KR20010099344A - The automatic ground-sorting regulator to form a imaginary ground point at a electric heat mat - Google Patents

Abstract

The present invention relates to an automatic ground sorting controller in which a virtual ground point is formed on a heat transfer mat using a microcomputer, and automatically sorts a potential line, such as ground, out of two lead wires using an electronic device without an additional ground line, The present invention relates to an automatic grounding sorting controller configured to form a virtual ground point on a circuit in the absence of a potential line and to connect a mat body breaker plate so that potentials and electromagnetic waves generated from the heat transfer mat are not induced to the human body.

Description

The automatic ground-sorting regulator to form a imaginary ground point at a electric heat mat}

The present invention relates to an automatic ground sorting controller in which a virtual ground point is formed on a heat transfer mat using a microcomputer, and automatically sorts a potential line, such as ground, out of two lead wires using an electronic device without an additional ground line, The present invention relates to an automatic grounding sorting controller configured to form a virtual ground point on a circuit in the absence of a potential line and to connect the mat body shielding plate so that potentials and electromagnetic waves generated from the heat transfer mat are not induced to the human body.

Conventionally, the ground wire connected to the lightning rod generally moves a large amount of charges generated from the atmosphere directly to the surface to prevent charges from moving to other paths to damage buildings or humans.

In addition, there is a case that the person himself is grounded (when standing on a damp floor or in contact with metal pipes, etc.). In the wiring of the house, ground one wire to prevent the occurrence of lightning, breakdown of transformer, insulation of wire, etc. It minimizes the damage caused by human life and fire.

In addition, the enclosure of the metallic casing and other conductors is grounded so that if the insulation of any of the internal components is destroyed and it comes into contact with the casing, the electrical shock will not be applied to the exterior. Grounding is possible.

On the other hand, the "electromagnetic wave elimination device of thermal insulation electric yoke" of the patent application (99-28386) previously filed with the above-mentioned content reduces the generation of electromagnetic waves by superimposing the electric conductor with a different direction of the current and the spiral direction on the heating element, The electromagnetic wave leaking from the heating element is sent to the ground through the electromagnetic wave absorbing conductor installed in the heating element, to provide an electromagnetic wave removing device that removes more than 95% of the electromagnetic wave generated in the electric field, and the electrical insulation core from the center of the heating element It has a support, a spiral inner conductor, an intermediate electrical insulation layer, a spiral outer conductor and a covering electrical insulation layer, and the spiral directions of the inner conductor and the outer conductor lead are arranged in opposite directions with respect to the direction of the current, and the heating element is installed in the electric wire. Equipped with an electromagnetic wave absorber, the upper and lower electromagnetic wave absorber can be connected to one ground to be used. have.

In addition, the electric control circuit using the microcomputer of Patent Publication No. 95-13944 is configured to supply power to a heating wire of a heating element by connecting a fuse, a switch, a temperature fuse, and a triac in series with an input voltage. A DC power stabilization circuit that rectifies the voltage to 6V DC using a rectifier integrated circuit and supplies 5.4V of a voltage drop of 0.6V through the diode to the microcomputer, and connects a resistor, diode, resistor, and capacitor to the input power. The input voltage is lowered to a DC voltage and connected to an input power detection circuit which detects whether the input voltage is 110V or 220V by the DC voltage, and determines the temperature based on the delay time of the input power of the detected voltage by the capacitance. By controlling the triac, the time to reach the set temperature is short and accurate temperature control is possible. It is configured to enable stable circuit operation without generating excessive noise on the triac and zero noise of the other circuit elements, and it is configured so that the microcomputer can function as an alarm function and a reservation function. Devices consist of a large number of integrated circuits for sensing the temperature and controlling the current value flowing in the heating line, and auxiliary power circuits for applying the operating power to these integrated circuits. .

In addition, conventionally used electric blankets are laminated with a cushion layer, a heating layer, a heat diffusion layer, a support protective layer, etc. in the cover, and the heating layer is configured by arranging an alternating current layer, a drift layer, or a half-wave heater in a heat diffusion layer. The heater generates a large amount of electric and magnetic fields in proportion to the applied voltage and power consumption.

