KR200396018Y1 - Heating wire with electric wave shield device and overheating prevention device in electric heating apparatus - Google Patents

Abstract

The present invention relates to a hot wire structure of an electric heating apparatus having an electromagnetic shielding means and an overheating prevention means; The purpose of the present invention is to provide a heating structure of an electric heating device that blocks or reduces harmful electromagnetic waves generated from a heating device used for a long time and prevents damage to a pipe due to overheating.

The present invention for achieving the above object is a control box (2) connected to an external power source, the pipe (4) and the one end side is installed on the floor and the wall and the heat storage material (3) is injected inside, the control box (2) Is connected to the other end of the pipe and the heating wire which is embedded in the pipe 4 and connected to the other end of the wire 5 to heat the heat storage material 3. 30, a sealing means 10 coupled to both end sides of the pipe 4, respectively, and one end side connected to the control box 2, and the other end side is in contact with the surface of the pipe 4, In the electric heating device (1) having a temperature sensing line (6) for sensing the temperature, the first sealing means 11 on one side of the pipe (4) is a wire entry sealing structure through which the wire is inserted, The second sealing means 12 on the other side is formed of a completely sealed structure which is grounded as a conductor; The wire 5 has a double-coated structure, in which both + and-wires are introduced through the first sealing means 11 of the pipe 4, and the-wires of the wires 5 in the heat storage material 3. The -heating wire 32 to be connected is covered with a primary coating 21 made of Teflon, and the + heating wire 31 connecting the outer circumference of the coated -heating wire 32 to the + wire of the wire 5 is thinly stranded. The electromagnetic shielding means (20) comprising a heating wire (30) covered with a secondary coating (22) made of silicon and wound spirally and covered with a third coating (23) made of polyester rubber. Become; The heating wire 30 is extended to the other side is provided with overheat prevention means 40 is connected to the + line and-line in the bimetal 41 fixed to the second sealing means 12, generated from the heating device used for a long time The technical gist of the electric heating device is to block or reduce harmful electromagnetic waves and prevent damage to the pipe due to overheating.

Description

HEATING WIRE WITH ELECTRIC WAVE SHIELD DEVICE AND OVERHEATING PREVENTION DEVICE IN ELECTRIC HEATING APPARATUS}

The present invention relates to a heating wire structure of an electric heating device having an electromagnetic shielding means and an overheating prevention means, and more specifically, the harmful heat generated from a heating device used for a long time by forming a spiral twist structure by double + heating wire and-heating wire. The present invention relates to a heating structure of an electric heating device that blocks or reduces electromagnetic waves and includes a bimetal to prevent breakage of a pipe due to overheating.

In general, the heating device (HEATING APPARATUS) is composed of a boiler for burning oil or gas and a metal or PVC pipe circulating the water heated by the heat of combustion generated in the boiler.

However, the conventional heating apparatus as described above uses expensive oil or gas as a fuel, thus increasing the economical burden on the user due to the high heating cost, and also requires an expensive boiler for burning fuel such as oil or gas. It has to be equipped economically a lot of burden.

In addition, since a space for installing a boiler having a predetermined volume should be provided, not only an installation place is limited, but also a large amount of heat loss occurs because the heating water is circulated because the high density water is heated, and the heated water is circulated. There was a problem.

It was developed to solve the above disadvantages, 'electric heating boiler using heat storage material', which is generally installed in the control box (2) and the floor and the wall connected to an external power source and the heat storage material (3) inside The pipe 4 to be injected, one end side is connected to the control box 2 and the other end side is an electric wire 5 inserted into the pipe, and the electric wire 5 is embedded in the pipe 4. A heating wire 30 connected to the other end of the heating wire 30 for heating the heat storage material 3, a sealing means 10 coupled to both ends of the pipe 4 to be sealed, and one end of the control box 2. ) And the other end side is composed of a temperature sensing line 6 which contacts the surface of the pipe 4 and senses temperature.

The electric heating boiler using the heat storage material may be welded with a stopper and the pipe at high frequency to seal the inside of the pipe, or may be sealed with a sealed structure such as the Utility Model Registration No. 0281433 of the applicant.

In addition, the sealing means 10 of the Utility Model Registration No. 0281433 has a sealed structure in which both ends of the pipe 4 can be sealed, and at the same time, the electric wire 5 penetrating the center can be inserted therein.

