KR100985792B1 - sealing structure of warm pipe with electric wire and the system - Google Patents

Abstract

The present invention seals the both ends of the hot water pipe constituting the electric boiler to the end of the heat-sealed hot water pipe to prevent damage to the end of the hot water pipe and leakage of the heat medium when the heat medium filled in the hot water pipe is heated and expanded and It relates to a heat transfer hot water pipe system capable of stable operation by connecting the heat transfer hot water pipes having such a structure in parallel; A hot water pipe having a heating wire filled with a heating medium and heated when electric power is supplied through an electric wire, wherein a connection part electrically connected to an end of the heating wire and an end of the electric wire is located inside an end of the hot water pipe. An electrothermal hot water pipe, characterized in that the first cylindrical sealing member is inserted into an end portion of the hot water pipe; Heat transfer is characterized in that the heating medium is filled with a plurality of hot water pipes are provided in parallel with a heating wire to be connected to the wire, and the node is connected to the main power line for supplying power to the electric wire exposed at both ends of the hot water pipe Provide a hot water pipe system.

Heating cable, hot water pipe, electric wire, heating wire, silicone, adhesive

Description

End sealing structure of electrothermal hot water pipe and electrothermal hot water pipe system {sealing structure of warm pipe with electric wire and the system}

1 is an exploded perspective view of an end closure device of a conventional heating wire insertion hot water pipe,

Figure 2 is a schematic diagram of an electric boiler using a conventional common heating wire insertion hot water pipe,

3 is an exploded perspective view illustrating the end sealing structure of the heat transfer hot water pipe according to the present invention;

(A), (b) and (c) of FIG. 4 are combined cross-sectional views of one end of the hot water pipe shown to explain embodiments of the end sealing structure of the heat transfer hot water pipe according to the present invention.

5 is a view showing an electrothermal hot water pipe system according to the present invention,

6 is another embodiment of an electrothermal hot water pipe system according to the present invention.

*** Description of the symbols for the main parts of the drawings ***

100: hot water pipe 110: heating wire

110a: connection section 120: electric wire

130: heat medium 140: first sealing member

150: filler 160: second sealing member

170: first pressing member 180: second pressing member

190: cover body 200: main power line

210: T-shaped cover 220: control panel

The present invention relates to an end sealing structure and a heat transfer hot water pipe system of the heat transfer hot water pipe, and more particularly, when the heat medium filled in the hot water pipe is sealed by sealing both ends of the hot water pipe constituting the electric boiler. The present invention relates to an end-sealing structure of a heat-transfer hot water pipe capable of preventing end breakage and leakage of a heat medium, and a heat-transfer hot water pipe system capable of stable operation by connecting a heat-transfer hot water pipe having such a structure in parallel.

In general, a hot water pipe is installed on the floor of a building for heating. The hot water is mainly provided with a hot water boiler for circulating hot water to induce heating, a heating wire inside the hot water pipe, and injects a heat medium therein, There is an electric boiler having a closed device for preventing leakage of the heat medium at both ends thereof, and a finishing treatment. When electric power is supplied to the heating wire, the heating wire is heated to raise the temperature of the heat medium to induce heating.

In this case, in the case of the hot water boiler, the pressure inside the hot water pipe is not high due to the water circulating into the hot water pipe, so that hot water may be prevented from leaking even if the end of the hot water pipe is properly closed.

However, in the case of the electric boiler, the heat medium is injected and sealed inside the hot water pipe, so the heat medium is expanded by the heating of the heating wire and the pressure applied to the end of the sealed hot water pipe is high, so the sealing treatment at the end is very important.

One example of such an electric boiler sealing device is that the coated heating wire 2 is inserted into the entire length of the heating hot water pipe 1 as shown in FIG. 1, and both ends 1a of the hot water pipe 1 are inserted. The tubular portion 3a of the floc 3 on which the through hole 3d is formed is brought into contact with each other, and the elastic silicone stopper 4 through which the coated heating wire 2 of the hot water pipe 1 passes through the through hole 4h is flaked ( (3) of the central concave portion (3b) of the central concave portion (3b) and insert the screw portion (5a) of the crown nut (5) to the screw portion (3e) of the plug (3) to the outside of the leak prevention function and heating wire It is configured to maintain a fixed function.

