KR100662229B1 - Electronic circuit breaker with magnetic mechanism - Google Patents

Abstract

The circuit breaker is characterized by replacing the conventional mechanical means by magnetic means, the magnetic device is connected to the silver contacts in the breaker when the current flows stably by using a solenoid and a permanent magnet When the circuit is short-circuited, the magnetic field is generated by the increase of the current, and the silver contact in the breaker is separated by the magnetic force, and the current is cut off.

By such a configuration, the electric circuit breaker is smaller than the conventional size, can increase the stability of the operation, it is possible to remote operation using the telephone.

Solenoid, permanent magnet, magnetic field, remote telephone operation system

Description

Electronic circuit breaker with magnetic mechanism

1 is a cross-sectional view showing the operating principle of the magnetic device of the circuit breaker according to the present invention.

Figure 2 is a front view showing the structure of the magnetic device of the circuit breaker according to the present invention.

3 is a cross-sectional view of the electric circuit breaker showing the operating principle of the electric circuit breaker according to the present invention.

4 is a front view showing the structure of the magnetic device and the copper core of the electric circuit breaker according to the present invention.

5 is a circuit diagram of a current regulator according to the present invention.

6 is a working view of the operating principle of the current regulator according to the present invention.

7 is a perspective view of a current regulator according to the present invention.

8 is a flowchart of a remote telephone control system according to the present invention.

9 is an explanatory diagram showing a connection between an electric device and a remote telephone control system.

10A is a front view of the present invention, and FIG. 10B is a side view of the present invention.

The present invention relates to an electrical circuit breaker comprising a magnetic device, and more particularly, has a magnetic structure and a current control means and can cut off the current in the case of a short circuit, and to configure a telephone set, voice An electrical circuit breaker that can be operated with a system, keyboard, and software program.

Conventional circuit breakers generally use mechanical means such as levers, conduction means and thermostats to automatically cut off the current in the event of a problem such as overload, short circuit or short circuit. After the problem is eliminated, the button must be moved manually to close the circuit of the breaker again. However, mechanical means occupy a relatively large space because the size of the circuit breaker can not be reduced, thereby increasing the manufacturing cost, and also fail to provide stable operation and frequent failure. And if the operation fails, the circuit breaker is not automatically restored, and it is inconvenient to use because the operator has to operate the circuit breaker manually. Also, circuit breakers cannot be used for remote control and monitoring operations.

The present invention is to reduce the size of the circuit breaker by using a magnetic means and to automatically recover when problems such as short circuits and short circuits are solved.

Hereinafter, described in detail with reference to the accompanying drawings.                     

1 and 2 show the operation principle and structure of the magnetic means of the electric circuit breaker according to the present invention, respectively. As shown, the electrical circuit breaker according to the present invention mainly includes a coating (3), a button (1) located on the coating (3), a movable axle (2) having an upper end fixed to the button (1). A recovery spring (39) installed on the movable shaft, a movable copper plate (4) placed on the cover and having an upper surface connected to a lower end of the movable shaft (2), both bottoms of the movable copper plate (4) Two movable silver contacts (9) provided at the center, a movable iron (6) located at the center of the bottom of the movable copper plate (4), and located in the coating (3), respectively; Two fixed silver contacts (5) located below the movable silver contacts (9) and connected to the power supply via two flexible copper wires (8), a magnetic device (7) located in the center of the interior of the coating (3). It includes. The magnetic device 7 includes two iron pole plates 71, a reel 72 placed on one of the iron pole plates 71, and a permanent magnet placed between the two iron pole plates 71. 73, a solenoid 74 installed on the reel (72). The current flow of the solenoid 74 is controlled by the CPU circuit board 10.

When no current flows in the solenoid 74, the permanent magnet 7 does not attract the movable iron bundle 6 because the permanent magnet 7 is too far from the movable iron bundle 6. Therefore, the movable shaft 2 is stationary, the button 1 does not move downward, and the movable silver contact 9 does not contact the fixed silver contact 5. Thus, the circuit breaker is not connected to the power source so it will not work. When solenoid 74 is instructed by the CPU to close the circuit, solenoid 74 will be connected to a power source and iron plate 71 will be magnetized. Therefore, it will pull the movable iron bundle in the movable copper plate 4 downward and pull the movable shaft 2 to press the spring 39. As a result, the movable silver contact 9 will come into contact with the fixed silver contact 5, whereby the electrical circuit breaker and the power source will be connected to enable the circuit breaker to operate. In addition, the CPU will send an instruction to open the circuit of the solenoid 74 so that the iron plate 71 loses its magnetism and is separated from the movable iron bundle 6 by cutting off the power supplied to the solenoid 74. However, the movable iron bundle 6 will be attracted to the permanent magnet 73 because the movable iron bundle 6 has been moved down to approach the permanent magnet 73. The movable silver contact 9 will therefore remain in contact with the fixed silver contact 5 so that the circuit breaker will continue to operate. When the circuit breaker is overloaded or short-circuited, the CPU instructs the solenoid 74 to connect in the opposite direction, so the iron plate 71 will have the opposite polarity and the attraction from the permanent magnet 73 will be offset. Therefore, the movable iron bundle 6 will no longer be dragged down but will press the movable shaft 2, the movable copper plate 4 and the movable iron bundle 6 upward by the elasticity of the spring 39. The movable silver contact 9 will thus be separated from the fixed silver contact 5. This will disconnect the circuit breaker from the power supply.

