KR20180134920A - An apparatus for automatically disconnecting coaxial cables from a television set or decoder tuner - Google Patents

Abstract

This invention relates to devices that automatically isolate coaxial cables from TV stations or decoders. There is already a device in the TV station to connect and disconnect the coaxial cable. However, whenever strong current flows through a coaxial cable, that is, whenever an overvoltage generated by a lightning falls on a coaxial cable or video receiving antenna, the tuner of the TV station set or the tuner of the decoder can not automatically disconnect the coaxial cable. On the other hand, existing devices do not provide a solution even when the user is asleep and is in front of the TV station for a long time.
It is an object of the invention to provide a device for separating a coaxial cable (TV antenna) from a TV station set or decoder whenever a coaxial cable or TV station antenna is over-voltage, or whenever a user's absence period is increased from the TV station, Is to provide. This invention provides a realistic and secure protection of TV stations and decoders from overvoltages caused by lightning.

Description

Automatic separation of coaxial cable from TV tuner or decoder tuner

The present invention is an automatic coaxial cable separator for TV station tuner or decoder tuner. The present invention relates to a coaxial cable (TV antenna) automatic separation device in a TV or decoder. This unit protects the TV station or decoder from overvoltages caused by lightning transmitted by coaxial cable (TV antenna).

The connection and disconnection of TV coaxial cable already exists. However, you can not disconnect the TV tuner coaxial cable automatically whenever the current through this cable is high or when there is a huge lightning strike. Therefore, you must remove the coaxial cable manually to protect the TV station during the storm.

At present, the protection system of the TV against lightning does not meet the user's expectation. Therefore, your TV station must manually disconnect the coaxial cable from the TV when the shower is off. On the other hand, when the user is away for a long time, the TV station is not protected because the coaxial cable is connected to the tuner.

TV station vendors and TV cable providers recommend that you disconnect the coaxial cable after use. However, it is tedious to disconnect the cable whenever there is a shower or is away from the TV station. For this reason, I sometimes forget to disconnect. On the other hand, the user is exposed to the risk of electric shock during disconnection. Also, the multiple connections and disconnections of the coaxial cable may damage the tuner of the TV station or the tuner of the decoder.

This invention automatically disconnects coaxial cables when there is an overvoltage generated by lightning, when the user is away for an extended period of time, or when sleeping.

It is an object of the invention to provide a device for separating a coaxial cable (TV antenna) from a TV station set or decoder whenever a coaxial cable or TV station antenna is over-voltage, or whenever a user's absence period is increased from the TV station, Is to provide. This invention provides a realistic and secure protection of TV stations and decoders from overvoltages caused by lightning.

High current sensing through coaxial cable, no human movement in front of TV station set, optimal protection (20cm cable away from TV station set of tuner or decoder).

Protects the TV station's tuner box from the risk of breaking by connecting and disconnecting the coaxial cable manually several times.

Protecting the user from electric shock while disconnecting the coaxial cable of the TV station when lightning strikes or lowers the shower.

1 is a configuration diagram of an apparatus according to the present invention.

This device is connected to a 220V power outlet. This unit has a connector for supplying power to the TV station. This device has an input for a coaxial cable 20 cm from the outlet. The electronic card is supplied with a DC voltage (Vcc) supplied by a 12V / 220V transformer, rectified by a bridge diode, and filtered by a capacitor.

The ferrite is connected to the magnetic circuit along 10cm (W) (1) The coil is connected in series with the earth conductor of the coaxial cable (MT). (2) The Hall-effect signal module's output terminal, which is 2 cm away from one end of the ferrite circuit, is connected to the (3) input terminal of the amplifier module, and the amplified signal is transmitted to the input terminal of the (4) module which is monostable.

The output signal of the short-circuit is connected to the input terminal of the microcontroller and the two output terminals of the microcontroller are connected to the inverter circuit input terminal of the rotational direction (6) and the output terminal of the inverter circuit is connected to the gear motor (MR) . The contact limit switches (FC1 and FC2) and the reset button (K) are connected to (5) the microcontroller inputs.

