KR101010807B1 - A power control method for lighting - Google Patents

Abstract

The present invention relates to a lighting power saving control device and method, and more particularly, to reduce the lighting power in the unmanned electric room, machine room, pump room and underground waterway where the employee does not work, and is always lit due to the nature of the steel mill power energy The present invention relates to a lighting power saving control device and method for constructing a system for automatically turning on and off only necessary lights by improving waste.

In order to achieve the above object, the present invention provides a lighting power saving control device comprising: an RF transmission unit carried by the worker to recognize that the operator is present in the work space; An RF receiver for receiving an RF signal transmitted from the RF transmitter; An RF signal sensor for recognizing the RF signal; An illumination control unit recognizing the presence of an operator by the RF signal sensor and lighting a light when the operator is present; And a storage unit for storing a transmission algorithm and a reception algorithm configured to be able to respond only to a signal received from a corresponding transmitter without reacting to disturbances around the same frequency. It includes.

Energy Saving, Wireless, Auto Lighting, Culvert, Electric Room, Machine Room, Pump Room

Description

A power control method for lighting

The present invention relates to a lighting power saving control device and method, and more particularly, to reduce the lighting power in the unmanned electric room, machine room, pump room and underground waterway where the employee does not work, and is always lit due to the nature of the steel mill power energy The present invention relates to a lighting power saving control device and method for constructing a system for automatically turning on and off only necessary lights by improving waste.

In general, it is to reduce the lighting power in the unmanned electrical room, machine room, pump room and underground culvert where the employee does not work, the lighting is always on due to the nature of the steel mill is a waste of power energy.

In addition, in the prior art, a switch for manually turning on and off the lighting is installed, but it is not used in most electric rooms, and it is a wasteful factor except when the worker performs maintenance work on the electric room and the underground culvert section.

FIG. 1A is a view illustrating a conventional lighting configuration, a point, and a lighting method, and FIG. 1B is a diagram illustrating an automatic point and a lighting method including a human body sensor.

As shown in FIGS. 1A and 1B, the operator moves the power supply to a specific position (position with a power switch) for turning off the light and turning off the light in the case of the manual switch type power point and the extinguishing method (FIG. 1A method). Points, problems that need to be turned off and unnecessary power is turned on, so that the energy loss generated can not be avoided.

Of course, there may be a grouping method for each work area, but there is a problem that it should be subdivided into minimum units to save energy, and the number of switches to be manually operated accordingly increases, and the worker grasps the position of the light switch according to the work position in advance. The problem is that it must be done.

Next, in the conventional method of FIG. 1B, the energy saving effect may be obtained by lighting only a light corresponding to a working range detected by a person using a light with a human body sensor attached thereto, but in the case of a human body sensor As a sensor for detecting movement, there is a problem that the power is turned off when there is no movement regardless of the presence or absence of an operator.

In addition, there is a serious safety problem that the power is turned off without recognizing when the operator works behind or inside the panel, there is a problem to apply to lighting such as unmanned electric room and underground culvert that priority safety.

In order to solve the problems described above, the object of the present invention is to maximize the energy savings by lighting only necessary lights when the worker is in the working space, and using the radio frequency to detect even if the worker is not directly exposed to the sensor during lighting It is an object of the present invention to provide a lighting power saving control device and method that can be safely carried out by eliminating this extinguished unsafe factor.

In order to solve the problems as described above, the present invention provides a lighting power saving control device, the operator to carry the RF transmitter 100 to recognize that the operator is present in the work space; An RF receiver 200 for receiving an RF signal transmitted from the RF transmitter; An RF signal sensor 500 for recognizing the RF signal; An illumination control unit 300 for recognizing the presence of the worker by the RF signal detecting sensor and lighting a light when the worker is present; And a storage unit 400 configured to store a transmission algorithm and a reception algorithm configured to respond only to a signal received from a corresponding transmitter without reacting to disturbances around the same frequency. Characterized in that it comprises a.

In addition, the present invention provides a lighting power saving control method, comprising: (a) a lighting control unit receiving an RF signal; (b) the lighting controller determining whether the input RF signal is a set working radius; (c) the lighting controller performing a transmission algorithm of an RF transmitter; And (d) the lighting controller performing a reception algorithm of the RF receiver. Characterized in that it comprises a.

According to the present invention, the lights that have been constantly turned on (for 24 hours) for the safety of the worker automatically detects the place where the worker is moving or the working place by lighting only the working period during the work, the energy generated in the lighting There is an effect that can significantly reduce the loss.