According to the present invention, it can be seen that it is possible to remotely operate the electric circuit breaker by sending a signal to the CPU using a means such as a telephone.

3 and 4 show the operation principle of the electric circuit breaker including the magnetic device and the structure of the magnetic device, respectively. As shown, the circuit breaker is turned off, the movable copper plate 4 is located above and the movable silver contact 9 is separated from the fixed silver contact 5. Thus, the circuit from the first electrode 24, the fixed silver contact 5, the movable silver contact 9, the primary circuitry conductive wire 16 to the second electrode 23 is cut off and the circuit breaker And power are not connected.

In order for the circuit breaker to be in the normal state, the catch 17 must be pressed down until the groove 20 of the catch 17 engages with the engagement structure 12. In the meantime, the engagement structure 12 is pressed by the spring 13 to engage the groove 20. The engagement structure 12 is connected to the end of the rotating lever 11 which is adapted to operate about an axis in the circuit breaker. When the lever 11 rotates clockwise, the movable magnet 14 will move to the position indicated by the dotted line and the movable magnet 14 and the stationary magnet 15 will be separated. And the handle 21 rotates counterclockwise to press the main body 19. This causes the movable copper plate 4 to move downward and the two movable silver contacts 9 come into contact with the two fixed silver contacts 5. Therefore, the first electrode 24, the copper wire 22, the fixed silver contact 5, the movable silver contact 9, the main circuit line 16, the second electrode 23 are connected and the circuit breaker and the power supply are connected. . In the meantime, the permanent magnet in the magnetic device 7 attracts the movable iron bundle 6 so that the movable silver contact 9 comes into contact with the fixed silver contact 5. The copper wire 22 will generate a certain amount of magnetic field when the circuit breaker operates normally. By experimentation, it is possible to calculate how much of the circuit can produce a negligible amount of magnetic field in the copper wire when it is wound up. In the normal state, the magnetic field generated from the main circuit conductive line 16 has no influence on the movable magnet 14. When the main circuit is shorted, a large amount of current flows in the circuit, and a lot of magnetic fields are generated in the copper wire 22, the iron plate between the permanent magnets 73, and the moving iron bundle 6. As a result, an opposite force is generated to cancel the attraction force from the permanent magnet 73 to the movable iron bundle 6. The body 19 is springed up by a spring. Thus, the movable silver contact 9 is separated from the fixed silver contact 5 and the main circuit is cut off. Since the main circuit conductive line 16 generates a large amount of magnetic field when a short circuit occurs, the movable silver contact 9 may contact the fixed silver contact 5. In this case, the lever 11 rotates clockwise. The engagement structure connected to the other end of the lever 11 retracts from the groove 20 of the clamp 17 and the spring 18 causes the clamp 17 to spring upwards so that the connection to the power source is lost.

5 and 6 show a circuit diagram and a working diagram of an electric circuit breaker including a magnetic device according to the present invention. As shown, current sensor 25 will pass the collected signal to electrical circuit 26 for shape amplification, adjustment and sampling, preamplification, and power amplification and then forward to separator 27. The output of the waveform rectified from the current sensor 25 will be delivered to individual portions of the electrical circuit 26.

7 shows the installation of an electrical circuit breaker comprising a magnetic device using a current controller according to the invention. As shown, the substrate of the electrical circuit 26 and the current detector 25 are placed in the same shield and the current regulation block 28 is used to adjust the sensed overload current value.                     

Under normal operation the current is not overloaded. However, when the current is overloaded, the current detector 25 detects the overload current from the wire passing through the main circuit line passing through the hole 29. The signal is then sent to an electrical circuit 26 for shaping and amplifying, adjusting and sampling, pre-amplifying, power amplifying and separating the separator. 27). Separator 27 cuts off the current in the circuit to prevent damage to the electrical device.

Many of the inventions are designed to reduce the occurrence of various types of failures, including overloads and short circuits in circuit breakers in operation.

3, 8, 9, 10A, and 10B show the structure, flowchart, schematic, front view, and side view of the present invention. As shown, the remote telephone control system includes circuit breaker 34, input line 31 of telephone set 30, voice system and keyboard 37, telephone control module 33, display 38 It is composed of, and can be used to control the electrical device (36). The input line of the telephone set 30 is connected to the telephone control module 33, the voice system and the keyboard 37, the display 38, and the output line of the telephone set 30 adjusts the solenoid 74. It is connected to the CPU circuit board 10 of (34). The magnetic device of the circuit breaker is connected to a power source 35 which is connected to the telephone set 30.