However, since the heating wire 2 inside the hot water pipe 1 is installed through the through hole 4h of the silicone stopper 4, the heating wire 2 is exposed to the outside, and the power is supplied to the heating wire 2 exposed to the outside. In order to supply the power, the power supply wire 7 forms the connection portion 7a by soldering or the like.

Therefore, when power is supplied through the electric wire 7 due to the structure in which the end of the heating wire 2 is exposed to the outside of the hot water pipe 1, the heating wire 2 is heated to heat the exposed portion of the heating wire 2. There is a risk of fire.

In addition, when the heating wire 2 is heated, the silicone stopper 4 causes a shape deformation by heat, and there is a problem in that the heat medium leaks into the edge of the silicone stopper 4 or the gap of the through hole 4h.

On the other hand, such a hot water pipe (1) is installed in a zigzag method of one hot water pipe (1) as shown in Figure 2 by operating the control panel 9 by a configuration in which both ends of the power supply to control the power supply When the heating wire 2 is heated, the heat medium 6 inside the hot water pipe 1 is expanded as a whole, and as a result, the longer the length of the hot water pipe 1 is, the both ends 1a of the hot water pipe 1 are heated. The pressure applied to the silicone stopper 4 provided in the) increases, which also increases the risk of leakage of the heat medium 6.

In addition, when the closure of the silicone stopper 4 is certain, a part of the hot water pipe made of a synthetic resin material such as PVC may burst, and the heating wire 2 located inside the hot water pipe 1 may be a hot water pipe 1. When it comes into contact with the inner wall of the hot water pipes directly heat the hot water pipes have a risk of melting.

In addition, the electric boiler consisting of a single hot water pipe as described above also had a problem in that the operation of the boiler was impossible when a short circuit of the heating wire and a part of the hot water pipe were leaked or broken.

Therefore, the present invention has been made to solve these problems, the present invention is not exposed to the outside of the hot water pipe is provided only on the inside there is no fear of fire even if the power is supplied through the wire, the hot water pipe finish portion An object of the present invention is to provide an end closure structure of a heat transfer hot water pipe that completely prevents leakage of heat medium.

In addition, the present invention, even if the heating wire is heated by using a plurality of hot water pipes to reduce the internal pressure when the heat medium inside the hot water tube is expanded to reduce the risk of leakage of the heat medium, the heating wire provided inside the hot water pipe is the inner wall of the hot water pipe The purpose of the present invention is to provide a heat transfer hot water pipe system that can be stably operated by preventing heat from being directly applied to the hot water pipe by being in non-contact.

The present invention for achieving the above object relates to the end sealing structure of the heat transfer hot water pipe; A hot water pipe having a heating wire filled with a heating medium and heated when electric power is supplied through an electric wire, wherein a connection part electrically connected to an end of the heating wire and an end of the electric wire is located inside an end of the hot water pipe. The first cylindrical sealing member is inserted into the end portion of the hot water pipe.

Here, the coating material is formed on the outside of the connection portion.

And, the first sealing member is characterized in that the circular silicone rubber is formed with a first through-hole in the center.

In addition, the first pressing member is fastened to the outer side of the end portion of the hot water pipe in the state where the first sealing member is inserted.

And, the rear end of the first sealing member is characterized in that for further injecting silicon filler.

In addition, the rear end of the filler is characterized in that the second sealing member is further inserted into the second through-hole is formed.

The second pressurizing member is further fastened to an outer side of the end portion of the hot water pipe into which the second sealing member is inserted.

In addition, the waterproof cover body is further covered on the outside of the end portion of the hot water pipe.

And, the hot water pipe is characterized in that the date (-) type or citron (U) type.

In addition, the inner space of the hot water pipe is characterized in that the interval maintenance is installed.

The present invention relates to an electrothermal hot water pipe system; It is characterized in that the heating medium is filled with a plurality of hot water pipes are provided in parallel with a heating wire to which the wires are connected, the node is connected to the main power line for supplying power to the wires exposed at both ends of the hot water pipes.

Here, inside the end portion of the hot water pipe, a connection portion in which an end portion of the heating wire and an end portion of the electric wire are electrically located is located, and the cylindrical first sealing member through which the electric wire passes, the silicon filler, and the second sealing member in turn It is characterized by being inserted.

And, the T-type cover is further provided on the outer side of the node connection portion of the wire exposed to the end of the main power line and the hot water pipe.

Hereinafter, with reference to the accompanying drawings, the end sealing structure and the electrothermal hot water pipe system of the electrothermal hot water pipe according to the present invention will be understood by the embodiments described in detail below.

