KR101370384B1 - Power saving and overload prevention system - Google Patents

Abstract

According to the present invention, when a load is generated in the input current capacity, the hall sensor detects and controls the CPU to automatically cut off and transmit a signal to the outside, thereby preventing power consumption and preventing safety accidents. An overload protection device.
To this end, in the present invention, a power saving and overload protection device 1 is formed in the connection member 200 in which the outlet 100 is installed, and the power saving and overload protection device 1 is coupled to the connection member 200. 10), the first PCB 20 is formed inside the body 10 to detect and control the input power, the cover 30 is coupled to the upper body 10, and the cover 30 It is characterized in that it comprises a second PCB (40) which is grounded with the first PCB (20) on the inner surface of the) to transmit a signal controlled by the first PCB (20).

Description

Power saving and overload prevention system

The present invention relates to a power saving and overload protection device, and more particularly, when a load is generated in an input current capacity, a signal is generated by a hall sensor and controlled by a CPU to automatically cut off a current and transmit a signal to the outside. The present invention relates to a power saving and overload protection device that can prevent power consumption and prevent safety accidents.

Normally, power supplied to a home, a factory, or an office always has standby power between the connection lines from the power cut-off device to a power outlet that can be directly supplied with power when the power is not used.

Generally, there are two types of outlets. One is a landfill outlet that is embedded in the wall of a building when the building is constructed, and the landfill outlet has a limited number of plugs. It is divided into an outlet.

The outlets used in this way are used by plugging in products that require continuous power supply such as refrigerators, hot and cold water heaters, and facsimile in everyday life. Plug in the necessary products to use.

Therefore, in the case of products that do not require continuous power, unplug the product from the outlet when not in use to prevent unnecessary waste of power, the outlets are placed on the wall of the room or in an inconspicuous place If you want to remove the plug in order to cut off the power to the product not in use, there is a hassle to go to the position of the outlet and pull the plug.

Therefore, the user can use only the power switch of the product while the plug is plugged into the outlet, even for products that do not require continuous power due to inconvenience and hassle. Since it is continuously supplied to an unused product, there is a problem of wasting unnecessary power.

Therefore, the present invention has been made in order to solve the above problems, the object of the first is to detect the capacity of the power input is controlled by the CPU to automatically cut off the power when an overload occurs and send a signal to the outside In addition to saving money, it is possible to prevent overload, thus preventing safety accidents.

Second, the load capacity can be controlled by the CPU to send signals to the LED, buzzer, and receiver outputs, allowing the user to easily grasp the current power status, thereby maximizing product efficiency and ease of use.

Third, by forming a time setting section to adjust the operating time of the power saving and overload protection device it is possible to maximize the performance of the product and the user convenience.

Fourth, to provide a power saving and overload protection device to maximize the robustness and ease of use of the product by allowing the power saving and overload protection device to be easily and firmly mounted on the connection member to which the outlet is connected.

The present invention for achieving the above object is a power saving and overload protection device is formed in the connection member is installed outlet, the power saving and overload prevention device and the body coupled to the connection member, the power is formed inside the body is input And a cover coupled to the upper body and a second PCB grounded with the first PCB on the inner surface of the cover to transmit a controlled signal from the first PCB. It is done.

In addition, the first PCB is a switching mode power supply (SMPS) for converting the current supplied from the input unit, a Hall sensor for generating a signal according to the load capacity supplied from the outside, and the input electricity It is characterized in that it comprises a plurality of relays to be connected and output to the output unit.

In addition, the second PCB is electrically grounded with the first PCB and is characterized by consisting of a CPU for controlling the input and output by controlling the signal generated from the Hall sensor, and a signal transmitting unit for transmitting the control signal from the CPU to the outside To provide power saving and overload protection.

As described above, the present invention converts the power supplied to the input unit from the SMPS, generates a signal according to the load capacity in the hall sensor, controls the operation by controlling the signal from the CPU, and transmits the signal to the outside through the signal transmitter to overload the supplied capacity. Is automatically cut off when a signal is generated to minimize the consumption of electricity due to power savings, and there is an effect that can prevent safety accidents in advance because there is no overload.

In addition, the present invention has the effect of maximizing the robustness of the product and the efficiency of the product by ensuring that the power saving and overload protection device is firmly mounted to the connection member to which the outlet is connected by grounding the power cord and the power cord.

1 is an exploded perspective view showing a power saving and overload protection device according to the present invention.
Figure 2 is a perspective view showing a power saving and overload protection device according to the present invention.
Figure 3 is an exemplary view showing a first PCB of the power saving and overload protection device according to the present invention.
Figure 4 is an exemplary view showing a second PCB of the power saving and overload protection device according to the present invention.
5 is a flowchart of a power saving and overload protection device according to the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exploded perspective view showing a power saving and overload protection device according to the present invention, Figure 2 is a perspective view showing a power saving and overload protection device according to the present invention, Figure 3 is a first view of the power saving and overload protection device according to the present invention 1 is an exemplary view showing a PCB, Figure 4 is an exemplary view showing a second PCB of the power saving and overload protection device according to the invention, Figure 5 shows a flow chart of the power saving and overload protection device according to the present invention.

