KR101570418B1 - Stainless steel corrugated pipe heating pipe - Google Patents

Abstract

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a stainless steel pipe for heating and cooling, and is capable of rapidly and clearly conducting heat conduction by a heater wire and effectively shielding electromagnetic waves generated in a heater wire.
That is, according to the present invention, in a heating pipe, a heater wire is internally provided inside a stainless steel pipe having high thermal conductivity.
Therefore, according to the present invention, since the heater wire is insulated and built in the inside of the stainless steel bellows pipe, the heat generated in the heater wire is uniformly transmitted through the high-tensile bellows pipe and the high electromagnetic wave is effectively cut off. And no short circuit caused by moisture and moisture inflow is caused.

Description

{Stainless steel corrugated pipe heating pipe}

The present invention relates to a stainless steel pipe, more particularly, to a heating pipe which is constructed by inserting a heater wire inside a stainless steel pipe having a high thermal conductivity so that heat conduction by the heater wire can be performed quickly and clearly, So that electromagnetic waves generated in the line can be effectively blocked.

In general, heating pipes allow floor heating in a residential culture where floor heating is predominant.

Most of the heating pipes as described above are constructed so that the hot water circulates in most of them.

As described above, there is a problem that the construction of the heating pipe in which the hot water is purified is required to install a boiler for heating the hot water.

On the other hand, the floor heating using electricity was performed by making heating panels wired with heating wires and heating panels manufactured on the floor.

Heater wires that generate heat by supplying power to the above-described heating panel are arranged in a staggered arrangement, or a carbon-coated heater film is laid on the heater panel.

However, in the conventional floor heating using electricity, the heat conduction by the heater wire is not smooth and the electromagnetic wave generated from the heater wire is not smoothly interrupted.

In addition, as described above, there is a problem that the heater wire used in the heating panel is easily damaged or short-circuited by an external force and causes leakage due to moisture or moisture introduced from the outside.

Korean Patent No. 0670394

As described above, according to the present invention, as described above, the heater wire used in the conventional electric heating has a problem that the heat transfer is not clearly made to the floor and the electromagnetic wave is not cut off clearly and is easily damaged by the external force, And the problem of short-circuiting due to moisture can be solved.

That is, according to the present invention, in a heating pipe, a heater wire is internally provided inside a stainless steel pipe having high thermal conductivity.

Therefore, according to the present invention, since the heater wire is insulated and built in the inside of the stainless steel bellows pipe, the heat generated in the heater wire is uniformly transmitted through the high-tensile bellows pipe and the high electromagnetic wave is effectively cut off. And no short circuit caused by moisture and moisture inflow is caused.

1 is an exploded perspective view showing an embodiment of the present invention;
Fig. 2 is an exemplary side view showing an embodiment of the present invention. Fig.
3 is a perspective view showing an embodiment of the present invention.
4 is a perspective view showing another embodiment of the present invention.

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

The present invention can improve clarity of heat conduction, electromagnetic wave shielding, durability and safety of leakage in floor heating using a heater wire.

That is, according to the present invention, in a heating pipe made up of a heater wire, a heater wire (20) is provided in an interior of a stainless steel pipe (10) having high thermal conductivity, And a storage unit 40 disposed between the heater wire 20 and the stainless steel pipe 10 so as to store heat generated in the heater wire 20, And both ends of the corrugated pipe 10 are provided with a finishing cap 11 which is closed to prevent inflow of water.

Here, the insulation embedding means is formed by forming an insulation coating layer 50 on the outer side of the heater wire 20 in a multi-layered structure.

The insulating coating layer 50 includes a highly flexible silicon layer 51 and a Teflon layer 52 formed on the outer side of the silicon layer 51 and an asbestos layer 53 formed on the outer side of the Teflon layer 52. [ And a covered silicon layer 54 formed on the outside of the asbestos layer 53.

The electromagnetic wave shielding layer 60 may be formed on the outer surface of the insulating coating layer 50.

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The electromagnetic wave cold layer 60 may include a silver foil layer 61 surrounding the outer surface of the insulating coating layer 50 and a metal mesh layer 62 surrounding the outer surface of the silver foil layer.

In addition, the heat storage unit 40 can be formed of at least one of loess and charcoal powder having a far-infrared ray radiating effect.

