KR100552150B1 - An electromagnetic waves and guidance Volt blockade device - Google Patents

Abstract

The present invention does not use a grounding conductive shielding agent in the electrical appliance having a reactance component such as a heating mat, an electric blanket, or there is no power ground line even when used, and a ground detection circuit is used among the power lines. In this case, if a potential difference occurs with the ground due to the induced voltage that can not be fully grounded, LOOP is formed through the human body in contact with the ground, which can cause electric shock. The purpose is to prevent the electric shock phenomenon by fundamentally blocking the factor.

Ground potential, inductive voltage, power grounding device, electromagnetic wave

Description

Electromagnetic waves and guidance Volt blockade device}

1 is an exemplary view showing an embodiment of an induced voltage blocking device according to the present invention

Figure 2 is an exemplary view showing an embodiment of an induction voltage blocking device using a power grounding device

3 and 4 is an exemplary view showing an embodiment of an induced voltage blocking device using another power grounding device

5 is a circuit diagram of an embodiment of a power converter;

6 and 7 are circuit diagrams of an embodiment of a power grounding device.

8 is a circuit diagram of an embodiment of a power grounding apparatus having a ground switching relay driving circuit;

9 is a circuit diagram of yet another embodiment of ground switching relay driving;

The present invention is to minimize the electromagnetic wave (electric field) and voltage induced phenomenon that can occur in the mat when the power is controlled in the controller of the mat or blanket separately configured in the use of the product having a reactance component such as heat transfer mat, electric blanket.

In the case of existing products, only one of the two output lines connected to the mat or blanket controller to control power is used for switching operation. Since this fixed line is connected to the inside of the regulator via a hot wire, if the fixed line is not the ground line of the power line, voltage induction occurs, so if there is a lot of electromagnetic waves (electric field) even if it is not operated, the electromagnetic wave ( Electric field) can have a lot of effects on the human body. In addition, in the above case, since a high potential difference is generated between the heat transfer mat on which the voltage induced phenomenon occurs and the ground having the earth potential, the electric shock due to the potential difference is caused when contact is made through the human body. In order to solve this problem, in the case of a heating mat having an electromagnetic shielding function, a conductive shielding layer is used to block a place where an induced voltage may be generated, and it is connected to a direct ground line through a power ground line of a 3-pole grounded outlet, or there is no direct ground line. In this case, it is intended to cut off electromagnetic wave (electric field) and voltage induction by connecting to the ground potential point obtained by the power grounding device. However, the conventional techniques are not stable, so that a malfunction occurs or the ground potential device does not sufficiently solve the voltage induction phenomenon. There is a problem.

The present invention is to solve the above problems, the first method is the two lines connected to the heating wire of the mat at the time of OFF by simultaneously turning on / off two output lines connected to control the power in the regulator of the mat or blanket There is a method to separate all from the power line, and the second method is to switch only one of the two lines of output line connected to control the power in the mat or blanket regulator, but the fixed line must be the ground potential. Its purpose is to prevent the generation of electromagnetic waves (electric fields) and induced voltages in the OFF state by using the ground line obtained by the device.

In addition, in order to minimize the electromagnetic wave and induced voltage which may occur during operation, the electromagnetic field and the induced voltage of electromagnetic waves can be minimized by blocking the electromagnetic wave source with a conductive shield and connecting the ground point obtained from the ground potential device to the conductive shield. In particular, there is no error in ground potential discrimination and the potential difference within several volts can be sensed so that it is possible to discriminate whether ground potential is more accurate.

