KR100290113B1 - Telemetering control unit - Google Patents

Abstract

PURPOSE: A remote meter-reading apparatus capable of showing the meter-reading results by each family is provided, thereby displaying the each amount of electric power, water, gas, hot water, heating used by each family on one panel at the same time. CONSTITUTION: The remote meter-reading apparatus capable of showing the meter-reading results by each family consists of a meter-reading part which reads the signal of voltage in proportion to the voltage loaded in the electric power-providing line of each family; a controlling part which has an input/output separate circuit displaying separately the amount of the electric power used by each family; a gauge showing the pulse signal detected from the meter-reading signals of water, hot water, gas and heating/cooling-supplying line; a microprocessor comparing and controlling the pulse signals from the gauge; and a displaying part which displays sequentially the meter-reading values of the each amount of electric power, water, hot water, gas and heating/cooling used in each family.

Description

Remote metering device for households {Telemetering control unit}

The present invention relates to a remote meter reading device for generation so that the meter reading of the power, water, hot water, gas, cooling / heating are sequentially displayed on each display on one display.

In general, the electronic wattmeter has no mechanically moving parts, and thus, the advantages of the electronic wattmeter are superior in time characteristics compared to the inductive wattmeter, which is mainly composed of a mechanical configuration.

In other words, the accuracy of the meter is kept unchanged for a long time, and furthermore, it is possible to miniaturize by constructing a circuit with an integrated circuit or the like, and it is easy to telemetry or interface with a computer.

In addition, remote metering using a dedicated line and remote metering using a telephone line are possible.

For this reason, it is expected that the electronic wattmeter will become the mainstream of the wattmeter in place of the conventional inductive wattmeter, and many electronic wattmeters have been developed recently.

An example of such a conventional electronic electricity meter is disclosed in Patent Publication No. 91-9904 and shown in FIG.

The wattmeter includes a voltage divider circuit 20 for generating a voltage signal ev of two signals proportional to the load voltage and having a phase difference of 180 degrees from each other, and a current-voltage change circuit for generating a voltage signal ei proportional to the load current. (21), sampling and holding circuits 23 and 24 for sampling and holding the two voltage signals ev and ei, respectively, and voltage signals ev and ei sampled by the sampling and holding circuits 23 and 24, respectively. And a multiplexer 25 for selecting any one of them, and an A / D converter 26 for converting an analog signal output from the multiplexer 25 into a digital signal.

The delay time for detecting the phase delay signal of the voltage signal ev according to the pulse signal inputted from the clock pulse generating means connected to one terminal thereof as the input of the voltage signal ev generated from the voltage dividing circuit 20 as an input. The detection circuit 27 is provided.

In addition, a command signal is generated at a corresponding terminal corresponding to the phase delay signal input from the delay time detection circuit 27 by the output pulse of the clock pulse generating means, and the power consumption is accumulated by the value calculated according to the command signal. Microprocessor 29 and display means 30 indicating the integrated power consumption, and selects one of the sampled voltage signals ev and ei, and operates to convert the selected voltage signal into a digital signal. Has a configuration.

The conventional electronic wattmeter having such a configuration has the following operation process.

The voltage signal ev of two signals having a phase difference of 180 degrees proportional to the load voltage V is generated in the voltage dividing circuit 20, and this signal is applied to the sampling and holding circuit 23, and the current consumption I A voltage signal ei proportional to is generated via the current-voltage conversion circuit 21, and this signal is applied to the sampling and holding circuit.

The sampling and holding circuits 23 and 24 respectively sample and hold the voltage signals ev and ei.

On the other hand, the voltage signal ev is applied to the delay time detection circuit 27, detects the delay signal of the voltage signal ev according to the clock pulse of the clock pulse generator 28 and applies it to the microprocessor 29, The microprocessor 29 commands to output the sampling signal to the sampling and holding circuits 23 and 24 simultaneously.

