KR20120050619A - Insertion apparatus of heating wire for hot water pipe - Google Patents

Abstract

PURPOSE: A device for inserting an electric heating wire of a hot water pipe is provided to optimize the heating efficiency by electric heating wires through inserting the electric heating wires easily with only water pressures. CONSTITUTION: A device for inserting an electric heating wire of a hot water pipe(H) comprises a guide of the electric heating wire(200), a discharging inflow pipe(300), a delivering inflow pipe(400), a withdrawing member of an electric heating wire(600), a first intermittent valves, a second intermittent valves, a third intermittent valves, and a forth intermittent valve. When water is circulated forward the hot water pipe by high-pressures generated from a high pressure pump(P), the electric heating wire is transferred inside the pipes. As internal water pressures of the pipe is directly delivered to a water pressure receiving portion of the withdrawing member of an electric heating wire, the electric heating wire is transferred inside the pipes. When the withdrawing member of an electric heating wire is transferred to the discharging inflow pipe, the device for inserting an electric heating wire of a hot water pipe is separated from the hot water pipe.

Description

Insertion apparatus for hot water pipes {Insertion apparatus of heating wire for hot water pipe}

The present invention relates to a heating wire inserting device of a hot water pipe, and more particularly, by removing the scale inside the hot water pipe through a scale brush, the heating wire can be inserted quickly and easily using only the water pressure inside the hot water pipe in a clean state. Maximizes heating efficiency by changing heating by replacing heating wire, and can be used semi-permanently because there is no damage such as freezing and corrosion of hot water pipe, and construction cost is reduced due to simple construction, and energy saving The present invention relates to a heating wire insertion station of a hot water pipe that can help the national industrial development and the home economy.

The heating of a building is generally formed by heating a water by a boiler that burns fuel to generate heat to produce hot water, and circulates the produced hot water through a hot water pipe into the building to enable heating.

However, the hot water circulates in such a hot water pipe, which causes considerable heat loss before reaching a place in the building to be heated. The heat efficiency is not high, and when the heating is stopped in winter, the hot water is rapidly cooled and frozen. It is often the case. In addition, due to the hot water in the hot water pipes, the scale is generated inside the hot water pipes, or corrosion occurs, resulting in a limited service life.

Therefore, by adopting the heating method by heating wire instead of the hot water circulation in the conventional hot water pipe, the heat loss is low, high thermal efficiency and energy saving, and the lifespan due to freezing, scale, corrosion, etc. by not using hot water Can be prevented.

However, the apparatus for inserting a heating wire into the conventional hot water pipe simply drains the hot water from the hot water pipe, and then inserts the heating wire. The method is a ball-shaped inductor connected with the heating wire to the inside of the hot water pipe through pumping of a pump. It is configured to insert a heating wire into the hot water pipe.

Inserting the heating wire into the conventional hot water pipe is frequently stopped in the middle of the hot water pipe due to the curved portion of the hot water pipe installed by bending the ball-shaped induction in the hot water pipe, friction and curve with the inner surface of the hot water pipe. Is generated. In particular, the ball-shaped inductor does not pass smoothly in the distorted or curved part due to the external factors of the hot water pipe, and the insertion of the heating wire is frequently interrupted in the middle of the hot water pipe, increasing the construction time. There is a problem that the construction cost increases.

In addition, when the ball-shaped induction in the middle portion of the hot water pipe does not move in the stop state, there is a very troublesome problem of stopping pumping of the pump and extracting some inserted heating wires from the hot water pipe and reinserting it from the beginning.

In addition, the conventional heating wire inserting device does not remove the scale formed inside the hot water pipe, so that the ball-shaped induction machine does not move smoothly in the pipe, and does not achieve the heating efficiency as expected by replacing the heating wire due to the scale. There was a problem.

Therefore, the present invention has been created to solve the problems described above, by removing the scale inside the hot water pipe through the scale brush, the heating wire can be easily inserted only by the water pressure to maximize the heating efficiency by the heating wire, It can be used semi-permanently because there is no damage such as freezing and corrosion, and it is easy to install, which saves construction cost transferred to consumers, and inserts heating wires of hot water pipes that can help national industrial development and home economy through energy saving. The object is to provide a device.

