KR100607446B1 - Heating Wire Having Thermostat to Shield Electromagnetic Wave - Google Patents

Abstract

The present invention relates to a heating wire for electromagnetic shielding with a built-in temperature sensor that can absorb and remove harmful electromagnetic waves generated from the heating wire when the power supply, the first heating wire made of a wire having a certain resistance and generated by the power supply ; An inner insulation layer surrounding the first heating wire and insulating the heating wire; A sensor wire wound spirally on an outer circumference of the inner insulation layer and sensing a heating temperature; A second heating wire spirally wound on an outer circumference of the inner insulation layer, one end of which is connected to the first heating wire and generates heat by supply of power; An electromagnetic shielding layer surrounding the sensor wire and the second heating wire and shielding electromagnetic waves generated from the heating wire; An outer insulating layer formed on the outer circumference of the electromagnetic shielding layer surrounding the electromagnetic shielding layer may be formed to effectively shield the electric and magnetic fields generated from the heating line.

Heating line, electromagnetic wave, shielding, temperature, sensing (sensor)

Description

Heating Wire Having Thermostat to Shield Electromagnetic Wave

1 is a schematic diagram showing a heating line for electromagnetic shielding with a built-in temperature sensor according to the prior art

Figure 2 is a schematic diagram showing an embodiment of a heating line for electromagnetic shielding with a built-in temperature sensor according to the present invention

Figure 3 is a schematic diagram showing another embodiment of the heating wire for electromagnetic wave shield with a built-in temperature sensor according to the present invention

<Explanation of symbols for the main parts of the drawings>

1: first heating wire 2: first insulator

3: temperature sensing line 4: second heating line

5: second insulator 6: shell

11, 11a: the first heating wire 22: heartwood

33, 33a: sensor wire 44, 44a: second heating wire

55, 55a: inner insulation layer 66, 66a: outer insulation layer

77, 77a: electromagnetic shielding layer

The present invention relates to a heating wire used in electric blankets, electric blankets, jade mats, pads for steaming, etc. More specifically, a heating wire for electromagnetic shielding with a built-in temperature sensor that can remove harmful electromagnetic waves generated from the heating wire during power supply It is about.

Electric appliances that generate heat by allowing electricity to flow through heating wires having a large resistance value are commonly used in heating devices such as electric floorboards using electricity, which is an indispensable resource in our daily lives. The electric product using the heating wire is easy to use and does not require a separate special facility, thus providing a lot of convenience in life, on the other hand, fear of electric shock caused by incorrect use of electricity, and the human body generated from the electric product. It is true that there is a tendency to be reluctant to use due to fear of harmful electromagnetic waves. In particular, as many studies have reported that it can cause psychological, physiological and physical damage to electromagnetic waves, users' interest in electromagnetic waves is increasing day by day. The electromagnetic wave is generated from the main body of the electronic product, while the electromagnetic wave is generated from a power line or a heating line to which power is supplied.

Among various examples of conventional heating wires for suppressing such electromagnetic waves, there is a "heating wire for electric bedding" of Korean Utility Model Registration Application No. 20-2001-0036766. Referring to FIG. 1, in the present invention, the temperature sensing line 3 is wrapped by the first insulator 2 so as to suppress the generation of harmful electromagnetic waves from the heating wire when using an electric blanket or an electric blanket. The first heating wire 1 is wound in one direction on the insulator 2, the second insulator 5 is covered by the first heating wire 1, and the second heating wire 4 is covered by the second insulator 5. ) Is wound in the same direction as the winding direction of the first heating wire 1, and the second heating wire 4 is covered with an outer sheath.

In the conventional heating wire, the temperature sensing wire 3, the first heating wire 1, and the second heating wire 4 must be wound or installed separately, which requires a lot of work. There was a problem that the accuracy is somewhat lower in the temperature detection of the heating wire is located at.

In addition, since the outer material surrounding the second heating wire is made of PVC and has only one layer, removal of electromagnetic waves was not satisfactory.

An object of the present invention for solving the above problems is to improve the work efficiency, more accurately detect the temperature and the electromagnetic wave shielding heating wire with a built-in temperature sensor that can effectively suppress harmful electromagnetic waves generated from the heating wire To provide.

The electromagnetic wave shielding heating wire with a built-in temperature sensor according to the present invention for realizing the above object is made of a wire having a certain resistance and the first heating wire to generate heat by the supply of power; An inner insulation layer surrounding the first heating wire and insulating the heating wire; A sensor wire wound spirally on an outer circumference of the inner insulation layer and sensing a heating temperature; A second heating wire spirally wound on an outer circumference of the inner insulation layer, one end of which is connected to the first heating wire and generates heat by supply of power; An electromagnetic shielding layer surrounding the sensor wire and the second heating wire and shielding electromagnetic waves generated from the heating wire; Wrapping the electromagnetic shielding layer and characterized in that it comprises an outer insulating layer formed on the outer periphery of the electromagnetic shielding layer.

