KR200175704Y1 - A structure of calorifacitent power line for electric floor covered with laminated paper - Google Patents

Abstract

The present invention relates to an electric heating wire used for electric field plate, electric yoke, electric mat, etc., the first roll of the rolled alloy wire or annular alloy wire to the core part is first coated with an insulator and then rolled again on the outer surface A heating wire secondary wound with a wire or an annular alloy wire and secondary coated with an insulator; One side of the heating wire is provided with a wire parallel to the longitudinal direction of the heating wire and the outer surface of the covering surface of the electric wire is integrally connected to the outer surface of the covering in a state spaced between about 1 to 2mm;

A plurality of bimetals are installed at regular intervals on a wire provided parallel to one side of the heating wire, and a sensor is installed at the center to sense the temperature of the heating wire. Even if the upper and lower sheets of the electric plate are separated, the bimetal is not separated from the heating wire. Since it is always close to the hot wire and fixed to the wire, when the temperature is detected by the temperature sensor, if it exceeds the set temperature, it is automatically cut off to prevent over current, and in particular, the hot wire and the wire are wired side by side without overlapping. The present invention relates to a heating wire arrangement and heating wire structure designed to prevent short and contact failures from occurring.

Description

Heating wire layout and heating wire structure for electric blanket {A STRUCTURE OF CALORIFACITENT POWER LINE FOR ELECTRIC FLOOR COVERED WITH LAMINATED PAPER}

The present invention relates to an electric heating wire which is wired to an electric field plate, an electric yoke, an electric mat, etc., and covers a heating wire and an electric wire wound with primary and secondary alloy wires with respective insulating coatings, and the heating wire coating and the electric wire coating are about 1 to 2 mm. Form an electric heating wire so that the sheaths are connected in parallel and spaced at intervals, and then connect a plurality of bimetals to the electric wires when wiring them to the electric plate to prevent overheating, and to prevent the wires and the hot wires from overlapping each other and generating flow. The present invention relates to a heating wire arrangement and heating wire structure designed to prevent short and contact defects from occurring in the wiring.

Conventionally, a bimetal and a sensor are installed between wiring wires after wiring with heating wires to prevent overheating. However, as shown in FIG. 3, one end of the heating wire 200 is connected to the connector 600. After being grounded on one side of the power terminal pin and zigzag-wired on the floor plate 500, the other end is connected to the other power terminal pin to generate heat from the heating wire when the power is applied, and close to the heating wire in order to block overheating from the heating wire. A plurality of bimetals 400 are directly connected to wires at regular intervals, and then one side of the wires 300 to which the bimetals 400 are connected are grounded to one side of the heating wires zigzag-wired, and the temperature sensing sensor is located at the center of the heating wires. After installing the 800, the upper and lower sheets of the electric sheet 500 are fixed by adhesive bonding, but the electric field sheet 500 constructed in this way is an electric field in use. As the upper and lower sheets forming the plurality of sheets fall apart from each other, the plurality of bimetals 400 and the central temperature sensor 800 which are directly connected to the wires are moved at regular intervals, thereby moving away from the heating wires. (800) is first detected and the bimetal 400 must be operated, but often due to the disadvantage that the bimetal 400 is operated before the temperature sensor is operated, the function of the temperature controller provided on one side of the connector 600 becomes meaningless and overheated. There is a risk of fire due to, and in particular, since the wires connecting the bimetal 400 connected to the wiring wires 200 are overlapped so that the hot wires and the wires are short and the contact point is depressed when the electric sheet 500 is used. There was a problem that occurred.

The present invention has been made to solve the above problems, the primary winding of the rolled alloy wire or annular alloy wire to the core part and first coated with an insulator and then rolled again on the outer surface of the alloy wire or annular A heating wire made by secondary winding with an alloy wire and secondary coating with an insulator; One side of the heating wire is provided with a wire parallel to the longitudinal direction of the heating wire and the outer surface of the covering surface of the electric wire is integrally connected to the outer surface of the covering in a state spaced between about 1 to 2mm;

A plurality of bimetals are installed at regular intervals on a wire provided parallel to one side of the heating wire, and a sensor is installed at the center to sense the temperature of the heating wire. Even if the upper and lower sheets of the electric plate are separated, the bimetal is not separated from the heating wire. Since it is fixed to the wire so that it is always close to the hot wire, when the temperature is detected and the temperature rises above the set temperature, it is automatically cut off to prevent over current, and in particular, the wire and the wire are wired in parallel without overlapping. Electric heating wire is designed to prevent the heating wire from short and contact failure.