In order to achieve the above object, the heating wire inserting device of the hot water pipe according to the present invention is a heating wire inserting device for inserting the heating wire (E) into the hot water pipe (H) for heating, in the shape of a housing to accommodate the water therein A water supply tank 100 having a heat wire insertion hole 110 and a water supply hole 120 formed at a bottom surface thereof; A heating wire guide 200 which is watertightly coupled to the heating wire insertion hole 110 of the water supply tank 100 and provided with the heating wire E being straightened and inserted therein; A high pressure pump (P) provided with a suction part and a discharge part to suction and discharge water introduced from the water supply tank 100; The first connection part is coupled to the water supply hole 120 long in the longitudinal direction directly under the same axis, connected to the suction part side of the high-pressure pump (P) to one side of the outer circumference, and fastened to the other end of the hot water pipe (H) A discharge inlet pipe 300 having a “ㅓ” shape formed by 310; The hot wire insertion hole 110 and the same coaxial line lengthwise pipe lengthwise, the outer circumferential other side is connected to the outlet side of the high-pressure pump (P), drain drain 420 is formed on one side of the outer circumference , An inflow pipe 400 having a “ㅏ” shape formed of a second connection part 410 fastened to one end of the hot water pipe H; A first intermittent valve connected between the water supply hole 120 and the discharge inlet pipe 300 to control the inflow rate of water through the water supply hole 120 of the water supply tank 100 and to control the inflow of water; V1); Pipe coupled between the high pressure pump (P) and the discharge inlet pipe 400, the water discharged from the high pressure pump (P) is sent to the discharge inlet pipe 400 coupled to the other end of the hot water pipe (H). A second intermittent valve (V2) for controlling to be controlled; One end is connected between the second intermittent valve (V2) and the high pressure pump (P), the other end is connected to the end outer peripheral side of the discharge inlet pipe 300 is coupled to the other end of the hot water pipe (H) is A backflow pipe 500 connected to the pipe so that the water discharged in accordance with the control of the second control valve V2 is discharged to the discharge inlet pipe 300; A third intermittent valve (V3) which is operated opposite to the second intermittent valve (V2) at one end of the counter flow pipe (500) to regulate the flow of water discharged from the high pressure pump (P); The other end of the backflow pipe 500 is connected between the discharge inlet pipe 300 and the first intermittent valve V1 connected to each other, the same operation as the second intermittent valve V2, and the high pressure pump P A fourth intermittent valve (V4) for regulating the forward and backward flow of water discharged from the; It is coupled to one end of the heating wire (E) inserted through the heating wire guide 200, the heating wire withdrawal member 600 is forward and forward transported in the tube by the water pressure according to the forward and reverse flow of the high-pressure pump (P); It is done.

Here, the heating wire guide 200 is formed in the "T" shape of the heating wire head 202 having a male screw in one end; A heating wire guide shaft 204 formed at the other end and extending directly under the same axis as the heating head 202; And a heating wire guide hole 206 formed to penetrate through the heating shaft head 202 from the outside of the heating head head 202 to one end on the axis of the guide shaft 204 and to straighten the inserted heating wire E.

On the other hand, the heating wire lead-out member 600 is formed in a hollow "tt" shape is formed inside the hydraulic receiving portion 602 formed in the upper end to be directly received by the hydraulic pressure; A guide fixing head part 604 formed to minimize the buoyancy and resistance in the water when the tube is reduced in diameter to the other end of the hydraulic receiving part 602; Hanging wire 606 is provided so that one end of the heating wire (E) is fastened so that the heating wire lead-out member is transported in the tube by the water pressure; The wedge-shaped pressing plate 608 is coupled to the guide fixed head portion 604, and provided to be engaged by pressing from the outside to be fixedly coupled to one end of the hook line 606.

The present invention removes the scale inside the hot water pipe through the scale brush, and can easily insert the heating wire with only water pressure to maximize the heating efficiency by the heating wire, there is no damage such as freezing, corrosion, etc. can be used semi-permanently. In addition, the construction cost is reduced to the consumer because it is easy to construct, and there is an effect that can help the national industrial development and the home economy through energy saving.

1 is a side view of the installation of the hot water pipe heating wire insertion apparatus according to the present invention.
Figure 2 is a perspective view of the heating wire guide of the hot water pipe heating wire insertion apparatus according to the present invention.
Figure 3 is an enlarged cross-sectional view of the main portion of the heating element lead member of the hot water heating element insertion apparatus according to the present invention.
Figure 4 is an enlarged side cross-sectional view of the main portion when the heating wire insertion of the hot water pipe heating wire insertion apparatus according to the present invention.
5 and 6 are side cross-sectional views showing the operating state according to the forward and reverse flow of water when the heating wire insertion of the hot water pipe heating wire inserting apparatus according to the present invention.

