KR101913200B1 - Non-Magnetic Hot water Heating pipe device System - Google Patents

Abstract

The present invention relates to a hot water pipe into which a hot wire is inserted and, more specifically, relates to a non-magnetic hot wire finishing device of a hot water pipe to finish an end portion of a non-magnetic hot wire to offset an electromagnetic wave generated from two hot wires as the hot wires are twisted for non-magnetism. To achieve this, according to the present invention, a hot wire is inserted into a hot water pipe for heating, and both dead ends of the hot water pipe are sealed by a stopper. The hot wire penetrates into the stopper in any one end to be inserted into the hot water pipe, and two inserted hot wires are formed to be twisted. An end portion of the twisted hot wires is inserted into a housing to provide a connection unit electrically connected to each other, and further, is filled with a charging material for insulation at an internal side of the housing. The housing is formed to be fixated to the stopper at the other end.

Description

Technical Field [0001] The present invention relates to a non-magnetic hot water heating pipe device,

The present invention relates to a hot water pipe having a hot wire inserted therein, and more particularly, to a hot water pipe finishing apparatus for finishing the end of a hot water pipe for canceling electromagnetic waves generated from a hot wire by twisting two hot wires for a non- .

Generally, dry and wet type panels are used as electric-heated Ondol panels that heat the room by electric energy.

In a dual-type Ondol panel, a method of inserting a hot wire into a heating pipe is often used. In general, a heating medium pipe (a liquid having a high water or high thermal conductivity) is filled in a heating water pipe Both sides of the next heating water pipe are sealed and the hot wire is inserted into the inside of the hot water pipe.

Thus, when power is supplied to the hot wire, the heat is generated to heat the heating medium, thereby heating the hot water pipe to perform heating.

1 is a perspective view of a heating wire according to a first embodiment of the present invention; FIG. 2 is a perspective view of a heating wire according to a first embodiment of the present invention; A silicon hermetic seal 20, a pipe 30, and a muffler-type heating portion 40.

The heating wire 10 is for supplying electricity to the mercury heating section 40 and the silicon sealing port 20 is for preventing the storage medium in the pipe 30 from flowing down. To store the heat storage medium.

The non-magnetic heating unit 40 is for receiving heat and transmitting heat to the heat storage medium. In the non-magnetic heating unit 40, the two heating lines are doubly twisted so that the magnetic fields generated in the respective heating lines And is formed so as to disappear.

In this state, when the power is supplied through the heating wire 10, the pipe 30 is connected to the pipe 30, And the heated heat is transferred to the heat storage medium to prevent the emission of harmful electromagnetic waves to the human body while heating is performed.

However, since the twisted end of the twisted heater 40 is positioned at the inner side of the pipe 30 to be twisted, The condition can be easily solved.

As a result, the electromagnetic wave can be easily released due to the free state of the electromagnetic wave, resulting in a very unfavorable human body.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a hot water pipe finishing device for a hot water pipe, in which an end of a hot wire is fixed to a cap of a hot water pipe, in order to stably maintain a twisted state of two hot wires.

In order to accomplish the above object, according to the present invention, there is provided a zero-

A hot water pipe in which a hot wire is inserted into a heating hot water pipe and both ends of the hot water pipe are sealed by a stopper,

The hot wire is inserted into the hot water pipe through one end of the stopper and the two inserted hot wires are twisted to each other and the ends of the twisted hot wires are drawn into the housing and electrically connected to each other And the housing is filled with a filler for insulation, and the housing is fixed to the cap at the other end.

The present invention is advantageous in that the twisted state of the hot wire is stably maintained inside the hot water tube, thereby preventing the loss of the non-magnetic function and thereby preventing the emission of harmful electromagnetic waves to the human body.

FIG. 1 is a view showing a structure of a hot water pipe in which a conventional non-magnetic hot wire is inserted. FIG.
2 is a view showing the structure of a non-magnetic hot wire finishing apparatus of a hot water pipe according to the present invention.
3 is a view showing a structure of a housing;
4 is a view for explaining a process of closing the ends of the non-magnetic hot wire;

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

FIG. 2 is a cross-sectional view showing the joint structure of the present invention, in which two hot wires 120 and 121 are inserted into a hot water tube 100 filled with a heating medium in a twisted state, And a crown nut 150 is positioned outside the one end of the hot water pipe 100. The crown nut 150 is fastened with the flock 170 containing the hermetic material 110 and is tightly sealed .

The hermetic material 110 accommodated in the inside of the flock 170 is integrated by compression injection in a state where the heat wires 120 and 121 and the power source wire 130 are connected by the connection member 140. The heat wires 120 and 121 are non- They are twisted together for the system.

One end of each of the heat lines 120 and 121 is connected to the power line 130. A connection member 140 in the form of a metal ring is attached to the connection portion of the heat lines 120 and 121. By pressing the connection member 140, (130) are electrically connected while being fixed to each other.