When the floor heating is performed by supplying power to the heat storage unit 40 after the installation, the heat storage resin can be mixed and configured so that the heat storage unit can be maintained without being deformed.

The heater wire 20 may be constructed by a double wire connected at the end of the stainless steel pipe 10 so that the electromagnetic wave generated at the heater wire 20 is interrupted at one end of the stainless steel pipe 10 It is.

Hereinafter, the application process of the present invention will be described.

As described above, in the heating pipe, the heater wire 20 is provided inside the stainless steel pipe 10 having high thermal conductivity by the insulation built-in means and the ground wire 30 for grounding the electromagnetic wave generated in the heater wire 20, And a heat storage unit 40 disposed between the heater wire 20 and the stainless steel pipe 10 to store heat generated in the heater wire. The both ends of the stainless steel pipe 10 are made of moisture The heat generated from the heater wire 20 is uniformly transmitted through the stainless steel pipe 10, and the heat generated by the heater wire 20 is uniformly transmitted through the stainless steel pipe 10, Heating is done quickly and uniformly.

The insulation embedding means is composed of a multilayer insulating coating layer 50 composed of the silicon layer 51, the Teflon layer 52 and the asbestos layer 53, whereby the insulation of the heater wire 20 is made clear and stable .

In addition, by forming the electromagnetic wave cold layer 60 composed of the vat layer 61 and the metal mesh layer 62 on the outer side of the insulating coating layer 50, the electromagnetic wave is blocked together with the stainless steel tube 10, .

In addition, if the heat storage unit 40 including at least one of the loess and charcoal powder is provided between the heater wire 20 and the stainless steel pipe 10, And promoting blood circulation by far-infrared rays emitted from the loess and charcoal during the heating process.

In addition, if the heat accumulating part 40 is formed by mixing thermosetting resin, if the heating is performed after the molding, the mold of the heat accumulating part 40 is held by the thermosetting resin so that deformation of the stamper corrugated tube 10 due to external force And the heater wire 20 is stably protected.

In addition, if the heater wire 20 is formed by a double wire so as to form a wire at one end of the stainless steel pipe 10, the wire can easily be constructed and can be shielded by the magnetic field canceling action of the heater wire 20, The effect is maximized.

10: Stencil tube 11: Finishing cap
20: heater wire
30: Ground wire
40:
50: insulated coating layer
51: silicon layer 52: Teflon layer 53: asbestos layer
54: Coated silicon layer
60: EMI shield layer
61: silver foil layer 62: metal mesh layer

Claims (5)

For heating pipes;
And a ground wire (30) for grounding the electromagnetic wave generated in the heater wire (20), wherein the heater wire (20) is provided inside the stainless steel bell pipe (10) A heat storage unit 40 is provided between the stainless steel pipe 20 and the stainless steel pipe 10 so as to store heat generated in the heater wire 20. Both ends of the stainless steel pipe 10 are closed to prevent water inflow A finishing cap 11 is provided,
The insulation embedding means is formed by forming an insulating coating layer (50) on the outer side of the heater wire (20)
The heat storage unit 40 is composed of at least one of loess and charcoal powder having a far-infrared ray radiating effect,
When the floor heating is performed by supplying power to the heat storage unit 40 after the installation, a thermosetting resin is mixed with the heat storage unit so that the heat storage unit can be maintained without being deformed,
The heater wire (20) is composed of a double wire connected at one end of a stainless steel tube (10) and connected at the end of a stainless steel tube (10) so that electromagnetic waves generated in the heater wire (20) Heating pipes.
The method of claim 1, further comprising:
The insulating coating layer 50 includes a highly flexible silicon layer 51 and a Teflon layer 52 formed on the outer side of the silicon layer 51 and an asbestos layer 53 formed on the outer side of the Teflon layer 52. [ And a covered silicon layer (54) formed on the outside of the asbestos layer (53).
The method of claim 1, further comprising:
Wherein the electromagnetic wave cold layer (60) is formed on the outer surface of the insulating coating layer (50).
4. The method of claim 3, further comprising:
Wherein the electromagnetic wave cold layer (60) is formed of a silver foil layer (61) surrounding the outer surface of the insulating coating layer (50) and a metal net layer (62) surrounding the outer surface of the silver foil layer (61).
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