With reference to the accompanying drawings, an embodiment of a heating wire inserting apparatus of a hot water pipe according to the present invention will be described in detail in order to achieve the effect by the above problem solving means.

1 is an overall installation side view of the hot water pipe heating wire inserting apparatus according to the present invention, Figure 2 is a perspective view of the heating wire guide of the hot water pipe heating wire inserting apparatus according to the present invention, Figure 3 is a hot water pipe heating wire inserting apparatus according to the present invention An enlarged cross-sectional view of the main part of the heating wire lead-out member, Figure 4 is an enlarged side cross-sectional view of the main part when the heating wire insertion of the hot water pipe heating wire inserting apparatus according to the present invention, Figures 5 and 6 This is a side cross-sectional view showing the operating state according to the forward and reverse flow of water.

The hot water pipe heating wire inserting device of the present invention circulates the hot water heated by conventional water to the hot water pipe (H) and heat exchange is generated through the hot water circulated to thereby significantly reduce the heat loss according to the existing heating method of heating through this. By significantly lowering heat loss, energy savings are realized, and heating wires (E) are replaced with hot water pipes (H) to eliminate the shortening of life due to corrosion, scale, and damage caused by existing heating methods. As it is easy to replace the heating method that can be inserted into the semi-permanent use and maintenance costs can be significantly reduced, as shown in Figure 1, the water supply tank 100, the heating wire guide 200, the discharge inlet pipe 300, The delivery inflow pipe 400, the backflow pipe 500, the heating wire lead-out member 600, and the first, second, third, fourth intermittent valve (V1, V2, V3, V4).

The water supply tank 100 is to store and supply water to generate the required water pressure into the hot water pipe (H), it is formed in a rectangular box shape so that the water is accommodated therein. Then, the hot wire insertion hole 110 and the water supply hole 120 are formed on the bottom surface of the rectangular box, respectively. Here, the hot wire insertion hole 110 is screwed so that the heating wire guide 200 to be described later is watertight, the water supply hole 120 is accommodated in the water supply tank 100 to reach a predetermined water pressure into the hot water pipe (H) It is formed to supply water.

The heating wire guide 200 is formed in a "T" shape is watertightly coupled to the heating wire insertion hole 110 of the water supply tank 100 described above, when the heating wire (E) is inserted into the hot water pipe (H), the heating wire is The heating wire (E) is bent so as to be straightened and inserted to minimize the interference on the inner circumference of the hot water pipe (H) and is formed to prevent the pressure drop in the tube due to the heating wire insertion, as shown in Figure 2 and 4, The heating wire guide 200 is formed of the heating wire head 202, the heating wire guide shaft 204, the heating wire guide hole 206.

The heating wire head 202 is watertight to the heat wire insertion hole 110 is formed with a male screw to be screwed. Here, when the high heat pressure in the tube is generated by the high-pressure pump (P) to be described later, the heating wire head 202 is maintained as it is without losing the water pressure of the entire heating pipe insertion device tube in accordance with the insertion of the heating wire in the hot water pipe (H) It is to keep the air tight so that the water circulates at a certain pressure.

The heating wire guide shaft 204 is formed at the other end of the heating wire guide 200, and is formed to have an optimal length to which the bent heating heat spreads, and extends directly under the same axis as the heating wire head 202. Here, when the length of the heating wire guide shaft 204 is formed short, the heating wire guide hole 206, which will be described later, is shortly formed so that the bent heating wire E is not properly unfolded and transferred into the hot water pipe H, and thus the inner circumferential edge of the hot water pipe. This causes interference, which causes difficulty in performing a smooth heating wire insertion process.

The heating wire guide hole 206 is formed so that the curved heating wire is straightened, and is formed through the heating shaft head 202 from the outside of the guide shaft 204 to one end on the axis line. Here, the heating wire guide hole 206 is preferably formed to correspond to the thickness of the heating wire. That is, only the thickness of the heating wire should correspond to the maximum water pressure drop generated inside the hot water pipe heating wire inserting device can be prevented.

On the other hand, as shown in Figure 1, the high-pressure pump (P) is introduced into the water through the above-described water supply hole 120 and sent to high pressure, discharge inlet pipe 300 and the discharge inlet pipe 400 to be described later Positioned between the discharge inlet pipe 300 and the discharge inlet pipe 400 to perform the role of cross-linking and water is circulated at high pressure. Here, the high pressure pump (P) is provided with a suction portion and the discharge portion to suck out the water introduced from the water supply tank 100 in a conventional configuration.