Calling the system proceeds according to the flowchart shown in FIG. A code can be entered to remotely operate the electrical device 36, and the device operates as shown in FIG. If the electrical system 36 is to be turned on, the voice system and the telephone control module 33 will process the signal and send the signal to the CPU circuit board 10 of the circuit breaker 34. The CPU circuit board 10 adjusts the conductivity of the solenoid 74 for attracting the movable iron bundle 6 to bring the movable silver contact 9 into contact with the fixed silver contact 5. Accordingly, the main circuit of the first electrode 24, the copper wire 22, the fixed silver contact 5, the movable silver contact 9, the main circuit conductive line 16, and the second electrode 23 are connected. As a result, the electrical device begins to operate. When the circuit breaker operates normally, the CPU circuit board 10 will send an instruction to open the line of the solenoid 74. This will cut off the current through the solenoid. Therefore, the iron 71 will lose its magnetism and cannot pull the movable iron bundle 6. However, since the movable iron bundle 6 is moved closer to the permanent magnet 73, the permanent magnet 73 will attract the movable iron bundle 6. Conversely, a software program may turn off the electrical device. The voice system and telephone control module 33 will send the processed signal to the CPU circuit board 10 of the circuit breaker 34. The CPU circuit board 10 adjusts the conductivity of the solenoid 74 and the solenoid 74 is connected to a power source of opposite polarity so that the solenoid 74 has the opposite polarity. As a result, the force of permanent magnet 73 pulling the movable iron bundle 6 will be offset. Therefore, the movable iron bundle 6 is not subject to attraction and is pushed by the restoring force of the spring, and the movable shaft 2 will move to bounce the movable copper 4 and the movable iron bundle 6. The movable silver contact 9 is thereby separated from the fixed silver contact 5. As a result, the circuit breaker is disconnected from the power supply and the electrical equipment is not working.

In order to control an air conditioner, a water heater, a burglary door, and a dog food feeder, the number of electric circuits 36 can be adjusted simply by increasing the number of circuit breakers 34 corresponding thereto.

The circuit breaker comprising the magnetic device according to the invention can be connected to a remote telephone control system to constitute the control device 32. As shown in Fig. 10, the input terminal is directly connected to the power supply and the output terminal is connected to the electric device 36. And the telephone input line 31 is connected to the telephone circuit to achieve the control purpose.

As described above, according to the present invention, there is an effect that can be very small in size compared to the conventional circuit breaker. Compared with the conventional circuit breaker, the volume of the circuit breaker according to the present invention is only about half that of the conventional circuit breaker using the same power. In addition, according to the present invention, the structure becomes simpler, thereby increasing the reliability of the operation. In addition, the switch is automatically turned off due to problems such as overload, short circuit, and short circuit, and when such a problem is eliminated, it is possible to automatically restore the original condition so that the remote operation is suitable.

Claims (4)

An automatic button or switch handle, a movable shaft fixed to the automatic button, a movable copper plate placed at the lower end of the movable shaft, two movable silver contacts on both sides of the bottom of the movable copper plate, two movable silver contacts An electrical circuit breaker comprising two fixed silver contacts, a magnetic device positioned between the two fixed silver contacts, The magnetic device includes a permanent magnet, two iron pole plates disposed on both sides of the permanent magnet, a reel placed on one of the two iron pole plates, a solenoid mounted on the reel, a CPU connected to the solenoid, and the two iron pole plates. A main circuit conductor mounted on the other one of the main circuit conductors, a movable iron bundle located at the bottom of the movable copper bundle, a fixed magnet connected in series to the main line of the electrode where current flows in and out, a movable magnet on the fixed magnet, the movable magnet And a short locking device having a lever hanging thereon, wherein the lever is connected to a spring on one side and an engagement structure connected to the movable shaft on the other side of the electric circuit breaker. The method of claim 1, The separator and current sensor comprising a current regulation block which directs the signal to an electrical circuit for rectification and amplification, regulation and sampling, preamplification and power amplification, and then to the separator and the electrical circuit board in the case. Electric circuit breaker. The method of claim 1, The circuit breaker is combined with a telephone control module and telephone set consisting of a voice system and a keyboard to form a remote telephone operation system, wherein the voice system and the telephone control unit adjust the output of the processed signal to the solenoid of the circuit breaker. The circuit breaker has an input terminal connected to a power source and an output terminal connected to an electrical device, the input line of the telephone set is connected to the telephone control module and the output line of the telephone set is An electrical circuit breaker, characterized in that connected to the CPU of the circuit breaker. An automatic button or switch handle, a movable shaft fixed to the automatic button, a movable copper plate placed at the lower end of the movable shaft, two movable silver contacts on both sides of the bottom of the movable copper plate, two movable silver contacts An electrical circuit breaker comprising two fixed silver contacts, a magnetic device positioned between the two fixed silver contacts, The magnetic device is a permanent magnet, two iron pole plates located on both sides of the permanent magnet, a reel located on one of the iron pole plates, a solenoid mounted on the reel, a CPU connected to the solenoid, and a main circuit installed on the other of the iron plates. An electrical circuit breaker comprising a conductive wire and a movable iron bundle located at the bottom of the movable copper plate.

Images