At this time, the sampling and holding circuits 23 and 24 apply sampling signals to the multiplexer 25 at the same time, and the microprocessor 27 counts a predetermined number of clock pulses of the clock pulse generator 28 and then supplies the multiplexer 25 to the multiplexer 25. It commands to select one of the voltage signal ev and the voltage signal ei to output and supplies it to the A / D converter.

Subsequently, upon completion of the A / D change, the A / D converter 26 supplies the completion signal to the microprocessor 29, and the microprocessor 29 checks the signal conversion completion signal and inputs the digital conversion signal as a data signal. In addition, the delay time detection is performed again. Since the voltage data is delayed by 90 degrees and multiplied by the current data, a time corresponding to the peak time when the voltage signal ev from the voltage divider circuit crosses the zero level is determined. The pulse of 28 is counted, so the delay time is detected.

After storing the input data for the delay time, this data is multiplied by the current data, and the power consumption is accumulated by these signals, and the weighing number is displayed on the display 32 digitally.

Typically, such an electronic electricity meter is provided with electronic electricity meters 32-32n per household in the buried box 30, as shown in FIG. 2, and the generation numbers 31-31n are displayed on the outer cover 33. As shown in FIG. .

However, since one meter is required to be installed in each household, when it is applied to an apartment, several meters must be installed in one buried box, thereby increasing the size of the buried box and increasing the cost of the product price. .

In addition, the conventional electronic electricity meter has a problem in that the sealing part is exposed to the outside by attaching the electricity meter in the buried box and putting a separate cover on the wall.

In order to solve this problem, the inventor of the present invention, the multi-generation electronic electricity meter disclosed in Patent Application No. 98-56133 has a configuration as follows.

First, the meter reading unit 100 to 100n detects a voltage signal proportional to the load voltage applied to each generation power supply line, and then reads the amount of power used in each generation.

The controller 110 has a built-in power meter reading unit 125 to convert and integrate when the voltage signal sensed by the meter reading unit (100 to 100n) is applied.

In addition, the control unit 110 simultaneously measures the amount of power of several generations through the input / output separation circuit 120, and the power converted value is separated for each generation when inputting the detected amount of power of each generation to separate the output units 130 to 130n. Is output via

The amount of power applied from the output units 130 to 130n is digitally displayed on the panel of the display unit 140 by the control signal of the microprocessor 150.

The display unit 140 is integrally formed in a buried box in which a circuit for reading the above-described power amount is embedded and embedded in a wall surface.

The microprocessor 150 sets an address and inputs the generation number from the outside through the address setting and the external communication line 170 and the external count pulse output unit 180 for remote meter reading.

At this time, the lake number for each generation is recorded on the panel of the display unit 140 through a loader, which is a routine for loading a program from a predetermined external medium into the main memory device, thereby enabling remote meter reading communication.

The above lake number is used as an address number on the remote meter reading system program, and the inputted information is stored in the EEP-ROM 160.

As shown in FIG. 4, the multi-generation electronic electricity meter includes a buried box 200, in which circuit elements such as a circuit board are accommodated and having a flange 201 at an inlet edge thereof, and opening and closing at an inlet of the buried box 200. The main cover 210 and the sub cover 220 are formed to have a window 211 to which the display unit 140 is attached and fixed.

Inside the sub-cover 220, a terminal coupling part to which input terminals for each generation are connected is provided.

And the flange 201 is provided with a sealing portion 205, the cover member 230 for shielding the sealing portion for appearance is provided with a sliding opening and closing.

However, the multi-generation electronic electricity meter only reads the electricity for each household, and in order for the user to check the meter reading for hot water, water, gas, and cooling / heating, the hot water, water, gas, There was an inconvenience to check the usage of the cooling / heating one by one.

The present invention was created in order to solve the above problems, and displays the amount of power and water, hot water, gas, and cooling / heating used by each generation on one display screen and sequentially displays them. The present invention provides a remote reading device for generations.