The discharge inlet pipe 300 is formed in a "ㅓ" shape. Here, the upper end of the discharge inlet pipe 300 is coupled to the water supply hole 120 in the longitudinal direction directly under the same axis. Then, the outer peripheral side is connected to the suction side of the high pressure pump (P). In addition, the lower end is formed with a first connection portion 310 is fastened to the other end of the hot water pipe (H).

The discharge inlet pipe 400 is formed in a "ㅏ" shape, it is formed in a shape facing the discharge inlet pipe 300 described above. Here, the upper end of the delivery inlet pipe 400 is coupled to the hot wire insertion hole 110 in the longitudinal direction directly under the same axis. And, the other side of the outer circumference is connected to the sending side of the high pressure pump (P). In addition, a drain drain 420 is formed at one side of the outer circumference, and a lower end thereof has a second connection part 410 fastened to one end of the hot water pipe H.

The first intermittent valve V1 controls the inflow rate of water through the water supply hole 120 of the water supply tank 100, and controls the water supply hole 120 and the discharge inlet pipe 300 to control the incoming water. It is connected between.

The second check valve (V2) is coupled between the high pressure pump (P) and the discharge inlet pipe 400, the water discharged from the high pressure pump (P) is coupled to the other end side of the hot water pipe (H). It is connected to the pipe to be controlled to control the transmission inlet pipe 400.

When the heating wire E is caught in the hot water pipe H in the process of inserting the heating wire E into the hot water pipe H, the backflow pipe 500 reversely reverses the flow of water circulating in the hot water pipe H. It is formed to release the heating wire (E) caught in the hot water pipe (H), one end is connected between the second control valve (V2) and the high-pressure pump (P), the other end of the hot water pipe (H) It is connected to the other end and the outer circumferential side of the discharge inlet pipe 300 is fastened so that the water discharged in accordance with the control of the second control valve (V2) is sent to the discharge inlet pipe (300) side.

The third intermittent valve V3 is connected to the reverse flow pipe 500 at one end thereof so as to be operated opposite to the second intermittent valve V2 to regulate the flow of water discharged from the high pressure pump P.

The fourth control valve V4 is connected between the discharge inlet pipe 300 and the first control valve V1 having the other end connected to the back flow pipe 500, and the second control valve V2. The same operation at the same time is connected to the pipe to interrupt the forward and reverse flow of water from the high-pressure pump (P).

The heating wire lead-out member 600 is a heating wire (E) is formed in a "tt" shape hollowed out so that the inside is easily inserted to receive the water pressure evenly into the hot water pipe (H), the heating wire inserted through the heating wire guide 200 It is coupled to one end of (E), and forward and backward transport in the pipe by the water pressure according to the forward and reverse flow of the high-pressure pump (P). Here, the heating wire lead-out member 600, as shown in Figures 3 and 4, the hydraulic receiving portion 602, guide fixing head portion 604, hook line 606, wedge-shaped pressing plate 608 Is formed.

The water pressure receiving unit 602 is a hemispherical shape corresponding to the inner diameter of the hot water pipe (H) so as to receive the water pressure of the water sent out at high pressure by the high pressure pump (P) directly and smoothly transferred in the pipe of the hot water pipe (H). It is formed at the upper end in the form of a dish. That is, it is formed so as to reduce the time that the heating wire (E) is inserted into the hot water pipe (H) is transferred to the tube at the fastest time by receiving the maximum pressure generated in the tube is formed in the plate shape.

The guide fixing head part 604 is formed by reducing the diameter to the other end of the water pressure receiving part 602 described above, and is formed so as to minimize buoyancy and resistance in the water filled in the pipe during transport of the hot water pipe (H). . Here, the guide fixing head portion 604 is shown in a cylindrical shape in the form of reduced diameter than the hydraulic receiving portion 602, but includes a structural form that minimizes buoyancy and resistance in the water, such as conical, hemispherical.

The hanger 606 is provided to be transported in the same pipe as the heating wire drawing member 600 is transferred to the heating wire (E), the heating wire drawing member to be transferred in the pipe together with the heating wire drawing member by the water pressure in the pipe (E) One end is formed in a ring shape provided to be fixed. Here, the hanger 606 is preferably used to have excellent tensile strength, such as fishing line, fire resistance, excellent durability.