However, as described above, the electric heating boiler using the heat storage material has a very excellent efficiency in terms of thermal efficiency as compared with the conventional heating apparatus, but since the heating wire is inserted into the pipe to heat the heat storage material, There is a problem that the user is very close to the harmful electromagnetic waves generated by the current for a long time, especially during bedtime is affected.

In general, electromagnetic waves refer to wave energy generated by the movement of electrons, and are divided into ELECTRIC FIELD WAVE and MAGNETIC FIELD WAVE, and are exposed to long-term or strong electromagnetic waves for breast cancer, uterine cancer, miscarriage and premature birth. Increasing incidence of low birth rate, sperm count, etc. has been reported continuously. Blocking harmful electromagnetic wave (EMF) has become a very important issue in the manufacture of electronic products.

In addition, XL pipes (crosslinked polyethylene pipes), which are mainly used in electric heating boilers, should be used below the maximum allowable temperature of 85 ° C. Heating by heating wire is generated at the center of heat storage material. The temperature sensing unit is in contact with the outer surface of the pipe, there is a problem that there is a risk of safety accident and breakage due to insufficient detection of the internal temperature due to the deviation.

The present invention is devised to solve such a conventional problem, it provides a hot wire structure of the electric heating device to block or reduce harmful electromagnetic waves generated from the heating device used for a long time, and to prevent the damage of the pipe due to overheating. The purpose.

The present invention for achieving the above object is a control box (2) connected to an external power source, the pipe (4) and the one end side is installed on the floor and wall and the heat storage material (3) inside, the control box ( 2) is connected to the other end of the wire 5 is inserted into the inside of the pipe, the heating wire which is embedded in the pipe (4) and connected to the other end of the wire (5) to heat the heat storage material (3) 30, a sealing means 10 coupled to both ends of the pipe 4, respectively, and closed, one end of which is connected to the control box 2, and the other end of the pipe 4 contacts the surface of the pipe 4; In the electric heating device (1) having a temperature sensing line (6) for sensing the temperature, the first sealing means 11 on one side of the pipe (4) is a wire entry sealing structure through which the wire is inserted , The second sealing means 12 of the other side is formed of a completely sealed structure that is grounded as a conductor He said; The wire 5 has a double-coated structure, in which both + and-wires are introduced through the first sealing means 11 of the pipe 4, and the-wires of the wires 5 in the heat storage material 3. The -heating wire 32 to be connected is covered with a primary coating 21 made of Teflon, and the + heating wire 31 connecting the outer circumference of the coated -heating wire 32 to the + wire of the wire 5 is thinly stranded. The electromagnetic shielding means (20) comprising a heating wire (30) covered with a secondary coating (22) made of silicon and wound spirally and covered with a third coating (23) made of polyester rubber. Become; The heating wire 30 is extended to the other side is provided with overheat prevention means 40 is connected to the + line and-line in the bimetal 41 fixed to the second sealing means 12, generated from the heating device used for a long time The object is achieved by providing a heating structure of an electric heating device that blocks or reduces harmful electromagnetic waves and prevents damage to a pipe due to overheating.

In addition, the heating wire 30 is a heating wire 32 is connected to the + wire of the wire-and the heating wire 32 that connects the outer periphery of the center 33 made of Teflon in the heat storage material (3) and the wire ( Another embodiment is also preferred in which 31) is spirally wound at predetermined intervals and covered with a secondary coating 22 made of silicon and covered around a tertiary coating 23 made of polyester rubber.

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

First, Figure 1 is a schematic diagram showing the overall structure of the electric heating apparatus to which the present invention is applied, Figure 2 is a partial detailed view showing the hot wire structure of Example 1 to which the present invention is applied, Figure 3 is a second embodiment of the present invention Figure 4 is a partial detailed view showing a hot wire structure, Figure 4 is a partial detailed view showing a cross-sectional view of the heating wire structure of Figure 2, Figure 5 is a full perspective view of an embodiment to which the present invention is applied.

The electric heating device 1 of the present invention is one side of the first sealing means 11 of the wire insertion sealing structure, the other side of the sealing means 10 consisting of a second sealing means 12 having a complete sealing structure, and the spiral An electromagnetic wave shielding means (20) comprising a heating wire (30) made of a double-wire structure having a twist and a ground of the heating wire (30) formed of the triple coating (21, 22, 23) and the second sealing means (12), The overheat prevention means 40 which consists of a bimetal 41 connected to the other end side of the heating wire 30 is comprised.

