KR101832157B1 - A Digital Converter for Converting a Measured Value into Digital Signal - Google Patents

Abstract

The present invention relates to a digital converter for a mechanical weighing machine. More specifically, the present invention relates to a digital converter for a mechanical weighing machine which can convert a value measured from a mechanical water meter to a digital signal so as to transmit a measured value to a portable electronic device. The digital converter for a mechanical weighing machine comprises: an image obtaining unit (11) for obtaining an image of a meter disposed in the weighing machine; a value extracting unit (12) for extracting a value of the meter using the image obtaining unit (11); a transmission signal forming unit (13) for converting the extracted value to the digital signal; and a transmission storage unit (14) for transmitting the digital signal transmitted from the transmission signal forming unit (13) to the electronic device in accordance with a transmission initiation signal.

Description

[0001] The present invention relates to a digital converter for a mechanical meter,

The present invention relates to a digital converter for a mechanical meter and to a digital converter for a mechanical meter capable of transferring measured values to a portable electronic device by converting the measured value into a digital signal in a mechanical water meter.

Meters with various structures for measuring the usage of constants are known in the art. In general, a meter can be divided into a flow rate method of measuring the flow rate of the flowing water and a volume method of measuring the volume of the water, and is mainly made of a blade flow rate structure. The meters for measuring the use of tap water should be read periodically for the purpose of calculating the charge, and the meter shall be installed in an openable space for this purpose. If a meter is installed in such a space, there is an inconvenience that the installation space must be opened for the reading of the meter while following the risk of frost.

Patent Registration No. 10-0829903 discloses a water meter equipped with a permanent magnet integrally formed with a rotating needle in response to a flow of a fluid and rotating together with the needle; A housing in which a linear sensor unit is in close contact with an inner surface of the sensing window of the water metering meter so as to form a pulse signal by sensing a rotating permanent magnet; And a display unit for counting the pulse signals generated by the sensor unit and calculating the amount of fluid used and outputting the data.

In the Utility Model Registration No. 20-0450646, a sensor fixing part for fixing the sensor in a plate shape to be supported on the instrument panel of the meter when fastened to the mechanical water meter meter is formed through one side of the plate, and a cylindrical instrument panel A first support plate having a first support portion inserted and supported therein; A second support plate having a position adjusting hole penetrating the side surface in a plate shape and having a second support portion inserted into the cylindrical instrument panel of the meter when the first support plate is coupled with the second support plate, And a position adjusting unit which is inserted through the second supporting plate and is engaged with the first supporting plate. The sensor fixing apparatus for measuring a mechanical water meter is disclosed.

The meters disclosed in the prior art do not improve the disadvantages of the prior art that the meter must be read directly with the naked eye and thereby the meter must be exposed to the outside in order to be read. Therefore, new techniques need to be developed to improve the measurement method of the known meters.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Registration No. 10-0829903 (Kwangil-il Development Co., Ltd., May 16, 2008) Analog and digital combined water meter Prior art 2: Utility model registration No. 20-0450646 (Hanil Network Engineering Co., Ltd., October 20, 2010 announcement) Sensor fixture for mechanical water meter measurement

It is an object of the present invention to provide a digital converter for a mechanical meter which enables reading of the meter in a state in which the meter is installed.

According to a preferred embodiment of the present invention, a digital converter for a mechanical meter comprises an image acquisition unit for acquiring an image of a meter disposed in the meter; A numerical value extracting unit for extracting the numerical value of the meter by the image acquiring unit; A transmission signal forming unit for converting the extracted numerical value into a digital signal; And a transmission storage unit for transmitting the digital signal transmitted from the transmission signal forming unit to the electronic device in accordance with the transmission start signal.

According to another preferred embodiment of the present invention, the meter is a flow meter for measuring the flow rate.

According to another preferred embodiment of the present invention, a mode setting unit for setting an operation mode and a period setting unit for determining an acquisition time of the image are included.

According to another preferred embodiment of the present invention, the apparatus further comprises a temperature sensor for measuring the temperature inside the meter, and at a predetermined temperature, the image acquiring unit acquires the image at a predetermined cycle.

According to another preferred embodiment of the present invention, the guide bracket further includes a guide bracket installed inside the meter.

The digital converter according to the present invention makes it possible to read the meter without opening the space where the meter is installed. The digital converter according to the invention allows the metering efficiency of the meter to be improved by making it possible at any time of the metering of the water metering simply. Also, the meter according to the present invention is applied to a device requiring various types of measurement, thereby reducing measurement errors.