(7) The output terminal of the motion sensor module signal is connected to the input terminal of the microcontroller. (9) The output terminal of the radio frequency modulation signal sensor module is connected to the input terminal of the microcontroller. The cursor of the potentiometer (P) sets the reference voltage of the microcontroller. The microcontroller sends an anode signal to the spindle J of the inverter circuit when power is supplied to the device, and (11) to lift the carriage actuator to connect between contacts SP and SM, (MR) is programmed to give a voltage of 5V. (11) The carriage applies pressure to the button (FC1) connected to the microcontroller and stops the motor.

Therefore, the magnetic field generated by the ferrite rod (w) is sensed by the module (2) as a Hall effect (3) and amplified by the amplifier module after a lightning voltage flows through the antenna (1)

The amplified output signal is sent to the monostable (4) module and transmitted to the input terminal of the microcontroller. As soon as the microcontroller processes this signal, it sends a positive signal to the spindle (U) of the inverter circuit and the motor reverses (returns) the carriage of the actuator to the starting position. At the end of the process, the carriage stops the rotation of the motor by applying pressure to the button (FC2) connected to the input terminal of the microcontroller. Press the pushbutton (k) to reset the device.

Manage the heavy rain detection from the power of the device.

The microcontroller moves the carriage through the inverter circuit to establish a connection between the coaxial cable and the TV set. A home-installed (10) rain sensor running on a 9V battery will send a signal every time it rains. The microcontroller processes the signal received by the module connected to one of the input terminals (9), and when processing is complete, the microcontroller sends a signal to the input terminal (u) of the inverter circuit. Eventually the carriage is returned, and when the process ends, the engine (FC2) stops at the carriage pressure. Pressing the manual pulse button (k) resets the unit.

No movement management from device power.

The microcontroller moves the carriage through the inverter circuit to establish a connection between the coaxial cable and the TV set. At the same time, the clock counter starts at 45 minutes.

After 45 minutes, the microcontroller sends an anode signal in the direction of the inverter circuit and is programmed to recall the carriage. If (7) the motion detection module connected to the input of the microcontroller within 45 minutes detects movement of a person in front of the TV station, it sends a signal to the microcontroller to reset the clock counter to zero.

On the other hand, if no motion is detected during that time, the microcontroller sends a signal to the inverter circuit and the inverter sends the reverse voltage to the gear motor to recall the carriage under the cylinder. Pressing the manual pulse button (k) resets the unit.

Claims (4)

Automatic separation of coaxial cable (TV antenna) from TV station set or decoder.
This means that the coaxial cable is separated by 20 cm from the tuner of the TV station set or decoder. This distance is very important to prevent significant current flow or shocks during stormy weather conditions. A coaxial cable (TV antenna) is characterized in that a high current flows through it and the device according to claim 1
The magnetic field generated by the high current flow of the series coil mounted on the coaxial cable's earth conductor is sensed by the magnetic sensing device and the sensed signal is sent to the microcontroller to transmit the positive signal to the inverter circuit in the direction of rotation of the gear motor . The motor ensures that the coaxial cable is disconnected from the terminal of the TV station. A device according to claim 1, characterized by a long-term absence of a person moving in front of the TV.
The motion detection module installed on the device sends a positive signal to the microcontroller input whenever the user moves to the set of TV stations. If the user does not see any movement after the specified time, the microcontroller sends an anodic signal to the sensitive inverter circuit of the gear motor rotation, and the motor separates the coaxial cable from the TV station terminal. Characterized in that it is characterized by the detection of heavy rain,
A rain sensor installed outside the home detects the rain and then transmits the wireless signal. The signal from the detector is received by a frequency regulator connected to the microcontroller installed in the unit. The microcontroller compares this signal with the signal set by the potentiometer. If it is the same, the microcontroller sends the positive signal to the sensitive inverter circuit of the motor decelerator rotation and the gear motor disconnects the coax cable from the TV station terminal.

Images