In addition, the electromagnetic wave shielding heating wire with a built-in temperature sensor according to the present invention further includes a core material installed in the direction of the central axis of the inner insulating layer and having heat resistance, wherein the first heating wire is spiral on the outer circumferential surface of the core material and the second heating wire is provided. It is characterized in that the winding in the same direction as the hot wire.

In addition, the first heating wire is installed in a straight line along the direction of the central axis of the internal insulating layer in the electromagnetic wave shielding heating wire with a built-in temperature sensor according to the present invention.

In addition, the material of the electromagnetic shielding layer in the electromagnetic wave shielding heating wire having a built-in temperature sensor according to the present invention is characterized in that carbon (carbon) is contained in the polyethylene.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. Figure 2 is a schematic diagram showing an embodiment of a heating wire for electromagnetic shielding with a built-in temperature sensor according to the present invention. Briefly, FIG. 2 illustrates an embodiment in which the first heating wire 11 is wound in the same direction as the second heating wire 44 while having a core material 22 and spiraling on the outer circumferential surface of the core material 22.

The electromagnetic wave shielding heating wire having a built-in temperature sensor according to the present invention includes a core material 22, a first heating wire 11, an internal insulating layer 55, a sensor wire 33, a second heating wire 44, and an electromagnetic shielding layer ( 77, the outer insulating layer 66 is included. Specifically, the core material 22 is also called screening or core wire and is formed of a plurality of strands having a fine thickness, and the material is mainly rayon yarn, nylon yarn or glass fiber, and the first heating wire 11 is easily wound in a spiral shape. Of course, it should be heat resistant.

The first heating wire 11 is a portion in which heat is generated when power is supplied, and the material of the first heating wire 11 is a nickel chromium wire, a copper wire, a nickel / copper alloy wire having conductivity, and a first heating wire ( 11 is wound on the outer circumferential surface of the core material 22 in the same direction as the second heating wire 44. In addition, the first heating wire 11 may be coated with nylon resin, silicon, or Teflon.

The inner insulation layer 55 is made of silicon, nylon resin, or Teflon material having excellent heat resistance, and protects the first heating wire 11 and the core material 22 and serves to transfer or insulate the heat generated therein to the outside. do.

The sensor line 33 senses a heat generation temperature, and senses a temperature change according to a change in the resistance value (that is, a principle in which the resistance value also increases when the temperature rises) to perform temperature control. In addition, the sensor wire 33 is spirally wound around the inner insulation layer 55 by the second heating wire 44 and the twin (pair), and a copper wire or an iron wire is mainly used. In addition, in order to prevent short circuits (shorts) with other wires, the sensor wires 33 are enameled and insulated from the coating of the electromagnetic shielding layer 77.

The second heating wire 44 is a portion in which heat is generated when power is supplied, and a copper wire having a low resistance value is mainly used and the power is supplied. In addition, the second heating wire 44 is spirally wound in the outer periphery on the inner insulating layer 55 in the sensor wire 33 and the twin (pair) to improve the work efficiency. Here, the first heating wire 11 and the second heating wire 44 are wound in the same direction, and at one end, the first heating wire 11 and the second heating wire 44 are joined to each other so that the two heating wires 11 and 44 are joined. The direction of the magnetic field generated in the) is opposite to each other, so that the magnetic fields formed in the two heating wires (11, 44) are mostly canceled with each other to reduce the electromagnetic wave by that much.

The electromagnetic wave shielding layer 77 surrounds the sensor wire 33 and the second heating wire 44 and shields the electromagnetic waves generated from the two heating wires 11 and 44. The material of the polyethylene contains carbon (carbon). Since it serves as a conductor, the resistance value is lowered when power is supplied to the second heating wire 44 to have a shielding effect and to enhance durability of the heating wire.

The outer insulating layer 66 surrounds the electromagnetic shielding layer 77 and is formed on the outer circumference of the electromagnetic shielding layer 77 and has a function of shielding electromagnetic waves while having insulation, water resistance, and heat resistance, and is made of silicon or PVC that withstands external shocks. Use materials.

Figure 3 is a schematic diagram showing another embodiment of the heating wire for electromagnetic wave shield incorporating a temperature sensor according to the present invention. In other words, FIG. 3 is designed to reduce the loss of work due to the winding operation, and does not include the core material 22, and the first heating wire 11a is installed in a straight line along the central axis direction of the internal insulation layer 55a. Figure showing another embodiment. (Other configurations are the same as in FIG. 2).