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

First of all, as a supplementary explanation to help understand the components used in the accompanying drawings, the line notation of the power supply is indicated by E1 (or A), E2 (or B), and the heating wires used as outputs are indicated by H1 and H2. In addition, the switches S1 and S2 that control the output use the power control elements SCR or TRAIC. S3 is a switching switch that connects the same line of the earth potential among the power lines A and B to H1 using the relay contact point. BLOCK C converts the AC power voltage into DC voltage which is the control power of the controller. It can be configured with the trans LESS method. BLOCK D is the power grounding device to detect the ground point, and BLOCK E consists of the DRIVE circuit of switches S1, S2 (SCR or TRAIC) to control the output (HEATER). BLOCK F consists of the regulator's MAIN circuit to control the overall operation, while BLOCK G and H are examples of different power grounding devices. In addition, M (M1) is a to-be-grounded object, and M2 is for eliminating the electric field of electromagnetic waves generated from the heat transfer mat, and is composed of a conductor, which surrounds the heating element and is connected to M, which is to-be-grounded body. PT is a ground potential applying means and is a conductive plate for applying a ground potential when the human body touches.

1 is a method for minimizing the effects of electromagnetic waves generated from a heating mat when a power grounding device is not used, and the output terminals of H1 and H2 connected to a heater are connected or disconnected from both power lines (A and B). When the operation is OFF, it is possible to block the effect of electromagnetic waves (electric field) and the electric shock which may be caused by induced voltage.In general, one line of the power line has a ground potential which is grounded to the ground, and the other one is grounded. Since the potential is supplied with a potential difference of 110V or 220V as the reference potential, when the output is controlled by switching only one line in the use of an electric device having a reactance component, the other fixed line has the earth ground potential. If the wire is opposite to the wire, the adjacent human body or conductor is affected by induced voltage. Feel the electric shock phenomenon of the car, and from which will be influenced in the electromagnetic wave (electric field).

Figure 2 is a method in which the power grounding device (D) is combined with the configuration of Figure 1 in order to block the electromagnetic wave and induced voltage phenomenon generated when the output is applied to the heating wire conductor between the heater (HEATER) and the human body contact portion It is shielded with (M2) and connected to the ground point (M) detected by the power grounding device so that the electromagnetic wave and induced voltage phenomenon can be blocked even when the output is operated. Power grounding device (D) for the detection of the ground point is a pre-registered utility model and patented content, so a detailed description of the operation will be omitted. The circuit diagrams cited in the power supply grounding device and the ground fault alarm device of the previously disclosed patent application are shown as an embodiment of FIGS. 6 and 7, and detailed descriptions thereof will be omitted. In the case of FIG. 3, in general, one line of the power line has a ground potential grounded with the ground, and the other line is supplied with a potential difference of 110 V or 220 V based on the ground ground potential, so that the fixedly connected output line H1 is always grounded. The relay (S3), which is the power switching device applied to the outputs H1 and H2, detects the line having the earth ground potential among the power lines A and B through the relay contact (S3) to have a ground potential. H1 always has earth ground potential, and the ground potential point (H1) is covered with conductive shield (M2) on the source (heat wire, etc.) that can be affected by induced voltage, and the power grounding device is operated for safety before normal operation. Connect to earth ground potential point (H1) via the power line potential attenuation means R1 and C1 and use the induced voltage phenomenon as well as the electromagnetic wave (electric field) generated by the product when the power grounding device is in normal operation. However it can. Here, S2, an output control element, may be composed of SCR or TRAIC, and is turned on and off through the output control circuit (E). R2 and C2 are contact (S2) protection elements to mitigate the instantaneous surge voltage generated when ON / OFF. In one embodiment, the power converter C is configured as shown in FIG. 5, where the power voltages A and B are full-wave rectified to the applied DC voltage via the bridge diode via the voltage and current limiting R1, R2, and C1. DC voltage is supplied to DC1 +, and DC + voltage is stepped down through R4, C3, ZD2 by combining the constant voltage controlled by Zener diodes ZD1 and R3 with rectification DIODE D5 and the smoothing capacitor (C2). Outputs the control voltage. When this is supplied to the power grounding device (H), the power grounding device (H) is shown in FIG. 9 when the human body having the earth ground potential is in contact with the conductive conductor PT. The driving relay RY1 of the switching switch S3 does not operate with a potential difference of less than the voltage (R9, R10 divided voltage), so that the B ground point, which is the earth ground potential, is connected to H1, and if the A point of the power supply line is the earth ground potential, In this case, when the human body having the earth ground potential comes into contact with the conductive conductor PT, the potential above the reference voltage (R9, R10 divided voltage) is generated, and the contact is maintained until the power is cut off when RY1 is operated through the switching TR Q1. A point, which is the earth ground potential line, is connected to H1 applied to the fixed output line to make the fixed output line H1 the earth ground potential, and the conductive shield connected to it prevents electromagnetic wave induced voltage from occurring. That will. FIG. 4 shows another embodiment of FIG. 3 except that the power grounding device G drives the switching switch S3 (RY1) to the power grounding device of FIG. When (G-1 in FIG. 8) is added and the power supply line B point is not the earth ground potential, and the A point is the earth ground potential, a potential difference is generated between the grounded object M and the B point. TR2 is turned on to supply the GATE signal of SCR2 so that relay RY1 (S3) connected in parallel with Zener diode ZD3 is operated so that the contact of S3 is switched so that output line H1 has the ground potential. In addition, in this case, the grounded object M detected by the power grounding device is connected to the conductor M2 wrapped around the source HEATER to cut off electromagnetic waves (electric field) and induced voltage.

