KR101135625B1 - Apparatus and method measuring amount of electricity used and informing replacement time of lighting - Google Patents

Abstract

PURPOSE: A device and a method for providing the watt hour measurement and replacement time of a lamp are provided to measure the watt hours of a lamp without separate construction and predict a replacement time. CONSTITUTION: A device(100) for providing the watt hour measurement and replacement time of a lamp comprises a sensor unit(110), a clock(120), an MCU(130), and a radio frequency transceiver(140). The sensor unit senses the brightness and temperature of a lamp. If the lamp is turned on, the MCU counts clock. The MCU measures the watt hours of the lamp based on the counted clock. The MCU predicts the replacement period of the lamp. The radio frequency transceiver transmits wireless packets.

Description

Apparatus And Method Measuring Amount of Electricity Used And Informing Replacement Time of Lighting}

The present invention relates to a method and apparatus for measuring the power consumption of the lighting and to inform the replacement time, and more particularly, to a device and method for measuring the power consumption of the lighting in the green home or base house and predict the replacement time. .

In general, a method of measuring the amount of current used by the lighting is remotely monitored using a separate switch incorporating a sensor with a wireless communication function and a sensor inside the light switch that is inserted into the wall, and is separated from the meter. One way is to measure the total amount of power consumed by home lighting in a lighting line.

In the existing case, the first method of using a separate light switch with a built-in wireless and sensor function has the disadvantage of requiring construction work because all the switches inserted into the wall need to be replaced. The disadvantage is that it is difficult to measure individual power consumption.

In addition, the method of measuring the indoor lighting in the meter's lighting line is an attempt to measure the total amount of power used by the entire lighting, there is a disadvantage that it is impossible to measure the individual power used by each light for each room (Room).

The present invention was created in view of the above-mentioned problems, and informs the measurement and replacement time of the power consumption of the light to measure and predict the power consumption and the replacement time of the light installed in the house or building using a sensor without complicated facility construction. It is an object of the present invention to provide an apparatus and method.

In order to achieve the above object, the device for notifying the power consumption measurement and replacement time of the lighting according to an aspect of the present invention includes a sensor unit for sensing the illumination and temperature of the lighting; And when the state of the illumination determined based on the sensed illuminance value and the temperature value is on, counts a clock to measure the power usage of the illumination based on the value counted by the clock, and detects the illuminance value and It includes a MCU for comparing the predetermined illumination intensity of the preset illumination to predict the replacement time of the illumination.

According to another aspect of the present invention, a method of notifying a power consumption measurement and a replacement time of a lighting includes: sensing an illumination intensity and a temperature of the lighting; Counting a clock and measuring a power consumption of the lighting based on a value counted by the clock when the state of the lighting determined on the basis of the sensed illuminance value and the temperature value is on; And comparing the sensed illuminance value with a preset replacement illuminance value of the illumination to predict the replacement time of the illumination.

According to the present invention, the electricity consumption monitoring (measurement) service for lighting provided only in high-tech houses or new houses can be provided in general houses and buildings by using a sensor without additional facility construction.

In particular, there is an advantage that can be predicted until the replacement of the lighting.

1 is a block diagram illustrating an apparatus for notifying measurement and replacement time of power usage of a light according to an embodiment of the present invention.
Figure 2 is a flow chart for explaining a method for notifying the power consumption measurement and replacement time of the lighting according to an embodiment of the present invention.

Advantages and features of the present invention and methods for achieving them will be apparent with reference to the embodiments described below in detail with the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. And is intended to enable a person skilled in the art to readily understand the scope of the invention, and the invention is defined by the claims. It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. It is noted that " comprises, " or "comprising," as used herein, means the presence or absence of one or more other components, steps, operations, and / Do not exclude the addition.

The present invention relates to a device that attaches the present invention in a ring shape to an illumination, in particular a fluorescent lamp, to measure the amount of electricity consumed by the fluorescent lamp and to predict the replacement time of the fluorescent lamp.

Hereinafter, with reference to Figure 1 will be described an apparatus for indicating the power consumption measurement and replacement time of the lighting according to an embodiment of the present invention. 1 is a block diagram illustrating an apparatus for notifying measurement and replacement time of power usage of lighting according to an embodiment of the present invention.