The electromagnetic wave shielding heating wire having a built-in temperature sensor according to the present invention includes a first heating wire 11a, an internal insulating layer 55a, a sensor wire 33a, a second heating wire 44a, an electromagnetic shielding layer 77a, and an external insulation. Layer 66a. Specifically, referring to FIG. 3, the first heating wire 11a is a portion in which heat is generated when power is supplied, and the material of the first heating wire 11a is a conductive nichrome wire, copper wire, nickel / copper alloy wire. This is mainly used, the first heating wire (11a) can be coated with nylon resin, silicon, Teflon.

The inner insulation layer 55a is made of silicon, nylon resin, or Teflon material having excellent heat resistance, and protects the first heating wire 11a and serves to transfer or insulate the heat generated therein.

The sensor line 33a senses a heat generation temperature, and senses a temperature change according to a change in the resistance value (that is, a principle that the resistance value also increases when the temperature rises) to perform temperature control. The sensor wire 33 is spirally wound around the inner insulation layer 55a in a second heating wire 44a and a twin (pair), and a copper wire or an iron wire is mainly used. In addition, in order to prevent a short circuit (short) with other wires, the sensor wires 33a are enameled and insulated from the coating of the electromagnetic shielding layer 77a.

The second heating wire 44a is a portion in which heat is generated when power is supplied, and a copper wire having a low resistance value is mainly used and the power is supplied. In addition, the second heating wire 44a is spirally wound in the outer periphery on the inner insulating layer 55a in a pair of pairs of sensor wires 33a to improve work efficiency. Here, the first heating wire 11a and the second heating wire 44a are wound in the same direction, and at one end, the first heating wire 11 and the second heating wire 44 are joined to each other so that the two heating wires 11a and 44a are joined. The magnetic fields generated in) are mostly canceled with each other, and the electromagnetic waves are reduced by that much.

The electromagnetic shielding layer 77a surrounds the sensor wire 33a and the second heating wire 44a, and serves to shield electromagnetic waves generated from the two heating wires 11a and 44a, and the material is made of carbon (carbon) in polyethylene. Since it serves as a conductor, the resistance value is lowered when power is supplied to the second heating wire 44a, which has a shielding effect and also increases the durability of the heating wire.

The outer insulating layer 66a surrounds the electromagnetic shielding layer 77a and is formed on the outer circumference of the electromagnetic shielding layer 77a and has a function of shielding electromagnetic waves while having insulation, water resistance, and heat resistance, and resistant to external shocks. Use materials.

As described above, when power is supplied to the first heating wires 11 and 11a and the second heating wires 44 and 44a, the magnetic fields mostly cancel each other, and the electromagnetic waves generated from the two heating wires 11 / 11a and 44 / 44a are electromagnetic waves. Most of the shielding layers 77 and 77a and the outer insulating layers 66 and 66a are shielded and the electromagnetic radiation shielding heating wire having the temperature sensor according to the present invention generates little or no harmful electromagnetic waves.

As described above, the electromagnetic wave shielding heating wire with a built-in temperature sensor according to the present invention can improve work efficiency during manufacturing, improve safety by sensing the temperature more accurately during use, and effectively suppress harmful electromagnetic waves generated from the heating wire. It can work.

Claims (4)

A first heating wire made of a wire rod having a constant resistance and generating heat by supply of power; An inner insulation layer surrounding the first heating wire and insulating the heating wire; A sensor wire wound spirally on an outer circumference of the inner insulation layer and sensing a heating temperature; A second heating wire spirally wound on an outer circumference of the inner insulation layer, one end of which is connected to the first heating wire and generates heat by supply of power; An electromagnetic shielding layer surrounding the sensor wire and the second heating wire and shielding electromagnetic waves generated from the heating wire; And an outer insulation layer surrounding the electromagnetic shielding layer and formed on an outer circumference of the electromagnetic shielding layer. The method according to claim 1, Electromagnetic waves with a temperature sensor, characterized in that further comprising a core having a heat resistance and installed in the direction of the central axis of the inner insulating layer and the first heating wire is spiral in the outer circumferential surface of the core material and wound in the same direction as the second heating wire Shield heating wire. The method according to claim 1, The first heating wire is a heating wire for electromagnetic shielding with a built-in temperature sensor, characterized in that installed in a straight line along the direction of the central axis of the inner insulating layer. The method according to any one of claims 1 to 3, The material of the electromagnetic shielding layer is a heating wire for electromagnetic shielding with a built-in temperature sensor, characterized in that carbon (carbon) is contained in the polyethylene.

Images