1 shows an embodiment of a digital converter according to the present invention.
Fig. 2 shows an embodiment of the operation structure of the digital converter according to the present invention.
3A and 3B illustrate an embodiment of a process of reading a meter of a water meter by a digital converter according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

1 shows an embodiment of a digital converter 10 according to the present invention.

Referring to Fig. 1, a digital converter 10 for a mechanical meter comprises an image acquisition unit 11 for acquiring an image of a meter disposed in a meter WM; A numerical value extracting unit (12) for extracting numerical values of the meter with the image acquiring unit (11); A transmission signal forming unit (13) for converting the extracted numerical value into a digital signal; And a transmission storage unit 14 for transmitting the digital signal transmitted from the transmission signal forming unit 13 to the electronic device in accordance with the transmission start signal.

The digital converter 10 according to the present invention may be installed in various instruments including a water meter to acquire images from the meter and transmit the measured values displayed on the meter to an electronic device such as a terminal by wire or wirelessly. This makes it unnecessary for the measured value of the meter to be visually confirmed. Meter meters may be displayed numerically or in the form of needles, but are not limited to these. For example, a meter can be a water meter placed in an installation box, and when the temperature drops in the winter, it can be filled with a thermal insulation to prevent the installation box from freezing. Then, to read the meter of the meter, the insulation should be removed and the insulation should be filled again after the meter is read. However, according to the present invention, in such a case, the reading of the meter may be read by a digital converter and transmitted to an electronic device (ET) such as a terminal. As described above, the digital converter according to the present invention makes it possible to read the meter while the meter WM is not exposed to the outside.

The meter (WM) can be like a water meter, and the meter (WM) can have various structures indicating the flow rate to be supplied or discharged. The meter WM can display the flow rate analogously or digitally, and the image acquiring unit 11 can acquire an image of the flow meter of the meter WM. The image acquisition unit 11 may be, for example, a miniature camera, and may be an infrared image camera, depending on the installation environment. If the digital converter 10 according to the present invention is manufactured together with the meter, the portion indicating the measured value of the meter WM can be made into an image-obtainable shape. For example, when the image acquisition unit 11 is operated, the measurement value display portion may be made to emit light. Alternatively, the image acquiring unit 11 may include a light emitting unit, and the light emitting unit may be operated in conjunction with the image acquiring unit 11. [ For example, the image acquiring unit 11 may transmit an operation start signal to the light emitting unit so as to emit light, and then transmit an operation end signal to the light emitting unit when image acquisition is completed. The image obtained by the image acquiring unit 11 may be transmitted to the numerical extracting unit 12. [ The numerical value extracting unit 12 can extract the numerical portion of the meter, the needle position or the indicator and the corresponding scale. The numerical value extracting unit 12 includes a position determining unit for determining the extracted portion, a display selecting unit for extracting the display image from the portion selected by the positioning unit, and a comparison comparing the image extracted by the display selecting unit with the pre- Unit. ≪ / RTI > Digital converter 10 may include a control unit for determining the dimension value from the image extracted from the extraction unit 12 while controlling the overall operation. The control unit can determine the dimension value from the dimension image obtained from the comparison unit and transmit it to the transmission signal forming unit 13. [

The transmission signal forming unit 13 may have a function of converting the dimension value into a digital value or a numeric value and at the same time, into a signal transmittable to the electronic device ET. And transmit the converted signal to the transmission storage unit 14. [ At the same time, the transmission signal forming unit 13 can transmit a completion signal to the numerical value extracting unit 12 that the measurement value generated from the obtained image is made into a digital signal and transmitted. The numerical value extracting unit 12 can delete the acquired image when the completion signal is received.

The transfer storage unit 14 may store the digital measurement value together with the generation time, and a plurality of digital measurement values may be stored in the transfer storage unit 14. [ For example, when the command signal of the digital measured value is received by the control unit, the recently generated one to five values may be transmitted to the electronic device ET. The transmission storage unit 14 stores various information related to the digital measurement value and can transmit the information to the electronic device in accordance with the transmission command of the control unit.

The digital converter 10 according to the present invention can be installed in a position where the scale of the meter or the inside of the meter can be obtained, and can be independently driven. To this end, the digital converter 10 may be provided with a primary battery or a rechargeable secondary battery. The digital converter 10 can be configured to be capable of communicating wired or wirelessly with an electronic device (ET) such as a portable terminal.