1 is a block diagram showing an electronic integrated power meter of the prior art,

2 is a perspective view showing a conventional electronic integrated power meter;

Figure 3 is a block diagram showing a conventional multi-generation electronic electricity meter,

4 is a perspective view showing a conventional multi-generation electronic electricity meter,

5 is a block diagram of a generation remote meter reading apparatus according to the present invention,

6 is a perspective view showing a generation remote reading device according to the present invention.

<Explanation of symbols for main parts of the drawings>

100 ... Reading section 110 ... Control section

120 I / O separation circuit 125 Load capacity meter reading

130 ... output 140 ... display

150 ... Microprocessor 160 ... Epyrom (EEP-ROM)

170 ... Address setting and external communication line 180 ... Pulse output for external count

190 ... meter

In order to achieve the above object, the generation remote reading device of the present invention includes: a meter reading unit detecting a voltage signal proportional to a load voltage applied to each generation power supply line; A control unit having an input / output separation circuit in which power converted values are separately output for each generation when inputting the detected amount of power of each generation; A meter for sensing a metering signal applied to water, hot water, gas and cooling / heating supply lines of each generation and outputting a pulse signal respectively; A microprocessor for comparing / determining and controlling the application of the pulse signal from the meter; When the output of the control signal from the control unit and the microprocessor includes a display unit for displaying the power consumption of the various generations for each generation and the reading values of water, hot water, gas, and heating / heating sequentially on one panel. It features.

The microprocessor makes it possible to record the lake for each generation on the panel of the display through a routine for loading a program from a predetermined external medium into the main memory device, and the amount of power used for each generation and water, hot water, gas, cooling / heating You can remote meter usage.

In addition, the display unit simultaneously displays a reading value for the power amount and any one of water, hot water, gas, and cooling / heating on one panel for each generation lake.

According to the characteristics of the present invention described above, the generation remote reading device according to the present invention, by sequentially reading the amount of power and water, hot water, gas, cooling / heating of several generations used for each generation on one display screen Can be displayed.

Hereinafter, with reference to the accompanying drawings will be described in detail the generation meter remote meter reading apparatus.

The generation remote reading device according to the present invention, referring to Figure 5, the meter reading unit (100 to 100n) for detecting a voltage signal proportional to the load voltage applied to the power supply line for each generation; A control unit (110) having an input / output separation circuit (120) for outputting power-converted values separately for each generation when the detected amount of power of each generation is input; A meter 190 for detecting meter reading signals applied to the water, hot water, gas, and cooling / heating supply lines of each generation and outputting pulse signals, respectively; A microprocessor (150) for comparing / determining and controlling the application of the pulse signal from the meter (190); When the control signal is output from the control unit 110 and the microprocessor 150, the power generation amount and the reading values of water, hot water, gas, and heating / heating, which are read for each generation, are sequentially displayed on one panel. And a display unit (LCD display unit) 140.

In addition, the microprocessor 150 enables recording of each generation lake on the panel of the display unit 140 through a routine for loading a program from a predetermined external medium into the main memory device, and the amount and power of each generation, Remote metering of hot water, gas and cooling / heating

In addition, when the user inputs any one of electric power and water, hot water, gas, and cooling / heating, the display unit 140 simultaneously displays the meter reading for each generation lake on one panel. It is formed integrally in the buried box 200 in which a circuit for reading the usage amount of hot water, gas, cooling / heating and the like is embedded.

In more detail, the meter reading units 100 to 100n detect the voltage signal proportional to the load voltage applied to the power supply line for each generation to read the amount of power used in each generation.

The controller 110 has a built-in power meter reading unit 125 to convert and integrate when the voltage signal sensed by the meter reading unit (100 to 100n) is applied.