1 is a partially enlarged configuration diagram of a heating wire provided with a bimetal;

Figure 2 is an enlarged configuration of a portion of the heating wire of another embodiment of the present invention.

3 is an exemplary diagram in which a heating wire and a bimetal wire are wired in a conventional electric field plate.

<Description of Symbols for Main Parts in Drawings>

10,10 ': heating wire, 20,20': heating wire, 21: core part, 22,22 ': alloy wire,

23: 1st sheath, 24: 2nd sheath, 30: wire, 40: bimetal,

60: connector, 70: temperature sensor,

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

In a heating wire that can be used as a heating wire by wiring to an electric blanket, an electric mat, an electric mat, etc.

The rolled alloy wire or annular alloy wire 22 is primary winding to the core 21, and the primary coating 23 is made of an insulator, and then the rolled alloy wire or annular alloy wire 22 is rolled on its outer surface. Tea rolls Place the wire in the longitudinal direction on one side of the heating wire 20, which is made by heating the secondary coating 24 with an insulator again, so that the coating of the heating wire 20 and the secondary coating 24 and the wire 30 are at intervals of about 1 to 2 mm. A configuration of the electric heating line 10 which is spaced apart and the outer surface is integrally formed;

After installing a plurality of bimetals 40 on wires 30 formed on one side of the heating wire 20, one side of the primary and secondary alloy wires 22 of the heating wire 20 is connected to a power terminal pin of the connector 60. Each ground is applied to power, and the temperature sensor 70 is installed at the central portion of the wired electric plate to prevent overheating of the heating wire 10 together with the bimetal 40.

In another embodiment of the present invention, a rolled alloy wire or an annular alloy wire 22 'is first wound around the core 21, and then coated with an insulator, thereby extending the wire in the longitudinal direction on one side of the heating wire 20'. 30 is positioned so that the heating wire 20 'and the wire 30 are spaced at intervals of about 1 to 2 mm to form a heating line 10' integrally formed with an outer surface thereof.

The present invention constructed as described above firstly rolls the alloy wire or annular alloy wire rolled in the manufacture of the heating wire 20 to the core part made of polyester yarn having a diameter of Ø0.5 mm, and then covers an insulator of 0.6 mm or more on the outer surface thereof. Secondary winding of the rolled alloy wire (flattened form) or annular alloy wire, but the winding direction is the secondary winding in a 1/2 size interval in the direction opposite to the winding direction of the primary alloy wire 0.6mm The hot wire 20 is manufactured so that the resistance value of the primary alloy wire 22 and the secondary alloy wire 22 may be the same by covering the above insulator.

The heating wire 20 made as described above is used for electric sheet, electric yoke, electric mat, etc. Is used as an electric heating wire 10, but in order to effectively block overheating, the heating wire 20 is spaced by 1 to 2mm on one side and the outer surface is integrally connected and parallel to the wire 30 as shown in Figure 1 in the electric field plate 1 Installed as shown in FIG. 1 so that seven bimetals 40 are provided in the dog, and wired between the sheet of the electric sheet and the sheet, and the temperature sensor 70 is positioned between the electric heating wires 10 zigzag-wired in the center of the electric sheet. By connecting to the sensor terminal of the connector 60 to control the overall temperature of the electric blanket.

The rolled alloy wires or the annular alloy wires 22 wound in the primary and the secondary wires of the heating wires 20 are connected to the power terminal pins and the sensor terminals of the connector 60 so that power is applied. The power is conducted through the primary alloy wire 22 and the secondary alloy wire 22 wound around the core portion, thereby generating heat. At this time, the electromagnetic wave generated during heating generates a magnetic field due to the winding of the secondary alloy wire 22 on the outer surface of the primary alloy wire 22 so that electromagnetic waves can be reduced to a minimum. Use the alloy wire wound a little wider than the primary winding alloy wire so that the resistance value of the secondary alloy wire is the same, and the spacing of the winding is to maintain a pitch of at least 10 ~ 13 / cm than the primary winding spacing To form a heating wire.