As described above, in the present invention, even when the power grounding device is not used in parallel, the mat of the mat at the time of OFF is turned on by simultaneously turning on / off two output lines connected to control the power in the regulator of the mat or blanket in the induction voltage blocking method. The method of separating both lines connected to the heating line from the power line can minimize the effects regardless of the number of cases where electromagnetic wave (electric field) is generated without a separate electromagnetic wave shielding device. It can prevent electric shock.

In addition, in the case of a conventional heat transfer mat, leakage current may occur even when the output is turned off when the insulation state is not good, but it may be excluded when using the induced voltage blocking method.

In addition, when the power grounding device is used in parallel, the electromagnetic wave (electric field) and induced voltage generated during operation can be cut off, thereby achieving a more safe product.

In addition, electric devices that have a reactance component, such as electric appliances using heating wires and electric motors with a driving motor, may have two output lines at the same time because induction voltage may be generated when the ground is not connected when the external parts are made of a conductive material. The risk of electric shock due to induced voltage can be minimized by ON / OFF or sequentially ON / OFF, and when using the power grounding device in parallel, the power line connected to the product's heating wire or motor should always have earth ground potential. It is possible to block the electromagnetic wave (electric field) and the induced voltage generated by connecting to the conductor of the grounding point (M) detected by the power grounding device.

Claims (3)

Output line applied by heating wire as a means for minimizing the influence of electromagnetic waves generated in the use of electric products having the same reactance components such as electric heating mat without power grounding device and cutting off the organic voltage induced to the outside Electromagnetic wave and induced voltage blocking device characterized in that to block the electromagnetic wave and induced voltage phenomenon that can occur even when the output is not applied by connecting or opening all. The power grounding device of claim 1 is used in parallel to cut off the conductive material between the source and the human body that may generate electromagnetic waves and induced voltage, and to connect the grounding potential point detected by the power grounding device to the conductive material. Electromagnetic wave (electric field) and induced voltage blocking device, characterized in that to block the electromagnetic wave and induced voltage phenomenon that may occur during operation. In general, one of the power lines has a ground potential that is grounded to the ground, and the other one is supplied with a potential difference of 110 V or 220 V as the ground potential as the reference potential. Therefore, one line is used in the use of electrical appliances having the same reactance component. In case of output control only, if the other fixed line does not have earth ground potential, electromagnetic wave and induced voltage may occur. Therefore, use the power line switching device using relay contact so that the fixed line always has earth ground potential. Through a power grounding device (G or H) that identifies the earth ground potential, make sure that the output line that is fixedly connected is always the earth ground potential, and that there is a conductor (M2) between the source and the human body where electromagnetic waves and induced voltages can be generated. Electromagnetic wave and induced voltage phenomenon by connecting the earth ground potential (M) detected by the power grounding device to this conductor. Electromagnetic waves, characterized in that to be cut off (electric field) and the induced voltage block device.

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