In addition, the present invention, by eliminating the existing light point, the switch off, there is an effect that can contribute to the improvement of work efficiency by reducing the copper wire of the worker moving for the light point, lights out as much as possible.

Hereinafter, a lighting power saving control device and method will be described in detail with reference to the accompanying drawings.

2 is a view showing a lighting power saving control apparatus according to the present invention, Figure 3 is a view showing the internal configuration of the lighting power saving control apparatus according to the present invention, Figure 4 is a radio frequency configured by the present invention (Radio Frequency) A diagram showing a signal transmission circuit diagram.

As shown in FIG. 2 and FIG. 3, the present invention provides an RF transmitter (Radio Frequency transmitter) carried by the operator to recognize that the operator is present in the work space, and inputs an RF signal transmitted from the RF transmitter. Receiving RF receiver 200, the RF signal sensor 500 to recognize the RF signal according to the RF signal, the lighting control unit 300 to recognize the presence of the operator by the RF signal detection sensor and turns on the light when the presence of the worker ), A storage algorithm 400 is configured to store a transmission algorithm and a reception algorithm configured to respond only to a signal received from a corresponding transmission unit without responding to disturbances of the same frequency around.

The RF transmitter 100 is manufactured to be as small as possible and is carried in the operator's upper pocket and enters the work space, using the switch unit 2 of FIG. 4 which is a selection switch of the RF transmitter possessed by the worker according to the working range. To adjust the working radius (eg 5m, 10m, 15m, etc.).

First, the configuration of the RF transmitter 100 to be carried by an operator includes a power supply unit 1 for supplying power to a circuit, a resistor unit 3 for setting a work radius, a selection switch 2 for adjusting a work radius, It consists of an MPU (CPU) chip for implementing an internal algorithm, an FSK modular 5 and a transmitting antenna 6 configured to convert the generated digital signal into an RF signal for wireless transmission. When the working radius selection switch 2 is set accordingly, the operation radius selection switch 2 is set according to the RF (Radio Frequency) signal generation flowchart of FIG. 4.

5 is a flowchart illustrating a lighting power saving control method according to the present invention.

As shown in FIG. 5, first, an RF signal is input (S101).

Next, a step of determining whether the input RF signal is a set working radius is performed (S103).

In step S103, when entering the working radius set by the operator (recognized by the operator's "RF transmitter"), it is detected through the antenna 17 and the RF signal is converted into a digital signal by the FSK demodulator.

Next, the lighting controller performs a transmission algorithm of the RF transmitter (S110).

The transmission algorithm in step S110 will be described in detail with reference to FIG. 6.

Next, the lighting control unit performs a reception algorithm of the RF receiver (S120).

The reception algorithm of step S120 will be described in detail with reference to FIG. 8.

The above steps are repeated in an endless loop so that the lights are turned off during operation even if the operator is present in the work space and is not directly exposed to the sensor.

6 is a flowchart expressing the function of the RF transmitter according to the present invention with an algorithm.

As shown in FIG. 6, the MPU (CPU) 4 first initializes the Tx signal (S111), receives a DI input according to the information selected by the selected switch 2 (S112), and sets the RF signal level to Tx. Output to (S113)

Next, in order to initialize the FSK modular 5, a "I" signal is transmitted to Tx (S114), and an arbitrary digital signal "A" is output to Tx to maintain the consistency of transmission and reception information (S115). After outputting any digital signal "B" to Tx again (S116), and finally outputting "A | B" signal to Tx for error debugging (S117), after 100ms delay By repeating the infinite loop to receive the DI input again, to inform the receiver that the operator is present in the workspace (S118).

The arbitrary digital signal is introduced by the RF receiver to recognize the RF signal from the RF transmitter and to eliminate an error that may be caused by a simple RF signal. If a higher degree of realization is desired, the digital signal may be increased. The method can be applied.

7 is an RF receiver and lighting circuit diagram constructed according to the present invention.

As shown in FIG. 7, the RF receiver and the lighting circuit include an antenna 17 for receiving a radio frequency signal, a module FSK demodulator 18 for converting a radio frequency signal into a digital signal, and an MPU for implementing a received signal processing algorithm. 19), DC power supply (SMPS) 21 for supplying power to the receiver and the detected signal are transmitted to the power point and the extinguishing relay 22 to ensure insulation between the power side and the signal side when the power is off. Consists of a photo coupler 20 for, the description of the detailed operation is as follows.