As shown in Figure 1, the device 100 for notifying the measurement and replacement time of the power consumption of the lighting is made of an open ring shape part of the ring when pulling both sides of the ring shape, the ring is opened like a clamp or clamp That is, it may be attached to the fluorescent lamp 200, it is made of a material (for example, heat-resistant rubber) that can prevent the ring shape is twisted or melted by the heat discharged from the fluorescent lamp 200.

The device 100 for notifying measurement and replacement time of the power consumption of the lighting includes a sensor unit (temperature / illumination, 110) located at both ends of the annular shape, a clock (oscillator, counter, 120), MCU inside the annular shape. (CPU) 130, RF transceiver 140, and antenna 150.

Sensor unit 110 includes a temperature sensor 111 and the illumination sensor 112, each sensor 111, 112 are located at both ends of the annular shape, to prevent friction or impact with the fluorescent lamp 200 To be wrapped in a soft material such as rubber.

The temperature sensor 111 senses the temperature of the fluorescent lamp 200, and the illuminance sensor 112 senses the illuminance of the fluorescent lamp 200.

The MCU 130 compares the illuminance value sensed by the illuminance sensor 112 and the illuminance value L1 preset to be in the on state of the fluorescent lamp 200, and if the sensed illuminance value is equal to or greater than the set illuminance value L1, This can be judged in two cases. For example, when the sensed illuminance value exceeds the set illuminance value L1, the MCU 130 may determine that the interior of the house or building is brightened by sunlight, and the fluorescent lamp 200 is turned on so that the house or building It can also be judged that the interior is bright.

As such, the MCU 130 may determine the case in which the illuminance value sensed by the illuminance sensor 112 exceeds the set illuminance value A as the above-described two kinds, and thus, the temperature sensor 111 may be determined to distinguish it. use. For example, when the fluorescent lamp 200 is turned on, the temperature of the fluorescent lamp 200 is increased by the heat emitted from the fluorescent lamp 200, so that the illuminance value sensed by the illuminance sensor 112 exceeds the set illuminance value L1. When the temperature value sensed by the temperature sensor 111 is equal to or greater than the temperature value T1 set as the fluorescent lamp 200 is in an on state, the MCU 130 determines that the fluorescent lamp 200 is in an on state.

When it is determined that the fluorescent lamp 200 is in the ON state, the MCU 130 causes the clock 120 to start counting, and the time that the fluorescent lamp 200 remains in the ON state by the value counted by the clock 120. Calculate

When the fluorescent lamp 200 is turned off, the illuminance value sensed by the illuminance sensor 112 becomes equal to or less than the illuminance value L2 set as the fluorescent lamp 200 is turned off and is sensed by the temperature sensor 111. Since the temperature value also falls below the temperature value T2 set as the fluorescent lamp 200 is in the off state, the MCU 130 is in this state, that is, when the illuminance and the temperature are below the preset illuminance L2 and the temperature T2. It is determined that the fluorescent lamp 200 is off.

When the fluorescent lamp 200 is in an on state, the temperature value is increased by the temperature sensor 111 above the set temperature value T1 from the moment when the illuminance value is sensed by the illuminance sensor 112 above the set illuminance value L1. Delay occurs until the moment of sensing, which is compensated for this time when the fluorescent lamp 200 is off, even if the illuminance value sensed by the illuminance sensor 112 changes abruptly. The temperature value sensed by the sensor may take time until it falls below the set temperature value T2, that is, until the temperature of the fluorescent lamp 200 decreases, and thus may be canceled.

Therefore, according to the above criteria considering temperature and illuminance even when the illuminance L1 and illuminance L2 and the temperature T1 and the temperature T2 are set to be the same without considering a delay phenomenon, the time when the fluorescent lamp is turned on is a confidence range. You can get it from

In addition, in consideration of the delay time, it is possible to determine the time when the fluorescent lamp is turned on more accurately. For example, after extracting a time interval that rises to a predetermined temperature (T1) after the fluorescent lamp is turned on, after obtaining the fluorescent lamp temperature when the same time interval has elapsed after the fluorescent lamp is turned off, it is set to the temperature (T2) and then the above criteria is applied. In this way, the time for which the fluorescent lamp is turned on more accurately can be calculated.

In this case, the temperature T1 will be lower than the temperature T2 since the fluorescent lamp is turned on and will be higher than the rate at which the temperature rises and then descends.