The wedge-shaped pressing plate 608 is coupled in the guide fixing head portion 604 to fix the hanger 606 in the guide fixing head portion 604. Here, when the wedge-shaped pressing plate 608 is coupled to the guide fixing head 604 inside and pressurized from the outside of the guide fixing head 604, the wedge-shaped pressing plate 608 is crushed to change shape. To interlock together. Through this, as the hook line 606 is fixed to the wedge-shaped pressing plate 608, one end of the hook line 606 is fixedly coupled.

As shown in FIG. 5, the apparatus for inserting a hot water pipe heating wire according to the configuration of the present invention includes a heating wire guide hole 206 of the heating wire guide 200 in order to insert the heating wire E into the hot water pipe H. Insert heating wire (E) and push it in. Thereafter, one end of the heating wire (E) exposed through the heating wire guide hole 206 is fastened to the hanger 606 of the heating wire lead-out member 600, and then the heating wire insertion hole 110 of the water supply tank 100 is fixed. The heating wire drawing member 600 coupled with the heating wire E is pushed into the delivery inlet pipe 400.

Next, the heating wire guide shaft 204 of the heating wire guide 200 is inserted into the pipe of the delivery inlet pipe 400 and the heating wire head 202 is screwed so that the heating wire insertion hole 110 is watertight.

Next, the water tank 100 is filled with water. Thereafter, the flow rate is adjusted while opening the first control valve V1 little by little, and the high pressure pump P is operated so that the water in the water supply tank 100 is sucked into the high pressure pump P through the first control valve V1. Inhaled by wealth. Thereafter, the water sucked by the high pressure pump (P) is sent while having a high water pressure to the delivery inlet pipe 400 through the delivery unit. At this time, the second control valve V2 is opened and the third control valve V3 is closed. Then, the fourth intermittent valve V4 is opened.

Next, when the water is circulated from the first supply tank 100 is filled with water so that the water can be sent to the water pressure of the high pressure in the pipe of the hot water pipe (H) and the discharge inlet pipe 400 and the discharge inlet pipe (300) The first control valve V1 is closed.

Therefore, when the water is circulated in the hot water pipe H at a high water pressure generated from the high pressure pump P through the opening and closing of the control valve, the heating wire E inserted through the heating wire guide 200 is inside the pipe. Will be transferred. At this time, the transfer of the heating wire (E) is transferred to the hydraulic receiving unit 602 of the heating wire lead-out member 600, the transfer wire directly transfers the transfer wire (E) is fixed to the hook line 606 in the pipe When the heating wire withdrawal member 600 is transferred from the discharge inlet pipe 400 to the discharge inlet pipe 300 through this, the heating wire E is also transferred along with the heating wire E completely in the hot water pipe H. As the insertion is completed, the hot water pipe heating wire inserting device and the hot water pipe (H) are separated. At this time, the hot water pipe (H) is separated through the release of the first connection portion 310 of the discharge inlet pipe 300 and the second connection portion 410 of the discharge inlet pipe (400).

Next, as shown in FIG. 6, when the heating wire drawing member 600 is transported in the hot water pipe H, when the tube catching phenomenon occurs, the second check valve V2 is closed and the third check valve ( V3) is opened and the fourth check valve V4 is closed. Therefore, the water discharged from the high pressure pump P by the control of the valve is reversely circulated to the hot water pipe (H) through the first connection portion 310 of the discharge inlet pipe (300) through the back flow pipe (500). do.

Due to this reverse circulation, the heating element lead member 600 caught in the hot water pipe H receives water pressure in a direction opposite to the initial traveling direction, thereby releasing the jam from the caught hot water pipe H, and again, the second intermittent valve. By opening (V2), closing the third check valve (V3), and opening the fourth check valve (V4) and forward circulation, the hot water pipe (H) smoothly through the repeated operation of opening and closing such valves It is possible to quickly insert the heating wire (E) in the construction.

In other words, as the heating wire insertion construction is made simple and fast according to the operation of the valve, the construction time is shortened, and thus the construction cost is reduced. It is obvious that construction can be achieved without dissatisfaction and the existing hot water pipe (H) can achieve semi-permanent heating effect without generating waste.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the present invention is not limited to the disclosed exemplary embodiments. Various changes and modifications may be made by those skilled in the art, The present invention is not limited thereto.