As shown in Figures 1 to 5, the present invention is a power saving and overload protection device (1) to automatically control the power by converting and controlling the power supply supplied from the outside, the power saving and overload protection device (1) is mounted to the connection member 200 to which the outlet 100 is connected.

The power saving and overload protection device 1 is a body 10 to be fitted to the connecting member 200, and is formed in the body 10 to convert the current supplied and generate a signal according to the load capacity A signal generated in the first PCB 20, the cover 30 coupled to the upper body 10, and the cover 30 formed inside the cover 30 and electrically grounded with the first PCB 20. It is configured to include a second PCB 40 to control the power to control the power and send a signal to the outside.

The body 10 is fitted to the connecting member 200 on the outer surface is formed with a projection piece 11 so that the body 10 is not separated from the connecting member 200.

In addition, the mounting groove 12 is formed on the upper surface of the body 10 so that the cover 30 can be coupled.

The first PCB 20 is connected to an outlet 100 and a power line 300, and is grounded by an input unit 21 for supplying power and a switching mode power supply for converting a current supplied from the input unit 21. A power supply unit 22, a hall sensor 23 that senses a current supplied from the input unit 21, and generates a signal according to a load capacity, and intercepts power supplied to the input unit 21 and outputs the output unit. A plurality of relays 24 to be output to (25).

The SMPS 22 converts an alternating current (AC) current supplied from the input unit 21 into a direct current (DC) current to meet the conditions of various electronic devices.

The hall sensor 23 generates an analog signal when the power capacity input from the input unit 21 generates a load, and when the load capacity of the power source is 7 W or more, a normal analog signal is transmitted.

The cover 30 is coupled to the mounting groove 12 of the body 10 in the lower portion is formed with a coupling piece 31 so that the cover 30 from the body 10 can be firmly mounted.

In addition, the cover 30 is formed with a signal display unit 32 through which the signal transmitted by the control by the second PCB 40 is transmitted to the outside.

The second PCB 40 is formed inside the cover 30 to control the signal transmitted from the first PCB 20 and to transmit the signal controlled by the CPU 41 to the outside. The signal sending section 42 is formed.

The signal transmitter 42 includes an LED display unit 42a for displaying a signal transmitted from the CPU 41 as an LED (not shown), a buzzer 42b for causing the signal of the CPU 41 to ring, and A reset button 42c for initializing the CPU 41 is formed.

In addition, the second PCB 40 is provided with a USB port 43 so that the remote control receiver 400 which checks and operates the transmission signal of the CPU 41 from the outside can be connected.

The remote control receiver 400 has a light emitting unit 401 is formed so as to check the signal transmitted from the CPU 41 from the outside, the operation button 402 is formed to initialize and operate the CPU 41 is formed Lose.

In the second PCB 40, a time setting unit 44 is formed so that the user can arbitrarily set the time at which the power saving and overload protection device 1 according to the present invention is operated.

In addition, the second PCB 40 is provided with an illuminance sensor 45 to detect an external brightness and send a signal to the CPU 41 so as to check the operation state of the power saving and overload protection device 1 according to the illuminance. Lose.

In addition, the second PCB 40 is provided with a human body sensor 46 to detect a heat or weight of the human body and send a signal to the CPU 41.

On the other hand, the power saving and overload protection device 1 according to the present invention is connected to the outlet 100 so that electrical, electronic products such as computers, fax machines, testers, and the like.

The operation state according to the present invention having the above-described configuration will be described below.

The outlet 100 is connected to the connection member 200, and the power saving and overload prevention device 1, which is electrically connected to the outlet 100, is mounted on the connection member 200.

At this time, the body 10 is mounted to the connecting member 200, but the body 10 coupled to the connecting member 200 is firmly coupled without being pulled out of the connecting member 200 by the protruding piece 11. Lose.

In addition, when the cover 30 is coupled to the upper portion of the body 10, the coupling piece 31 is inserted into the mounting groove 12 so that the cover 30 coupled to the body 10 does not easily fall out. do.

The power saving and overload protection device 1 is firmly mounted to the connection member 200 as described above, and when the current is supplied to the input unit 21, the SMPS (Switching Mode Power Supply) For example, 220V AC current is converted into 5V DC current.

In addition, the hall sensor 23 detects the current supplied to the input unit 21 to generate a signal according to the load capacity. When a signal is generated from the hall sensor 23, the signal is transmitted from the CPU 41. It controls the presence or absence of the power supply to cut off the power supply and sends a signal to the signal transmitter 42.

In this case, when the load capacity supplied from the input unit 21 is, for example, 25W or more, the hall sensor 23 may output a normal analog signal.

The signal transmitted from the CPU 41 is sent to the outside through the LED in the LED display unit 42a, the buzzer (42b) is a beep sound from the outside of the power saving and overload protection device 1 according to the present invention You can see the operating status.