The stopper 110 is made of a silicone material and is formed by integrally compressing and injecting while receiving a connection portion between the heat wires 120 and 121 and the power line 130 at the time of molding.

In addition, the connecting portion where the metallic member 140 is mounted has a protruding shape protruding outward, thereby preventing the heat lines 120 and 121 and the power line 130 from being separated from the hermetic member 110.

That is, the heat wires 120 and 121 and the power source wire 130 are fixed without being detached from the plug 110 unless the gas tight material 110 is damaged.

The crown nut 180 and the flock 190 are fastened to the other end of the hot water pipe 100 to maintain airtightness.

The finishing portion 200 is fixed to the inside of the flock 190 and the end of the twisted heat rays 120 and 121 is drawn into the finishing portion 200. The hermetically sealed state is obtained from the hot water tube 100 filled with the heating medium I have.

3, a cylindrical housing 210 having an open upper portion is provided as a material such as a synthetic resin material, a metal material, silicon, epoxy, or urethane, and the housing 210 And inlet holes 212 and 213 for drawing the two heat lines 120 and 121 into the inner space 211, respectively, are formed in the bottom portion.

4 is a view showing a process of closing the ends of the heat wires 120 and 121 inside the housing 210. The heat wires 120 and 121 are drawn into the housing 210 through the inlet holes 212 and 213 as shown in FIG. And then the ends thereof are electrically connected by a connection portion 220 such as a compression ring or a composite terminal.

A filler 240 such as a gel type epoxy, urethane or silicone bond is filled in the space portion 211 of the housing 210 as shown in (b), and then the opening 210 of the housing 210 The plug 230 is covered with the plug 230. When the plug 230 is pressed by external force, the filler 240 is compressed and the plug 220 is sealed.

At this time, the filler 240 is pushed to the inside of the inlet holes 212 and 213 by the pressing force, and the inlet holes 212 and 213 are filled up to the space between the hot wires 120 and 121 to be further airtight.

Therefore, the electrically connected connection unit 220 is closed from the inside of the hot water pipe 100 while maintaining a completely hermetic state.

The housing 210 having the ends of the hot wires 120 and 121 closed is press-fitted into the inner side of the flats 190 at the other end to be fitted and fixed so that the twisted state of the hot wires 120 and 121 can be stably maintained.

The crown nut 150 is first fitted to the outside of the hot water pipe 100 and then the ring shaped catch 160 having the threaded portion 161 is inserted into the hot water pipe 100, So that the crown nut 150 is prevented from being detached from the hot water pipe 100.

Thereafter, the heating wires 120 and 121 and the power source wire 130 are embedded, and the compressed and injected airtight material 110 is inserted into the inside of the plug 170 so that the power source wire 130 is exposed to the outside through the recessed portion 172 The hot wires 120 and 121 are inserted into the hot water pipe 100 and then the threaded portion 151 of the crown nut 150 and the threaded portion 171 of the flange 170 are fastened and fixed to each other.

At this time, the pipe contacting part 175 formed at the end of the flock 170 is sandwiched between the hot water pipe 100 and the hermetic sealing material 110 to stably fix the hermetic sealing material 110. On the outer side of the hermetic sealing material 110 The multi-stepped stepped portions 111 and 112 are formed and caught by the jaw portions 173 and 174 inside the flock 170 to prevent the escape.

As a result, the airtightness is increased by compressing and injecting the hermetic sealing material 110, the heating wire 120 and the power supply wire 130 integrally to prevent water in the hot water pipe 100 from being lost by water leakage, Thereby preventing damage to the heating wire 120 and the hot water pipe 100 due to the prevention of overheating.

The ends of the two heating wires 120 and 121 are twisted together and the ends of the two heating wires 120 and 121 are drawn into the housing 210 as described above to thereby airtighten and then the crown nut 180 is fixed to the other end of the hot water tube 100, The housing 210 is press-fitted into the crown nut 180 and fastened to the crown nut 180 in this state.

100: Hot water pipe
120,121:
180: Crown nut
190: Flux
200:
210: Housing
211:
212, 213: Incoming ball
220: Connection
230: cover
240: Filler

Claims (3)

A hot water pipe in which a hot wire is inserted into a heating hot water pipe and both ends of the hot water pipe are sealed by a stopper,
The hot wire is inserted into the hot water pipe through one end of the stopper and the two inserted hot wires are twisted to each other and the ends of the twisted hot wires are drawn into the housing and electrically connected to each other The housing has a connection part, a filler for insulation is filled in the inside of the housing, and the housing is fixed to a cap at the other end,
Wherein a bottom portion of the housing is provided with an inlet hole for introducing the two hot wires respectively and the filling material filled in the housing is compressed by the pressure externally applied to tighten the connecting portion. Unmanned hot wire finishing device.
delete [2] The apparatus according to claim 1, wherein the housing is formed as a cylinder having an open upper side, and a pressure is externally applied to the lid in a state that the lid is covered with the open part of the housing after the filling is filled, Of the hot water pipe.

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