In addition, the control unit 110 simultaneously measures the amount of power of several generations through the input / output separation circuit 120, and the power converted value is separated for each generation when inputting the detected amount of power of each generation to separate the output units 130 to 130n. Is output via

The amount of power applied from the output units 130 to 130n is digitally displayed on the panel of the display unit 140 by the control signal of the microprocessor 150.

The display unit 140 is integrally formed in a buried box in which a circuit for reading the above-described power amount is embedded and embedded in a wall surface.

The meter 190 detects a metering signal applied to the water, hot water, gas, and cooling / heating supply lines for each generation, and outputs a pulse signal according to the usage amount.

The microprocessor 150 discriminates a signal by an address value when inputting a signal of a different type from the meter 190, and determines the microprocessor 150 for water, hot water, gas, and cooling / heating for each generation of lakes on the display 140. The meter reading will be displayed.

The microprocessor 150 sets an address and inputs the generation number from the outside through the address setting and the external communication line 170 and the external count pulse output unit 180 for remote meter reading.

At this time, the lake number for each generation is recorded on the panel of the display unit 140 through a loader, which is a routine for loading a program from a predetermined external medium into the main memory device, and the amount and power of each generation used, Remote metering communication is available for hot water, gas and cooling / heating usage.

The above lake number is used as an address number on the remote meter reading system program, and the inputted information is stored in the EEP-ROM 160.

The user can select the meter of each meter according to the selection button, when the user selects any one of the amount of power and water, hot water, gas, cooling / heating and inputs the selection button on the display unit 140 Is displayed.

On the other hand, the remote meter reading device for the generation of the present invention, as shown in Figure 6, the circuit elements, such as a circuit board having a meter reading unit for the amount of power, water, gas, hot water, cooling / heating is accommodated and the flange 201 at the inlet edge A main cover 210 having a buried box 200, a window 211 to which the display unit 140 is attached and fixed to the inlet of the buried box 200, and a sub cover 220).

Inside the sub-cover 220, a terminal coupling part to which input terminals for each generation are connected is provided.

And the flange 201 is provided with a sealing portion 205, the cover member 230 for shielding the sealing portion for appearance is provided with a sliding opening and closing.

On the other hand, it is needless to say that the present invention is not limited to the above embodiments and can be practiced with many modifications without departing from the spirit and scope of the present application.

The present invention as described above, in addition to metering the amount of power of each generation, by detecting the pulse output from the water, hot water, gas, cooling / heating meter meter to display several generations of meter reading on one panel sequentially It becomes possible.

In addition, power, water, gas, hot water, and heating for each household, such as apartments, shopping malls, officetels, and public housings, are transferred to the home control unit (HCU), a remote meter reading generation device. The amount of usage is automatically metered for each household, and the billing and billing is automatically processed.

Claims (3)

A meter unit for detecting a voltage signal proportional to a load voltage applied to each generation power supply line; A control unit having an input / output separation circuit in which the power converted value is inputted separately for each generation when the detected amount of power of each generation is input; A meter that detects meter reading signals applied to the water, hot water, gas, and cooling / heating supply lines of each generation and outputs pulse signals, respectively; A microprocessor for comparing / determining and controlling the pulse signal when the pulse signal is applied from the meter, When the control signal is output from the control unit and the microprocessor includes a display unit for sequentially displaying the power consumption and the reading value of the water, hot water, gas, cooling / heating of the various generations for each generation on a single panel Generation generation remote metering device characterized in that. The method of claim 1, wherein the microprocessor makes it possible to record a lake for each generation on a panel of the display unit through a routine for loading a program from a predetermined external medium into the main memory device, and the amount and power of each generation used. Remote meter reading device for generations, characterized in that the remote use of hot water, gas, cooling / heating. According to claim 1 or claim 2, wherein the display unit when the user selects any one of the power amount, water, hot water, gas, cooling / heating, and displays the reading value for this sequentially on one panel for each generation lake Generation generation remote metering device, characterized in that.