First, when the operator enters the set working radius (recognized from the operator's own "RF transmitter"), it is detected via the antenna 17 and the Radio Frequency signal is converted into a digital signal by the FSK Demodulator.

If the "A", "B", and "A | B" transmitted from the RF transmitter converted to the digital signal are correctly interpreted by the algorithm in the MPU, first, the Rx of the MPU 19 input unit is initialized with a structure that recognizes the operator. The input signal is stored in the MPU internal data array data [N].

When the number of data received and the number of data transmitted are repeated (in this case, repeated three times, since data is "A", "B", "A | B"), if all transmission signals are received, Illumination Point, Light Off Algorithm FIG. 9 determines whether to turn on or off the signal output.

FIG. 8 is a diagram illustrating an algorithm implemented to receive a signal transmitted to an RF transmitter from a RF receiver of the present invention without loss, and FIG. 9 analyzes a signal received from an RF receiver of the present invention to turn on and off a light. It is a figure which shows the algorithm which outputs the signal to make.

As shown in FIG. 8 and FIG. 9, the detailed action is to first initialize Rx, check whether the transmission data "A", "B" and "A | B" are sequentially received, and if "Do" is correct, It outputs 0 "and turns on the lamp by turning on the light point and the lights out relay, and if it does not match (when the worker does not exist in the work space), it outputs 1 to Do again to turn off the light.

In summary, the RF transmitter possessed by the operator converts arbitrary digital signals ("A", "B") and Error Debugging signals ("A | B") to Radio Frequency and outputs them all the time, and the RF receiver receives the received Radio Frequency. If the signal is converted to a digital signal, and then converted to the digital signals "A", "B" and "A | B" and matched, the operator recognizes that it is within the working radius and performs an operation to turn on the power and does not match. In this case, the present invention achieves the object of the present invention by performing an unlit operation.

The present invention described above is not limited to the above-described detailed description of the invention and the accompanying drawings, and those skilled in the art can be variously modified without departing from the spirit and scope of the present invention described in the claims below. Modifications and variations are also included within the scope of the invention.

1A is a diagram of a conventional lighting arrangement, a point, and a lighting method.

Figure 1b is a diagram representing the automatic dot, the lights out scheme including a human body detection sensor.

2 is a view showing a lighting power saving control apparatus according to the present invention.

3 is a view showing the internal configuration of the lighting power saving control apparatus according to the present invention.

4 is a diagram illustrating a radio frequency signal transmission circuit constructed according to the present invention.

5 is a flowchart representing the function of the RF transmitter according to the present invention with an algorithm.

6 is an RF receiver and lighting circuit diagram constructed in accordance with the present invention.

7 illustrates an algorithm implemented for receiving a signal transmitted to an RF transmitter from an RF receiver of the present invention.

FIG. 8 is a diagram illustrating an algorithm for outputting a signal for turning on and off a light by analyzing a signal received during configuration of an RF receiver of the present invention. FIG.

<Explanation of symbols for the main parts of the drawings>

100: RF transmitter 200: RF receiver

300: lighting control unit 400: storage unit

500: RF signal detection sensor

Claims (6)

delete delete delete In the lighting power saving control method, (A) step of the lighting control unit receives the RF signal (S101); (b) the lighting controller determining whether the input RF signal is a set working radius (S103); (c) if the input RF signal is within a set working radius, the lighting controller performing a transmission algorithm of an RF transmitter (S110); And (d) performing, by the lighting controller, a reception algorithm of the RF receiver (S120); Including, The transmission algorithm of step (c), (c-1) initializing the Tx signal in the MPU (CPU) (S111); (c-2) receiving a DI input according to the information selected by the selected switch (S112); (c-3) outputting an RF signal level to Tx (S113); (c-4) transmitting an "I" signal to Tx to initialize the FSK modular (S114); (c-5) outputting an arbitrary digital signal " A " to Tx to maintain consistency of transmission and reception information (S115); (c-6) outputting any digital signal " B " back to Tx to improve the degree (S116); (c-7) finally outputting an "A | B" signal to Tx for error debugging (S117); And (c-8) repeating the infinite loop of receiving DI input again after a 100 ms delay in communication waiting time to inform the RF receiver (S118); Receiving algorithm of step (d), Check if the transmission data "A", "B" and "A | B" are received in sequence, and if it is correct, output "0" to Do to activate the light point and the extinguishing relay to turn on the light. If (worker does not exist in the work space) output power to 1 again to turn off the lights to control the lighting power saving control. delete delete

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