At this time, Figure 3 is an exploded perspective view illustrating the end sealing structure of the heat transfer hot water pipe according to the present invention, Figure 4 (a), (b), (c) is an end of the heat transfer hot water pipe according to the present invention Joined cross-sectional view of one end of the hot water pipe shown to explain embodiments of the sealed structure, Figure 5 is a view showing a heat transfer hot water pipe system according to the present invention.

First, according to Figures 3 and 4 (a), (b), (c) of the end sealing structure of the heat transfer hot water pipe according to the present invention is a hot water pipe 100 is installed on the bottom surface of the building in the heating medium electric boiler The connection part 110a is formed in both ends of the heating wire 110 and the wire 120 for supplying power to form an electrical connection state.

Accordingly, the heating wire 110 is located inside the hot water pipe 100 to form a sealed structure with the outside, so that the heating medium 110 filled in the hot water pipe 100 is heated to receive a power supply, thereby increasing its volume. Even if it is expanded, the heating wire 110 is not in direct contact with the finishing portion to block the heat medium 130 leak through the hot water pipe 100 end.

Looking at the end-sealing structure of the heat transfer hot water pipe according to the present invention, the hot water pipe 100 is made of a straight (-) type inside the coated heating wire 110 is the length of the hot water pipe 100 It is installed in a long direction, and both ends of the heating wire 110, the ends of the coated wire (120) to form the connection portion (110a) by soldering or the like method.

Of course, the connection part 110a may have a heat medium directly contacting the connection part 110a and may cause a short circuit. Therefore, the waterproofing part 110a may be formed of a separate coating material 112 such as silicone or a shrink tube for waterproofing. It is natural to envelop the outside.

Therefore, only exposed wires 120 are exposed to each end of the hot water pipe 100.

Both ends of the hot water pipe 100 is inserted into the cylindrical first sealing member 140 through which the wire 120 passes first to form a basic sealed configuration. In this way, the heat medium inside the hot water pipe 100 can be prevented from leaking.

For example, the hot water pipe 100 may use an inner diameter of 15 mm, and the first sealing member 140 may use a diameter of about 18 mm, which is relatively larger than 15 mm, the inner diameter of the hot water pipe 100. And, the length is to be sealed by using about 20-30mm.

In this case, the first sealing member 140 may be modified in various sizes and diameters.

Then, the first pressing member 170 is fastened to the outer circumference of the hot water pipe 100 at the portion where the first sealing member 140 is inserted.

Thereafter, after the filler 150 is injected into the rear end of the first sealing member 140, the cylindrical second sealing member 160 is finally inserted, and the second sealing member 160 is inserted therein. The outer periphery of the hot water pipe 100 by fastening the second pressure member 180 to more completely block the leakage of the heat medium 130 inside the hot water pipe 100.

The first and second pressurizing members 170 and 180 are the end portions of the first and second sealing members 140 and 160 by the internal pressure when the heat medium 130 inside the hot water pipe 100 expands. It is to prevent the separation and departure from the force with a stronger force.

Of course, such a structure is the hot water pipe 100 is both ends of the same finish and thus made of the same structure.

Hereinafter, the respective components of the embodiments of the sealed structure of the electrothermal hot water pipe according to the present invention will be described in more detail.

First, the first sealing member 140 is made of a silicone rubber material, the cross section is made of a circular shape and a first through-hole 142 through which the wire 120 is penetrated.

At this time, the first sealing member 140 is used in that the diameter is relatively large compared to the outer diameter of the hot water pipe 100 and is forcibly pressed into the end of the hot water pipe 100 by a force fitting method.

The first sealing member 140 is primarily such that the electric wire 120 connected to the end of the heating wire 110 positioned inside the hot water pipe 100 is not penetrated to contact the inner wall of the hot water pipe 100. The sealing function is to be able to prevent the leakage of the hot water pipe (100).

In addition, the sealing force is improved by fastening the metal ring-shaped first pressing member 170 to the outside of the end portion of the hot water pipe 100 in the state where the first sealing member 140 is inserted.

The first pressurizing member 170 prevents the first sealing member 140 from being separated in the hot water pipe end direction by an increase in pressure due to the temperature increase of the heat medium 130 inside the hot water pipe 100, and the heat medium. It also serves to primarily prevent leakage of the 130.