On the other hand, the fluorescent lamp 200 is characterized in that both parts turn black at the time of the end of life, the ring-shaped present invention is installed in one of both ends of the fluorescent lamp 200, the fluorescent lamp 200 through the illumination sensor 111 By sensing the illuminance where the black color changes, the replacement time of the fluorescent lamp 200 may be predicted in advance to support the replacement service.

For example, the fluorescent lamp 200 is based on the temperature value sensed by the temperature sensor 111 is greater than or equal to the set temperature value T1 and the illuminance value sensed by the illuminance sensor 112 is equal to or greater than the set illuminance value L1. When it is determined to be in the on state, the MCU 130 compares the illuminance value sensed by the illuminance sensor 112 with a reference value R that is set at both ends of the fluorescent lamp 200 to begin to turn black and is sensed. When it is less than or equal to the set reference value R, it is started to predict the replacement time of the fluorescent lamp (200).

That is, the MCU 130 compares the illuminance value sensed to predict the replacement time of the fluorescent lamp 200 with the replacement illuminance value C set to be the replacement time of the fluorescent lamp, and thus the replacement illuminance value C in which the sensed illuminance value is set. The replacement time of the fluorescent lamp 200 may be predicted according to the degree close to, and the replacement guide service may be supported based on the predicted result. Here, the reference value R is greater than the replacement illuminance value C, and the MCU 130 predicts that it is time to replace the fluorescent lamp 200 when the sensed illuminance value approaches the replacement illuminance value C.

By setting a baseline value (R) to predict replacement time in two stages, both preliminary guidance on replacement time and post-mortem guidance after replacement will be possible, such that replacement time is in the next few days. .

For example, if the illuminance value at the point of time to be replaced within a predetermined time (for example, one week) is set to the reference value R, and the illuminance value at the point of time to be replaced is set to the replacement illuminance value C, When the illuminance is below the reference value (R), the replacement schedule will be guided so that a replacement fluorescent lamp can be prepared in advance, and when the sensed illuminance value falls below the replacement illuminance value (C), the replacement necessary guidance can be provided. will be.

As another embodiment, without replacing the reference value R, the preset replacement illuminance value C and the fluorescent illuminator are compared, and the sensed illuminance value may be compared to determine a replacement time.

Alternatively, the illumination change table according to the lifetime of the fluorescent lamp or the formula of the lifetime and the illumination change can be prepared in advance so that the replacement time can be continuously predicted from the illuminance sensed in the on state and guided when the replacement is scheduled. It may be.

As described above, the present invention determines whether the fluorescent lamp 200 is on / off, and if it is on, measures the power usage, predicts the time of replacement, and puts the measured result and the predicted result into the wireless packet to the RF transceiver 140 and the antenna. Through 150 can be transmitted by wireless communication, through which the fluorescent lamp 200 can be monitored remotely. That is, according to the present invention, the electricity consumption monitoring (measurement) service for lighting provided only in high-tech houses or new houses can be provided in general houses and buildings by using a sensor without additional facility construction, and in particular, when the lighting is replaced. Can be predicted.

In addition, the present invention has been described as an example in which one fluorescent lamp is installed, but the present invention is not limited thereto, and two or four fluorescent lamps may be installed in one lighting set. In this case, the present invention may include two or four fluorescent lamps. It is possible to measure the amount of power consumed by measuring one set of lights by the related multiple calculations by installing them in one and setting the number without installing each fluorescent lamp.

In the above, the apparatus for notifying the measurement and replacement time of the power consumption of the lighting according to an embodiment of the present invention has been described with reference to FIG. 1, and hereinafter, the power consumption of the lighting according to an embodiment of the present invention is described with reference to FIG. Explain how to tell measurement and when to replace. 2 is a flowchart illustrating a method of notifying measurement and replacement time of power usage of lighting according to an embodiment of the present invention.

As shown in FIG. 2, illumination, that is, illumination and temperature of the fluorescent lamp 200 are sensed (S200). For example, the illuminance of the fluorescent lamp 200 is sensed through the illuminance sensor 112, and the temperature of the fluorescent lamp 200 is sensed through the temperature sensor 111.

Based on the sensed illuminance value and the temperature value, it is determined whether the lighting state is on (S210). For example, the illuminance value sensed by the illuminance sensor 112 exceeds the illuminance value L1 set as the fluorescent lamp 200 is in an on state, and the temperature value sensed by the temperature sensor 111 is determined by the fluorescent lamp 200. If the temperature value T1 is set to be in the on state or more, it is determined that the fluorescent lamp 200 is in the on state.