Fig. 2 shows an embodiment of the operation structure of the digital converter according to the present invention.

2, the electronic device ET may be a dedicated terminal or a portable electronic device such as a smart phone or a tablet PC in which an application capable of controlling the operation of the digital converter 10 is installed. The operation application may be installed in a dedicated terminal or a portable electronic device, and the operation application may include a code generation unit 22 for identifying a different digital converter 10; A connection establishing unit 23 for establishing a wireless or wired connection between the digital converter 10 and the electronic device ET and a reader 21 for receiving a digital measurement value from the digital converter 10, The reader 21 may have a display function.

Each digital converter 10 is divided by the code generating unit 22 and the unique code generated by the code generating unit 22 can be stored in the digital converter 10. [ The unique code generated by the code generating unit 22 may be an operation start signal of the digital converter 10. [ The connection setting unit 23 can set up a wired connection or establish a wireless connection, and can set up a short-range wireless communication such as Bluetooth communication or Wi-Fi communication. The unique code generated by the code generating unit 22 can be transmitted to the digital converter 10 when a connection is established between the electronic device ET and the digital converter 10 by the connection setting unit 23. [

Digital converter 10 may be provided with a mode setting unit 16 and the mode setting unit 16 may be configured such that the digital converter 10 is operated in a sleep mode or a power saving mode or in an active mode You can set it to work. The mode setting unit 16 may include wired or wireless communication means and may receive a unique code transmitted from the electronic device ET. The mode setting unit 16 can confirm the unique code and convert the digital converter 10 from the sleep mode to the active mode. The period setting unit 15 can be arranged in the digital converter 10 as required. The period setting unit 15 can determine the time at which the image is acquired in the image acquiring unit. The period setting unit 15 may transmit an active mode start signal when a predetermined time is reached by the mode setting unit 16 so that the meter image is obtained accordingly. Upon switching to the active mode in the mode setting unit 16, an image may be acquired by the image acquiring unit to produce a digital metric, or a pre-generated digital metric may be called. The newly generated digital measurement value may be stored in the transfer storage unit 14 and then transferred to the transfer confirmation unit 17. [ The transmission confirmation unit 17 can transmit the digital measurement value stored in the transmission storage unit 14 to the digital transmission unit 18 by a control command of the control unit of the control unit in accordance with the operation start signal of the mode setting unit 16 have. And the transmission confirmation unit 17 can transmit a completion signal to the transmission storage unit 14 notifying that the transmission is completed. The digital transmission unit 18 may have a temporary storage unit and may transmit one or more digital metric values sent from the transmission confirmation unit 17 to the reader 21. At the same time, a transmission completion signal can be transmitted to the mode setting unit 16. Upon receiving the transmission completion signal, the mode setting unit 16 can switch the digital converter 10 back to the sleep mode. The reader 21 can simultaneously display a signal transmitted from the digital transmission unit 18 while simultaneously transmitting the digital measurement value received by the management server as needed.

A plurality of unique codes can be generated or stored by one electronic device ET so that the plurality of digital converters 10 can be managed. In addition, the mode setting unit 16 can increase the battery life of the digital converter 10.

The digital converter 10 according to the present invention can be operated in various ways.

3A and 3B illustrate an embodiment of a process of reading a meter of a water meter by a digital converter according to the present invention.

Referring to FIG. 3A, a method of acquiring, by an electronic device, a value measured by a digital converter according to the present invention, for example, in a measurement such as a water meter, includes obtaining a metering image (P31); Extracting a numerical image from the weighing image and converting it into a digital measurement value and storing (P32); Receiving a unique code from an electronic device (P33); A step (P34) in which it is confirmed whether or not an appropriate digital measurement value is stored according to the reception of the inherent code; If there is no digital measurement value (NO), a metering image corresponding to the time of receipt of the unique code is obtained (P31), and if a proper digital measurement value exists (YES), the digital measurement value is transmitted to the electronic device (P35); (P36) when the transmission of the digital measurement value is completed, the acquired image is deleted; And switching from the active mode to the sleep mode (P37).