On the other hand, the electric field is used to attenuate the magnetic field of the former vacuum tube used as a heater by twisting the two strands of electrical conductors in order to reduce the electromagnetic wave, but only this technique can not efficiently remove the electromagnetic wave generated in the electric field with a large current capacity There is this.

In addition, the existing circuits use a lot of large resistors instead of NTC, so there is a problem that heat generation is severe and frequent disconnection defects occur due to the structure of the resistor.

And "Automatic Ground Sorting Controller for Heat Transfer Mats" of Utility Model Registration Application No. 2000-22827 of the present application.

This is used to separate potential wires such as ground out of two wires with electronic devices and connect them to the shielding plate installed in the body of the heating mat without any additional ground wire, so that potential and electromagnetic waves generated from the heating mat are not induced to the human body. It is used to form a small DC power supply from AC power by connecting the antenna to the input port of the microcomputer by using the point that the input input resistance of the microcomputer is almost infinite, and detecting the spatial potential of 60Hz around the controller. The resistor connected in series with the capacitor is a means to protect the components of the circuit in the wire by limiting the inrush current to the resistance of the NTC part when connecting the power supply to the NTC part. It is easy to operate with a grounded power source but can be Blocking of electromagnetic waves has a problem that can not effectively cope.

The present invention in the grounding function of the heat transfer mat using the pre-applied micom of the present application to solve the above conventional problems, using a virtual ground circuit that can be grounded even in the neutral ground region of the lead wire of two wires without a separate ground wire The potential generated from the heating mat is selected by selecting an electric potential line, such as the ground, by using an electronic device.If there is no potential line such as the ground, it is determined as a neutral ground, and a virtual ground point is created and connected to the shield plate installed on the heating mat body. And it is an object of the present invention to configure a regulator for grounding so that electromagnetic waves are not induced to the human body.

In order to achieve the above object, the space potential is contacted by using a microcomputer porter with infinite input resistance. Find the same line (AC ₁ , AC ₂ virtual ground) as ground potential among the incoming wires and connect it to the mat and ground plate. It is intended to provide a means for preventing electromagnetic waves from being induced.

1 is a circuit diagram of a conventional electromagnetic wave removing device of thermal insulation

2 is a circuit diagram of a conventional electric yaw control circuit.

3 is a circuit diagram illustrating an embodiment of the invention.

4 is a circuit diagram showing an electrical grounding power source of the present invention;

5 is a circuit diagram showing a neutral ground power supply of the present invention;

Explanation of symbols on the main parts of the drawings

10. Power supply circuit section 11. Bypass part A

12. Micom 13. Bypass Part B

14. Shield 15. Virtual grounding point

16. Ground potential 17. Porter coupler

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

1 is a circuit diagram of a conventional electromagnetic wave removing device of a thermal insulation electric yaw, Figure 2 is a circuit of a conventional electric yaw control circuit, Figure 3 is a circuit diagram showing an embodiment of the present invention, Figure 4 is a circuit diagram of a one-line ground power source, 5 is a circuit diagram of a neutral ground power supply.

As shown in FIG. 3, in the present invention, a space potential of 60 Hz or 50 Hz is formed by using an antenna (PCB pattern) connected to a port input of the microcomputer 12 by using a port input resistance of the microcomputer almost infinite. Adopted the method of detecting.

Automatic ground selection circuit of the present invention to the (PC ₁₎ and (PC _2), (17) a power supply circuit 10 and the photocouplers (photocoupler) to the input voltage (AC) capacitor (C ₃₎ (C ₄₎ in series with It was configured to be connected to.

The resistors R ₆ and R ₇ are connected in parallel to the capacitor, and a shield plate 14 is connected between the port coupler PC ₁ and PC ₂ 17.

In addition, the microcomputer 12, which is an input porter unit connected in series with the power circuit unit 10, is connected to each of the power terminals Vss and Vcc.

In addition, the input port micom 12 is configured to be connected to the port coupler (PC ₁ , PC ₂ ) 17 through the resistor (R ₃ , R ₄ ).