On the other hand, after the first sealing member 140 is inserted into the end portion of the hot water pipe 100, the heat medium 130 inside the hot water pipe 100 passes through the edge or wire of the first sealing member 140. In order to completely block leakage through the minute gap of the first through hole 142, the filler 150, such as liquid silicone, is injected into the rear end of the first sealing member 140 to be cured.

Then, after the filler 150 is injected, the same structure as that of the first sealing member 140, that is, made of a silicone rubber material, and the cross section is made circular and the wire 120 penetrates in the center thereof. The second sealing member 160 in which the second through hole 162 is formed is press-fitted.

In addition, the metal ring-shaped second pressing member 180 is fastened to the outer side of the end portion of the hot water pipe 100 while the second sealing member 160 is inserted.

At this time, the second pressing member 180 prevents the second sealing member 160 from being separated in the direction of the end of the hot water pipe by the increase in pressure due to the temperature increase of the heat medium 130, and prevents leakage of the heat medium 130. It will function more reliably.

In this way, after the second sealing member 160 and the second pressing member 180 is fastened, the outside is entirely covered by a cover body 190 such as a known shrink tube or rubber stopper which is contracted by heat. Will be overwritten.

Here, the first sealing member 140 and the second sealing member 160 are all made of the same silicone rubber material, or one side of the first sealing member 140 and the second sealing member 160 is a silicone rubber material The other side may be made of a PVC material, and any material for sealing the other end may be used.

In addition, the first pressurizing member 170 and the second pressurizing member 180 may be formed using a metal ring shape, but the band, tie wrap, etc. of the first sealing member 140 and the second sealing member 160 may be used. Even if pressurized from the outside, the sealing force can be improved.

In addition, in order to prevent the heating wire 110 from being in contact with the inner wall of the hot water pipe 100 so that the hot water pipe 100 is locally heated and damaged, the heating wire 110 has a constant distance from the inner wall of the hot water pipe 100. The spacing holding portion 105 is installed at appropriate intervals inside the hot water pipe 100 to maintain the spacing.

On the other hand, Figure 5 is a view showing to explain the heat transfer hot water pipe system according to the present invention, a plurality of hot water pipes 100 will be used.

The hot water pipe 100 is formed in a straight (-) shape, the end of which is the cylindrical first sealing member 140 through which the wire 120 is passed, as mentioned in FIGS. 3 and 4 is a hot water pipe ( The first sealing member 140 is first inserted into the end of the container 100, and the filler 150 is injected into the rear end thereof. Then, the second sealing member 160 of the cylindrical shape is finally inserted into the inside of the hot water pipe 100. The heat medium 130 is configured to block leakage.

When the system is configured using a plurality of hot water pipes 100 divided as described above, the heat medium of each hot water pipe 100 is compared with an electrothermal hot water pipe system composed of a single hot water pipe 100. The internal pressure due to the heating of the 130 is relatively lowered so that the pressure applied to the end of the hot water pipe 100 is reduced to prevent the heat medium 130 from leaking.

That is, the heat transfer hot water pipe system according to the present invention is a structure in which the heating medium 130 is filled in the hot water pipe 100 disposed on the bottom and the wire 120 is connected to both ends of the heating wire 110 and inserted therein. The hot water pipes 100 are arranged in parallel while maintaining a predetermined interval, and the wires 120 exposed at both ends of the hot water pipes are connected to the node to the main power line 200.

At this time, the node connection portion 200a of the wire 120 exposed to the ends of the main power line 200 and the hot water pipe 100 is protected by the T-type cover 210 to protect the wire 120 from the main power line 200. ) To prevent separation.

According to such a structure, when the power is branched through the main power line 200 and the plurality of wires 120 by the control of the control panel 220, the heating wire 110 inside the hot water pipe 100 is heated and thus As a result, the temperature of the heat medium 130 is increased.

In this case, the volume expansion due to the temperature rise of the heat medium 130 and the internal pressure caused by the temperature increase of the heat medium 130 are relatively lower than in the case of using a conventional hot water pipe, thereby preventing the end of the hot water pipe 100 from being damaged. It is possible to prevent the leakage of the heat medium 130 due to.

In particular, through the configuration in which a plurality of hot water pipes 100 are connected in parallel to install the hot water pipes 100, even if one of the hot water pipes 100 is not driven due to damage or failure, the adjacent hot water pipes operate normally so that the stable boiler operation. This becomes possible.