As a result of determination, when it is determined that the fluorescent lamp 200 is in the on state, the clock 120 starts to count and calculates the time for which the fluorescent lamp 200 remains in the on state by the value counted by the clock 120. And, the power consumption of the fluorescent lamp 200 is measured by the calculated time (S220).

When the illuminance value sensed by the illuminance sensor 112 and the reference value R set as both ends of the fluorescent lamp 200 start to turn black are compared and the sensed illuminance value is less than or equal to the set reference value R, the fluorescent lamp 200 ) To start predicting when to replace. That is, by comparing the sensed illuminance value and the replacement illuminance value (C) set to be the replacement time of the fluorescent lamp to predict the replacement time of the fluorescent lamp 200 according to the degree to which the sensed illuminance value is close to the set replacement illuminance value (C). The replacement time of the fluorescent lamp 200 is predicted (S230).

Here, the reference value R is greater than the replacement illuminance value C, and when the sensed illuminance value is as close as possible to the replacement illuminance value C, it is predicted that it is time to replace the fluorescent lamp 200.

As described above, it is determined whether the fluorescent lamp 200 is on / off state, the power consumption is measured in the on state, and predicted when the replacement, RF transceiver 140 by putting the measured result and the predicted result in a wireless packet And by transmitting to the wireless communication through the antenna 150 (S240), so that the fluorescent lamp 200 can be monitored remotely.

Although the configuration of the present invention has been described in detail with reference to the preferred embodiments and the accompanying drawings, this is only an example, and various modifications are possible within the scope without departing from the spirit of the present invention. Therefore, the scope of the present invention should not be limited by the illustrated embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

110: sensor 111: temperature sensor
112: illuminance sensor 120: clock
130: MCU 140: RF Transceiver
150: antenna

Claims (8)

Sensor unit for sensing the illumination and temperature of the illumination; And
When the state of the illumination determined based on the sensed illuminance value and the temperature value is on, a clock is counted to measure the power consumption of the illumination based on the value counted by the clock, and the sensed illuminance value and the MCU for predicting the replacement time of the light by comparing the set replacement illuminance value of the light
Device that informs the time of measurement and replacement of the power usage of the lighting comprising a. The method of claim 1,
Further comprising an RF transceiver for transmitting a wireless packet,
Transmitting at least one of the measured power usage and predicted results via the RF transceiver to remotely monitor the lighting;
Device that tells the measurement of power usage and replacement time of the lighting. The method of claim 1,
The MCU calculates the time for which the illumination stays in the on state using the counted value, and measures the power consumption of the illumination with the calculated time, and when the sensed illuminance value is less than or equal to a set reference value, Starting a prediction of the replacement time, and predicting the replacement time of the lighting according to the degree to which the sensed illuminance value approaches the replacement illuminance value.
Device that tells the measurement of power usage and replacement time of the lighting. The method of claim 1,
When the ring is made to be pulled on both sides of the ring shape, the ring is opened and attached to the illumination,
The sensor unit includes a temperature sensor and an illuminance sensor,
The temperature sensor and the illuminance sensor are located at both ends of the annular shape, and are wrapped in a specific material to prevent friction or impact with the illumination.
Device that tells the measurement of power usage and replacement time of the lighting. Sensing the illuminance and temperature of the illumination;
Counting a clock and measuring power consumption of the lighting based on a value counted by the clock when the state of the lighting determined based on the sensed illuminance value and the temperature value is on; And
Predicting a replacement time of the light by comparing the sensed illuminance value with a preset replacement illuminance value of the light;
How to tell when the power usage measurement and replacement of the lighting, including. The method of claim 5,
Transmitting at least one of the measured power usage and the predicted result to wireless communication so as to monitor the illumination remotely
Method of notifying when to replace the power consumption of the lighting further includes a light. The method of claim 5, wherein the measuring step,
Calculating a time for which the illumination remains in the on state using the counted value; And
Measuring the power usage of the illumination with the calculated time
How to tell when to measure and replace the power usage of the lighting. The method of claim 5, wherein the predicting comprises:
Starting a prediction about a replacement time of the illumination when the sensed illuminance value is less than or equal to a set reference value; And
Predicting a replacement point of the illumination according to a degree to which the sensed illuminance value is close to the replacement illuminance value;
How to tell when to measure and replace the power usage of the lighting.

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