As shown in Fig. 3b, the digital converters 10 and 10a can be installed inside or on the cover of the meter WM. Digital converters 10 and 10a can be disposed at positions where acquirement of the meter image MP is possible and can be arranged to enable positioning. Specifically, the digital converter 10 can be disposed in a circular guide bracket 31 disposed inside the metering body MB of the meter WM. The positioning bracket 31 may be provided with a positioning rail 311 for allowing the digital converter 10 to move and the electrode units E1 and E2 may be disposed at different positions of the positioning rail 311 . Digital converter 10 may be disposed at an appropriate position capable of acquiring the meter image MP while being moved along the positioning rail 311. [

As described above, the digital converter 10 is capable of wirelessly or wiredly communicating data with an electronic device

It can be made into a possible structure. A local communication chip may be disposed for wireless communication, and a connection socket 32 may be connected to the digital converter 10 for wired communication. The connection socket 32 can be connected to the digital converter 10 by the communication cable SC and the connection socket 32 can be arranged to be exposed to the outside of the meter WM.

When the digital converter 10 or 10a is connected to the electronic device 10 or 10a wirelessly or wired and the digital converter 10 or 10a is transmitted according to a preset cycle or from the electronic device to the digital converter 10 or 10a, Can be obtained (P31). The meter image MP can be various display means and the digital converters 10 and 10a can extract the measurement value image MV from the meter image MP and store it as a digital measurement value at P32. Thereafter, a unique code for transmission is transmitted (P33) and the digital measurement value can be transmitted to the electronic device according to the method described above (P35).

According to the present invention, a temperature sensor (TS) for measuring the temperature inside the meter (WM) can be disposed inside the digital converter (TS), and at a predetermined temperature, the image acquiring unit acquires an image at a predetermined cycle, can do. The temperature sensor TS may have the function of monitoring the freezing or other malfunction of the meter WM. The predetermined temperature means a temperature with frost damage, and the predetermined period may be set to, for example, 10 minutes, 30 minutes, 1 hour, or 2 hours. When the predetermined temperature is reached, an image can be acquired by the image acquisition unit according to a predetermined cycle by the image acquisition unit, and an alarm signal can be generated if the acquired image is the same as the previously obtained image. A danger comparator is installed to confirm whether or not the numerical values are equal with the passage of time, and the danger comparator can transmit a mode conversion signal to the mode setting unit. Depending on the mode conversion, the danger notation function may be activated or the communication function may be activated to transmit the frozen situation to the portable electronic device.

The digital converters 10 and 10a according to the present invention can be operated in various ways, and the present invention is not limited to the embodiments shown.

The digital converter according to the present invention makes it possible to read the meter without opening the space where the meter is installed. The digital converter according to the invention allows the metering efficiency of the meter to be improved by making it possible at any time of the metering of the water metering simply. Also, the meter according to the present invention is applied to a device requiring various types of measurement, thereby reducing measurement errors.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10, 10a: digital converter 11: image acquisition unit
12: Numerical value extraction unit 13: Transmission signal forming unit
14: Transfer storage unit 15: Period setting unit
16: Mode setting unit 17: Transmission confirmation unit
18: digital transmission unit 21: reader
22: code generating unit 23: connection setting unit
31: guide bracket 32: connection socket
311: Setting rails E1 and E2: Electrode unit
ET: Electronic equipment MB: Weighing body
MP: meter image MV: meter
SC: Communication cable TS: Temperature sensor
WM: Meter

Claims (5)

A digital converter for a mechanical meter, comprising:
An image acquisition unit (11) for acquiring an image of a meter disposed in the mechanical meter (WM);
A numerical value extracting unit 12 for extracting a numerical value of the meter from the image transmitted from the image acquiring unit 11;
A transmission signal forming unit (13) for converting the extracted numerical value into a digital signal; And
And a transmission storage unit (14) for transmitting the digital signal transmitted from the transmission signal forming unit (13) to the electronic equipment in accordance with the transmission start signal,
The transmission signal forming unit 13 transmits a completion signal indicating that the extracted numerical value has been converted into a digital signal and transferred to the transmission storage unit 14 to the numerical value extracting unit 12, ) Deletes the image transmitted from the image acquiring unit (11) upon receiving the completion signal,
Characterized in that the digital converter is arranged in a circular guide bracket (31) arranged inside a metering body (MB) of the mechanical meter (WM) so as to be positionable so as to be able to acquire an image of the meter Digital converters for mechanical meters. The digital transducer for a mechanical meter according to claim 1, wherein the meter (WM) is a flow meter for measuring the flow rate. The digital converter according to claim 1, comprising a mode setting unit (16) for setting an operation mode and a period setting unit (15) for determining the time of obtaining the image. The mechanical meter according to claim 1, further comprising a temperature sensor (TS) for measuring the temperature inside the meter (WM), wherein the image acquiring unit (11) acquires the image at a predetermined cycle Digital converter for.
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