In addition, when the power saving and overload protection device 1 of the present invention malfunctions or tries to initialize, the power saving and overload protection device 1 is reactivated by pressing the reset button 42c.

In addition, the user can arbitrarily set the operation time of the power saving and overload protection device 1 by the time setting unit 44 so that the user can control the CPU 41 while reducing unnecessary power waste while improving product efficiency. Can be increased.

On the other hand, the power saving and overload protection device 1 according to the present invention is connected to the remote control receiver 400 to the USB port 43 to prevent power saving and overload through the light emitting unit 401 of the remote receiver 400 from the outside The current state of the device 1 can be checked and the CPU 41 can be controlled through the operation button 402 of the remote control receiver 400 so that the power saving and overload protection device 1 of the remote control receiver 400 can be controlled. The operating status can be easily checked by the user from the outside.

In addition, since the illumination sensor 45 and the human body sensor 46 are formed in the second PCB 40, the illumination sensor 45 detects an external brightness and sends a signal to the CPU 41. It can transmit the signal according to the illuminance, and the human body sensor 46 detects heat or infrared rays of the human body and sends a signal to the CPU 41 to control the CPU 41 to send a signal. Will be.

Therefore, the power saving and overload protection device 1 of the present invention is firmly coupled to the connection member 200, and the second PCB 40 recognizes the load of the current supplied from the first PCB 20 to the input unit 21. When an overload occurs by controlling from the CPU 41, the power is cut off and the signal is transmitted to the outside through the signal transmitting unit 42 so that the user can easily determine whether the overload has occurred.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

1: Power saving and overload protection device 10: Body
11 protrusion 12: mounting groove
20: first PCB 21: input unit
22: SMPS 23: Hall sensor
24 relay 25 output unit
30: cover 31: bonding piece
32: signal display unit 40: second PCB
41: CPU 42: signal transmitter
42a: LED display 42b: Buzzer
42c: reset button 43: USB port
44: time setting section 45: illuminance sensor
46: human body detection sensor 100: outlet
200: connection member 300: power line
400: remote control receiver 401: light emitting unit
402: operation button

Claims (10)

Body 10 which is fitted to the connection member 200 to which the outlet 100 is connected;
A first PCB 20 formed inside the body 10 to convert a current supplied to the input unit 21 and generate a signal according to a load capacity;
A cover 30 coupled to the upper portion of the body 10;
A second PCB 40 formed inside the cover 30 and electrically grounded with the first PCB 20 to control a signal generated by the first PCB 20 to control power and transmit a signal to the outside; Formed, including
The body 10 is fitted to the connecting member 200 on the outer surface so that the body 10 is formed so that the protrusion 10 is not separated from the connecting member 200, the cover 30 is coupled to the top surface The mounting groove 12 is formed to be,
The lower portion of the cover 30 is coupled to the body 10 is formed with a coupling piece 31 so that the cover 30 from the body 10 can be mounted firmly without falling off,
The second PCB 40,
A CPU 41 formed inside the cover 30 and controlling the signal transmitted from the first PCB 20;
A signal transmitter 42 for transmitting the signal controlled by the CPU 41 to the outside is formed,
The signal transmitter 42 includes an LED display unit 42a for displaying the signal transmitted from the CPU 41 by an LED, a buzzer 42b for the signal transmitted from the CPU 41, and the CPU ( A reset button 42c for initializing 41 is formed.
The second PCB 40 is provided with a light emitting unit 401 to externally check the signal transmitted from the CPU 41 to check and operate the transmission signal of the CPU 41 from the outside and the CPU 41 Power saving and overload protection device, characterized in that the USB port 43 is formed to be connected to the remote control receiver 400 is formed so that the operation button (402) to initialize and operate. delete The method of claim 1,
The first PCB 20,
An input unit 21 connected to the outlet 100 and a power line 300 to supply power to the ground;
SMPS 22 for converting the AC current supplied from the input unit 21 into a direct current;
Hall sensor 23 for sensing the current supplied from the input unit 21 to generate a signal according to the load capacity;
Power saving and overload protection device, characterized in that formed of a plurality of relays (24) to interrupt the power supplied to the input unit 21 and output to the output unit (25). delete The method of claim 1,
The cover 30 is a power saving and overload protection device, characterized in that the signal display portion 32 is formed so that the signal transmitted by the control is transmitted from the second PCB (40) to the outside. delete delete delete The method of claim 1,
The second PCB (40), the power saving and overload protection device, characterized in that the time setting unit 44 is formed to set the operating time of the power saving and overload protection device (1). The method of claim 1,
The second PCB 40 is formed with an illumination sensor 45 to detect an external brightness and send a signal to the CPU 41 so as to check the operation state of the power saving and overload protection device 1 according to the illumination. Power saving and overload protection device, characterized in that the human body sensor 46 is formed so as to send a signal to the CPU (41) by sensing the heat or weight of the.

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