In another embodiment of the present invention, a rolled alloy wire or an annular alloy wire 22 'is wound around the winding 21 of polyester yarn only once to form a heating wire 20', and the heating wire 20 ' 2) the heating wire 20 'is positioned at one side in a length direction, and the heating wire 20' and the wire 30 are spaced at intervals of about 1 to 2 mm to form a heating wire 20 'having an outer surface integrally. As such, by installing the bimetal 40 at regular intervals on the wire 30, it is possible to wire the heating wire 10 'such as an electric field plate, an electric yoke, an electric mat, and the like.

The present invention made in this way is formed integrally so that the heating wire coating and the wire coating parallel to the electric wire when using the electric plate, the wire is wired to the sheet together with the heating wire bimetal 40 is always installed in the wire is always hot wire 20 Since it is located in close proximity to the heating wire 20, the operation of the bimetal is made.

The present invention is because the bimetal 40 used to prevent overheating is installed directly on the wire at regular intervals, respectively, so that the wire and the hot wire connected to the bimetal do not cross each other, and the bimetal is flown in use and is far from the hot wire 20. The heating wire 10 is made so as not to fall.

When the heat generated in the electric heating wire 10 wired to the electric plate is raised above a predetermined temperature, the bimetal 40 operates by temporarily detecting the temperature sensor 70 installed at the center of the electric plate, and temporarily stops the heat transfer. When is lowered, the bimetal is contacted again to generate heat.

For reference, the bimetal 40 installed on the wires 30 of the heating wires 10 and 10 'of the present invention may be installed only when wiring to an electric field plate, an electric yoke, an electric mat, or the like, so that the heating wires 20 and 20' may be overheated. If this is to prevent this and to use safely, when using a heating wire provided with a heating wire and wire for other purposes, the bimetal can be selectively installed and used if necessary.

The present invention has a temperature sensor because a plurality of bimetals installed to prevent overheating of heating wires are not flown by placing wires side by side on one side of the heating wire so that the heating wire coating and the wire coating are integrally formed. There is no malfunction that occurs before the detection of the sensor.In particular, the heating wire and the bimetallic wires do not overlap each other when wiring between the sheet and the sheet of the electric blanket. It has the effect that the alignment of the electric heating wire that is not generated and wired well.

Claims (2)

In the heating wire 10 that can be used as a heater wire by wiring to an electric blanket, electric yoke, electric mat, etc., The primary winding of the rolled alloy wire 22 to the core 21, the primary coating (23) with an insulator, and then secondary winding with an alloy wire (22) rolled on the outer surface again to the secondary coating with an insulator ( 24) An electric heating wire having an outer surface integrally formed by placing an electric wire in the longitudinal direction on one side of the heated wire 20 so that the secondary coating 24 of the heating wire 20 and the coating of the wire 30 are spaced at intervals of about 1 to 2 mm. The configuration of 20; After installing a plurality of bimetals 40 on wires 30 formed on one side of the heating wire 20, one side of the primary and secondary alloy wires 22 of the heating wire 20 is connected to a power terminal pin of the connector 60. The ground wires are applied to each other, and the other ends of the heating wires 20 and the wires 30 are connected to the bimetal 40 and the temperature fuse 70 so that the heating wires 10 are wired to the electric plates, The temperature sensor 70 is installed in the center portion of the heating plate arrangement structure for the electric sheet, characterized in that the configuration to prevent the overheating of the heating wire 10 with the bimetal (40). After the primary winding of the rolled alloy wire or the annular alloy wire 22 'to the core 21, the wire 30 is positioned in the longitudinal direction on one side of the heating wire 20' which is coated with an insulator to heat the wire 20. ') Coating and electric wire 30 The heating wire structure for electric sheet, characterized in that the coating is spaced at intervals of about 1 to 2 mm to form a heating wire (10') formed integrally with the outer surface.