The sealing means 10 improves the conventional sealing structure capable of inserting the electric wire into which the electric wire 5 penetrating the center is sealed while sealing both ends of the pipe 4 shown in the Utility Model Registration No. 0281433 of the applicant. Thus, the first sealing means 11 on one side of the pipe 4 is a wire insertion sealing structure through which the electric wire is inserted, and the second sealing means 12 on the other side is formed in a completely sealed structure made of a conductor. The second sealing means 12 of the other side made of a conductor is grounded to the floor and transmits an electric wave of harmful electromagnetic waves in the ground, thereby becoming an element of the electromagnetic shielding means 20.

For this reason, the leakage possibility is reduced to 50% by reducing the sealing means 10 which has a leaky wire insertion structure to one.

In addition, the first embodiment of the heating wire 30 of the electromagnetic shielding means 20 is a double-wire structure is coated so that both the + line and the-line of the wire 5 is the first sealing means of the one side of the pipe ( 11, which is introduced through 11 and connected to the -wire of the wire 5 in the heat storage material 3, is covered with a primary coating 21 made of Teflon, and of the coated -heat wire 32. + Heating wire 31 connecting the outer circumference with the + wire of the electric wire 5 is divided into thin strands, spirally wound, and covered with a secondary coating 22 made of silicon, and around the tertiary made of polyester rubber It consists of a helical double wire structure covered with the coating 23 and a triple coating. Of course, it is also included in the scope of the present invention that the position of the -heating line 32 and the + heating line 31 is changed.

In addition, the second embodiment of the heating wire 30 connects the outer circumference of the center 33 made of Teflon in the heat storage material 3 with the heating wire 32 and the + wire of the wire connected to the-wire of the wire 5. + Spiral wire 31 which is wound in a spiral spaced at predetermined intervals and covered with a secondary coating 22 made of silicon, and a helical double wire structure coated with a tertiary coating 23 made of polyester rubber, and 3 It is also preferable to consist of a heavy coating.

The overheat prevention means 40 is connected to the + wire and the-wire in the bimetal 41 fixed to the second sealing means 12 by extending the heating wire 30 having the structure as described above to the other side, the pipe ( 4) has a structure in which the power is automatically cut off by the bimetal 41 to be used below the maximum allowable temperature.

Hereinafter, the present invention will be described in detail through examples.

First, the heating wire 30 having a spiral twist and triple coating of the electromagnetic shielding means 20 of the present invention is prepared.

Embodiment 1 of the heating wire 30 is a + heating wire covering the heating wire 32 with a primary coating 21 made of Teflon and connecting the outer circumference of the coated heating wire 32 to the + wire of the electric wire 5. (31) is divided into thin strands, spirally wound, and covered with a secondary coating (22) made of silicon, and the circumference is prepared by coating a third coating (23) made of polyester rubber.

In addition, the second embodiment is wound around the outer periphery of the center 33 made of Teflon and wound together in a spiral spaced apart by a predetermined interval-the heating wire 32 and the + heating wire 31 with a silicon secondary coating 22 made of silicon It is prepared by covering the circumference with a tertiary coating (23) made of polyester rubber.

The heating wire 30 manufactured by one of the above methods is used.

One side of the electric wire 5 is connected to the control box 2 to which the external power is applied to the control box 2 having a switch, and the other side penetrates the center of the first sealing means 11 having the wire entry structure. Is connected to the heating wire 30 and the connecting portion 50 inserted into the pipe 4 in the inside. At this time, both the + and-wires of the electric wire 5 are inserted into one side of the pipe 4 and connected to the + hot wire 31 and the-hot wire 32 of the hot wire 30 on one side of the pipe 4. The hot wire 30 inserted into the (4) is drawn out to the other side of the pipe 4 so that the + hot wire 31 and the-hot wire 32 are fixed to the center of the second sealing means 12 of the completely sealed structure ( 41).

In addition, one side of the temperature sensing wire 6 is connected to the control box 2 and the other side is in contact with the surface of the pipe 4.

Next, one side of the pipe 4 is completely sealed using the second sealing means 12, and the heat storage material 3 is inserted therein, and then the first sealing means 11 of the pipe 4 is closed. The installation of the present invention is completed by completely sealing the other side and grounding the second sealing means 12 made of a conductor to the floor.

