail 132 of the first fixing unit 130 by slidingly moving the electronic wattmeter 110 in one direction after the rail watt 116 is formed on the rear surface of the electronic watt- The convenience of the time is increased. In addition, since a plurality of electronic watt-hour meters 110 can be mounted on the guide rails 132, a plurality of electronic watt-hour meters 110 can be simultaneously inspected.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation and that those skilled in the art will recognize that various modifications and equivalent arrangements may be made therein. It will be possible. Accordingly, the true scope of protection of the present invention should be determined only by the appended claims.

110 .. Electronic watt hour meter 111 .. Case
112. Power calculation unit 113. Display unit
114 .. Light emitting element 115 .. Light receiving element
116. Ray part 120. Optical property measuring part
121. Groove 130. First fixing part
131. Fixing member 132. Guide rail
140 .. Second fixing part 141 .. First supporting member
142 .. second support member 142a .. ring
150 .. Darkroom

Claims (7)

A power calculation unit arranged in the case to calculate and store a used power amount of the load and to output a number of pulse signals corresponding to the used power amount; An electronic watt-hour meter including a light-emitting element that is flickered according to the number of pulses output from the power calculator, and a light-receiving element that receives light from the light-emitting element and converts the light into an electric signal; And
An optical characteristic measuring unit electrically connected to the electronic watt hour meter for measuring an electric signal output from the light receiving element and monitoring an output amount of the light emitting element according to an amount of power used by the load through the measured electric signal;
And an optical characteristic measuring device for measuring the optical characteristic of the electronic watt-hour meter.
The method according to claim 1,
Wherein the electronic watt hour meter is disposed in a dark room.
The method according to claim 1,
Wherein the light emitting device is formed of one selected from a visible light LED or an infrared light LED.
The method according to claim 1,
Wherein the optical characteristic measuring unit is an oscilloscope.
The method according to claim 1,
Further comprising a first fixing part on which the electronic watt hour meter is detachably mounted and a second fixing part on which the optical property measuring part is detachably mounted.
6. The method of claim 5,
Wherein the first fixing part includes a fixing member disposed on a wall surface and spaced from the bottom surface and at least one guide rail mounted on one surface of the fixing member in one direction,
Wherein the electronic watt-hour meter has a rail portion formed on a rear surface of the electronic watt-hour meter to be slidably mounted along the guide rail.
6. The method of claim 5,
Wherein the second fixing portion includes a first support member that is seated on a floor surface and a second support member that is mounted on the upper portion of the first support member in one direction and has a plurality of rings spaced apart from each other,
And an optical characteristic measuring unit for measuring an optical characteristic of the electronic watt-hour meter, wherein a groove portion to be mounted on one of the plurality of rings is formed on a rear surface of the optical characteristic measuring unit.

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