The input port of the microcomputer 12 and the antenna pattern ANT of the PCB pattern is connected to the resistor (R ₁ ) of the resistor (R ₂ ) and the power source (AC ₂ ).

The power circuit unit 10 is configured to be connected to a power source AC ₁ , a capacitor C ₃ , and a resistor R ₅ .

Referring to the operation and effect according to an embodiment of the present invention configured as described above are as follows.

As shown in FIG. 3, power is supplied to the power circuit unit 10 by the temperature controller.

At this time, one of two conventional KEPCO power lines is generally grounded to the ground as described above (AC ₁ , AC ₂ ).

Therefore, the periphery becomes the same as most (ground) ground potential as described above.

If (AC ₂ ) is the ground potential and (PC ₂ ) is turned on and connected to the microcomputer (Vss) through the bypass B circuit 13, the periphery is the ground potential, so it is induced to the antenna ANT to The potential that enters the input port is equal to the potential of the power supply terminal (Vss) of the microcomputer 12, and there is no input. The microcomputer 13 determines that the port coupler PC ₁ 17 is turned off, and the port coupler PC ₂ (17) is turned on, so that the potential of the power source AC ₂ is grounded through the bypass B circuit 13 to ground the microcomputer Vss and the mat ground plate.

In addition, when the power source AC1 is the ground potential and PC ₂ is turned on and connected to the microcomputer Vss through the bypass B circuit 13, the power source AC ₂ becomes a potential as high as an input voltage with respect to the earth, and thus the microcomputer 12 Since the potential of the power supply terminal Vss of the power supply) is higher than the surrounding potential by the input voltage, the surrounding ground potential is induced in the antenna ANT and transmitted to the input port through the resistor R ₂ , and the microcomputer determines that the input signal exists. To turn off the port coupler (PC ₂ ) 17 and turn on the port coupler (PC ₁ ) 17 so that the ground potential of the power supply (AC ₁ ) is passed through the bypass A circuit (11). The ground plate is kept grounded.

However, as shown in FIG. 5, when the commercial power transformer is a neutral ground, both AC ₁ and AC ₂ are 110V with respect to the ground, so no matter which line is connected, the Vss potential is 110V with respect to the ground potential, so a signal is input to the input port of the microcomputer. The microcomputer judges that both PC ₁ and PC ₂ are turned on, and a midpoint potential is formed at the intermediate points of the bypass circuits A and B to create a virtual ground point identical to the ground potential, and the microcom Vss and the shield plate are connected to it. .

At this time, the bypass circuits A and B are circuits having the same AC resistance, and when P1 and P2 are turned on at the same time, the power supply voltage is applied to the virtual potentials of P1 and P2 by ½.

The resistor R ₁ is a micom input port pull down resistor to adjust sensitivity to adjust the sensitivity, and the capacitor C ₁ bypasses high frequency components to prevent the malfunction of the microcomputer 12.

And since the temperature control part is a resistance element inversely proportional to the temperature, it is not easily disconnected by the instantaneous large current.

As described above, the automatic ground sorting device using the microcomputer of the present invention sorts potential lines such as ground among the incoming wires of two wires without an additional ground wire by using an electronic circuit and directly connects the shielding plate installed in the main body of the insulating mat. The potential generated from the mat and minute electromagnetic waves are not induced to the human body.

The present invention described above is capable of various substitutions and modifications within the scope of the present invention to those skilled in the art without departing from the technical spirit of the present invention and the accompanying drawings and the accompanying drawings. It is not limited.

The present invention configured as described above attenuates minute electromagnetic waves generated at the same time as the heating of the electric wire, and the electromagnetic waves leaking from the heating element is not directly induced to the human body, because the number of parts due to the use of a complex integrated circuit as in the prior art The structure is simple and small, so it is possible to minimize the manufacturing cost with the features suitable for mass production.

Claims (1)

In the automatic ground sorting regulator of the heating mat, Contact with the space potential by using Micom porter with infinite input resistance, and find the line AC ₁ , AC ₂ , virtual ground which is the same as the ground potential among the incoming wires, and supply the same potential as the earth potential to the mat ground plate. Automatic ground sorting regulator, characterized in that configured to block the ground, the virtual ground point is formed on the heating mat