6 is a view for explaining another embodiment of the electrothermal hot water pipe system according to the present invention, the same as the configuration using a plurality of (-) type hot water pipe 100, the hot water pipe 100 is Arranged in the shape of a citron (U), it can be applied to the case that it is difficult to connect the node 120 to the main power line 200 from both sides as shown in Figure 5 wires 120 connected to both ends of the hot water pipe 100 is disposed on the floor In this configuration, the wires 120 connected to both ends of the hot water pipe 100 are connected to nodes at one side.

Electrothermal hot water pipe system according to the present invention as described above can be arranged in a number (-) type or citron (U) type of a plurality of hot water pipes, by selecting a suitable structure according to the state of the floor surface to be excreted You can install it.

Although the preferred embodiment of the present invention has been described above, the scope of the present invention is not limited thereto, and the scope of the present invention extends to the scope of the present invention to be substantially equivalent to the embodiment of the present invention. Various modifications can be made by those skilled in the art without departing from the scope of the present invention.

As can be seen from the above description, according to the present invention, since the heating wire is installed inside the hot water pipe without being exposed to the outside of the hot water pipe, there is no fear of fire due to the heating wire exposure, and the wire is disposed at the end of the hot water pipe. Since it is supported, the heat is not directly applied, thereby preventing the leakage of the heat medium due to deformation of the hot water pipe finish.

In addition, such a hot water pipe is made of a straight or Yuja type, and by installing a large number in parallel, even if the heat medium inside the hot water pipe is expanded, the pressure inside the hot water pipe is relatively lower than when configured as a single hot water pipe. There is also an effect of minimizing the risk of leakage of the heat medium, and the heating wire inside the hot water pipe does not contact the inner wall of the hot water pipe to prevent deformation of the hot water pipe caused by direct heating of the heating wire to the hot water pipe.

In addition, since a plurality of hot water pipes are arranged in parallel and the power is turned on, even if any hot water pipe is not driven due to breakage or failure, the adjacent hot water pipes operate normally to provide stable heating. It also works.

Claims (14)

In the hot water pipe is provided with a heating wire is filled with a heating medium and heated when the power is supplied through the wire, Inside the end portion of the hot water pipe, a connection part in which an end of the heating wire and an end of the electric wire are electrically located is located, and a cylindrical first sealing member through which the electric wire is penetrated is inserted into an end of the hot water pipe, and the first sealing is performed. An end closure structure of the heat transfer hot water pipe, characterized in that the silicone filler is injected into the rear end of the member. The end closure structure of a heat transfer hot water pipe according to claim 1, wherein a covering material is formed outside the connection portion. The end closure structure of an electrothermal hot water pipe according to claim 1, wherein the first sealing member is a circular silicone rubber having a first through hole formed in a center thereof. The end closure structure of an electrothermal hot water pipe according to claim 1, wherein the first pressurizing member is fastened to an outer side of the end of the hot water pipe in the state where the first sealing member is inserted. delete The end closure structure of the heat transfer hot water pipe according to claim 1, wherein a second sealing member having a second through hole is further inserted into a rear end of the filler. 7. The end closure structure of an electrothermal hot water pipe according to claim 6, wherein the second pressing member is further fastened to an outer side of an end portion of the hot water pipe into which the second sealing member is inserted. The end closure structure of the heat exchanger hot water pipe | tube of Claim 1 in which the waterproof cover body is further covered by the outer side of the end part of the said hot water pipe. 2. The end closure structure of an electrothermal hot water pipe according to claim 1, wherein the hot water pipe is a straight (-) type. 2. The end closure structure of an electrothermal hot water pipe according to claim 1, wherein the hot water pipe is a citron type. 11. The end closure structure of an electrothermal hot water pipe according to any one of claims 1 to 10, wherein a gap retaining hole is provided inside the hot water pipe. It is made by connecting a plurality of hot water pipes in parallel with the heating wires filled with the heating medium and the heating wires connected to the wires, and connecting the wires exposed to both ends of the hot water pipes to the main power wires for supplying power. Inside the end portion of the hot water pipe, a connection portion in which an end portion of the heating wire and an end portion of the electric wire are electrically located is located, and a cylindrical first sealing member through which the electric wire passes, a silicon filler, and a second sealing member are sequentially inserted. Electrothermal hot water pipe system, characterized in that. delete 13. The electrothermal hot water pipe system according to claim 12, wherein a T-type cover is further provided on an outer side of the node connection part of the electric wire exposed to the end of the main power line and the hot water pipe.

Images