Applying power to the electric heating device 1 of the present invention installed as described above and operating by operating the control box 2, the heating wire 30 is heated to heat the heat storage material (3) and the control box (2) When heated to a temperature set in the to cut off the power applied to the heating wire 30 in the control box (2) does not exceed the set temperature. However, if the heat storage material (3) and the pipe (4) is overheated beyond the maximum use temperature in the event of an accident, the bimetal 41 is fixed to the second sealing means 12 and connected to the heating wire 30 to operate the power supply. This prevents overheating and safety accidents.

In addition, when a power source is applied to the heating wire 30, electromagnetic waves are generated by the flowing current, and the generated magnetic field (MAGNETIC FIELD WAVE) has a property of being transferred to another region by electromagnetic radiation theory and wave characteristics. The phase difference between the wavelength of the magnetic field generated by the current flowing through the + heat wire 31 and the wavelength of the magnetic field generated by the −heat wire 32 cancels or decreases each other. Both Example 1 and Example 2 are used to extinguish or reduce the magnetic field waves in the same principle.

In addition, the ELECTRIC FIELD WAVE of the electromagnetic waves generated by the heating wire 30 is grounded through the second sealing means 12 that is a conductive material is extinguished.

As a result, the electromagnetic wave is extinguished or reduced to obtain the electromagnetic shielding effect, and has a function of preventing overheating by the bimetal.

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Effects of the present invention that can be expected by the configuration and action as described above are as follows.

It is a very useful design to block or reduce the harmful electromagnetic waves generated from the heating wire of the electric heating device used for a long time, prevent damage of the pipe due to overheating, high thermal efficiency, harmless to the human body and prevent safety accidents.

1 is a schematic view showing the overall structure of the electric heating apparatus to which the present invention is applied

Figure 2 is a partial detailed view showing the hot wire structure of Example 1 to which the present invention is applied

Figure 3 is a partial detailed view showing the hot wire structure of Example 2 to which the present invention is applied

4 is a partial detailed cross-sectional view showing the hot wire structure of FIG.

5 is an overall perspective view of an embodiment to which the present invention is applied

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

1: electric heating system 2: control box

3: heat storage material 4: pipe

5: wire 6: temperature sensing wire

10: sealing means 11: first sealing means

12: second sealing means 20: electromagnetic shielding means

21: primary coating 22: secondary coating

23: tertiary sheath 30: heating wire

31: + heating wire 32: -heating wire

33: center 40: overheat protection means

41: bimetal 50: connection part

Claims (2)

A control box 2 connected to an external power source, a pipe 4 installed on a floor and a wall, and into which a heat storage material 3 is injected, one end of which is connected to the control box 2 and the other end of which is connected to the control box 2. An electric wire 5 inserted into the pipe, a heating wire 30 embedded in the pipe 4 and connected to the other end of the electric wire 5 to heat the heat storage material 3, and the pipe 4 Sealing means (10) coupled to both ends of each end and sealed, and one end is connected to the control box (2) and the other end is in contact with the surface of the pipe (4) temperature sensing line for sensing the temperature ( In the electric heating device (1) having a 6), The first sealing means (11) of one side of the pipe (4) is a wire insertion sealing structure through which the electric wire is inserted, the second sealing means (12) of the other side is formed of a completely sealed structure to be grounded as a conductor; The wire 5 has a double-coated structure, in which both + and-wires are introduced through the first sealing means 11 of the pipe 4, and the-wires of the wires 5 in the heat storage material 3. The connecting -heating wire 32 is covered with a primary coating 21 made of Teflon, and the + heating wire 31 connecting the outer circumference of the coated -heating wire 32 with the + wire of the electric wire 5 is thinly stranded. The electromagnetic shielding means (20) consisting of a heating wire (30) covered with a secondary coating (22) made of silicon and wound tightly in spiral, and covered with a tertiary coating (23) made of polyester rubber. Provided; Electromagnetic shielding means characterized in that the heating wire 30 is extended to the other side and the overheat prevention means 40 is connected to the + line and-line in the bimetal 41 fixed to the second sealing means 12 and Heated wire structure of electric heating apparatus with overheat prevention means. The method of claim 1, The heating wire 30 is a heating wire 32 that connects the outer circumference of the center 33 made of Teflon in the heat storage material 3 with the-wire of the wire 5 and the + heating wire 31 connected with the + wire of the wire. Electromagnetic shielding means and overheating prevention means characterized in that it is wound in a spiral spaced at predetermined intervals and covered with a secondary coating 22 made of silicon, and covered with a tertiary coating 23 made of polyester rubber. Heat wire structure of electric heating apparatus having a.