100: water supply tank 110: hot wire insertion hole
120: water supply hole 200: heating wire guide
202: heating wire head 204: heating wire guide shaft
206: heating wire guide 300: discharge inlet pipe
310: first connection part 400: transmission inlet pipe
410: second connection portion 420: drain drain
500: counter flow tube 600: heating wire drawing member
602: hydraulic receiving portion 604: guide fixing head
606: hanger 608: wedge-shaped pressing plate
H: Hot water pipe E: Heating wire
P: High pressure pump V1: 1st intermittent valve
V2: 2nd check valve V3: 3rd check valve
V4: 4th check valve

Claims (3)

In the heating wire inserting device for inserting the heating wire (E) in the hot water pipe (H) for heating,
A water supply tank 100 formed in a housing shape to accommodate water therein and having a hot wire insertion hole 110 and a water supply hole 120 formed on a bottom surface thereof;
A heating wire guide 200 which is watertightly coupled to the heating wire insertion hole 110 of the water supply tank 100 and provided with the heating wire E being straightened and inserted therein;
A high pressure pump (P) provided with a suction part and a discharge part to suction and discharge water introduced from the water supply tank 100;
The first connection part is coupled to the water supply hole 120 long in the longitudinal direction directly under the same axis, connected to the suction part side of the high-pressure pump (P) to one side of the outer circumference, and fastened to the other end of the hot water pipe (H) A discharge inlet pipe 300 having a “ㅓ” shape formed by 310;
The hot wire insertion hole 110 and the same coaxial line lengthwise pipe lengthwise, the outer circumferential other side is connected to the outlet side of the high-pressure pump (P), drain drain 420 is formed on one side of the outer circumference , An inflow pipe 400 having a “ㅏ” shape formed of a second connection part 410 fastened to one end of the hot water pipe H;
A first intermittent valve connected between the water supply hole 120 and the discharge inlet pipe 300 to control the inflow rate of water through the water supply hole 120 of the water supply tank 100 and to control the inflow of water; V1);
Pipe coupled between the high pressure pump (P) and the discharge inlet pipe 400, the water discharged from the high pressure pump (P) is sent to the discharge inlet pipe 400 coupled to the other end of the hot water pipe (H). A second intermittent valve (V2) for controlling to be controlled;
One end is connected between the second intermittent valve (V2) and the high pressure pump (P), the other end is connected to the end outer peripheral side of the discharge inlet pipe 300 is coupled to the other end of the hot water pipe (H) is A backflow pipe 500 connected to the pipe so that the water discharged in accordance with the control of the second control valve V2 is discharged to the discharge inlet pipe 300;
A third intermittent valve (V3) which is operated opposite to the second intermittent valve (V2) at one end of the counter flow pipe (500) to regulate the flow of water discharged from the high pressure pump (P);
The other end of the backflow pipe 500 is connected between the discharge inlet pipe 300 and the first intermittent valve V1 connected to each other, the same operation as the second intermittent valve V2, and the high pressure pump P A fourth intermittent valve (V4) for regulating the forward and backward flow of water discharged from the;
It is coupled to one end of the heating wire (E) inserted through the heating wire guide 200, the heating wire withdrawal member 600 is forward and forward transported in the tube by the water pressure according to the forward and reverse flow of the high-pressure pump (P); Heating wire insertion device of the hot water pipe.
The method of claim 1,
The heating wire guide 200 is formed in a "T" shape, the heating wire head 202 has a male screw in one end;
A heating wire guide shaft 204 formed at the other end and extending directly under the same axis as the heating head 202;
A heating wire guide hole 206 formed to penetrate through the heating shaft head 202 from one outside of the guide shaft 204 on the axis line and straighten the inserted heating wire E; Insertion device.
The method of claim 1,
The heating wire lead-out member 600 is formed in a hollow "tt" shape is formed inside the hydraulic receiving portion 602 formed at one end of the upper side to be directly received by the hydraulic pressure;
A guide fixing head part 604 formed to minimize the buoyancy and resistance in the water when the tube is reduced in diameter to the other end of the hydraulic receiving part 602;
Hanging wire 606 is provided so that one end of the heating wire (E) is fastened so that the heating wire lead-out member is transported in the tube by the water pressure;
Heated wire insertion of the hot water pipe, characterized in that formed in the guide fixing head portion 604, is provided with a pressurized from the outside to engage the wedge-shaped pressing plate 608 is fixedly coupled to the hanger 606 Device.

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