KR20100128028A - Heating pipe for heating - Google Patents

Abstract

According to the present invention, a new type of heating structure capable of uniformly heating the entire surface of the pipe portion is integrally applied to the pipe portion, so that the entire surface of the pipe portion forms a uniform temperature, and thus a fluid flowing along the pipe portion A heating heating pipe is provided which can maintain a uniform temperature.

In the present invention, the pipe portion; An insulating material provided in the longitudinal direction of the pipe part while surrounding the surface circumference of the pipe part; A conductor disposed along the circumference of the insulating material and spaced apart from each other and disposed in the longitudinal direction of the pipe part; It is provided with a heating heating pipe consisting of; heating material is provided in the longitudinal direction of the insulating material while surrounding the surface circumference of the insulating material while the conductor is embedded.

Description

Heating pipe for heating {Heating Pipe}

The present invention relates to a heating heating pipe, and more particularly, a new type of heating structure capable of uniformly heating the entire surface of the pipe part is integrally applied to the pipe part so that the fluid flowing along the pipe part is uniform. It is to maintain the temperature.

When a liquid or gas flowing along a pipe (hereinafter referred to as a 'fluid') is required to maintain an appropriate temperature, the fluid flowing along the pipe transfers heat from the pipe by heating the circumference of the pipe to raise the temperature of the pipe. Receive the proper temperature.

1 schematically shows a heat pipe using a heat generator according to the prior art.

As shown in the drawing, in the conventional application of the heating device 1 to the pipe part 3, the constant temperature wire 5 is wound obliquely in the longitudinal direction around the pipe part 3 and the constant electric wire 5 When a current is sent, electric resistance heat is generated in the constant temperature wire 5 to heat the pipe 3, and this type of heating has been mainly used.

By the way, in the type which heats the pipe part 3 as mentioned above, only the part which the constant temperature wire 5 contact | heats is heated by winding the constant temperature wire 5 obliquely around the pipe part 3, and the constant temperature wire 5 ) Is not in contact with the portion to form a relatively low temperature compared to the portion where the constant temperature wire (5). Therefore, there is a problem that a temperature difference occurs between a portion in contact with the constant temperature wire 5 and a portion not in contact with the constant temperature wire 5.

When the pipe part 3 is locally heated through the heat generating type as described above, in the case of a fluid flowing at a low speed along the pipe part 3, heating and cooling are repeated, thereby causing a problem of changing the characteristics of the fluid. .

In addition, in the heat generating structure type as described above, after the installation of the pipe part 3, the constant temperature wire 5 should be subtracted along the longitudinal direction of the pipe part 3, in which case the constant temperature wire ( 5) There is a problem that the workability is not good because of the trouble in winding the work. In addition, the installation cost also increases due to the large amount of work time required.

The present invention is invented to solve the problems of the prior art as described above, the heating structure having a new type integrally applied to the pipe portion so that the entire surface of the pipe portion to form a uniform temperature is configured for heating The object is to provide an inventive pipe.

The present invention for achieving the above object, the pipe portion; An insulating material provided in the longitudinal direction of the pipe part while surrounding the surface circumference of the pipe part; A conductor disposed along the circumference of the insulating material and spaced apart from each other and disposed in the longitudinal direction of the pipe part; It is provided with a heating heating pipe consisting of; heating material is provided in the longitudinal direction of the insulating material while surrounding the surface circumference of the insulating material while the conductor is embedded.

A stripping groove is formed at one end of the pipe to expose the surface of the pipe, and the stripping groove is fixed in a state of being electrically connected to the conductor and is connected between conductors of neighboring heat generating pipes when a plurality of heat pipes are arranged. It is configured to include a connection connector through which an electrical conduction connection is made.

In addition, a heating heating pipe is provided around the outer surface of the heating material and provided in the longitudinal direction while surrounding the protective sheath.

As described above, a new type of heating structure according to the present invention is integral with the pipe portion, and the entire surface of the pipe portion is uniform through the type in which the entire surface of the pipe portion is heated by a heating material surrounding the surface of the pipe portion. Temperature can be formed.

In addition, the conductor that is disposed in the longitudinal direction in a state located along the circumference of the pipe portion is embedded when the heating material is extruded or coated in the pipe portion to form an integrated configuration, by winding the whole electric wire on the surface of the pipe portion as in the prior art It can solve all the problems and increase the installation cost.

In addition, the connection connector provided in the pipe part of the present invention can also be expected to effect the electrical conduction connection between the heating pipe more easily and easily.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the heating pipe for heating according to the present invention will be described in detail.

2 is a plan view showing a heating pipe for heating according to the present invention, Figure 3 is a cross-sectional view taken along the line A-A of FIG.

As shown in the figure, the heating pipe 10 of the present invention includes a pipe part 12, an insulating material 14 surrounding the surface circumference of the pipe part 12, and a conductor 16 embedded therein. And a heat generating material 18 surrounding the surface circumference of the insulating material 14 and a connection connector 20 provided in a state of being exposed at one end of the pipe part 12.

Hereinafter, the heat generating pipe 10 configured as described above will be described in more detail.

Insulation material 14 is wrapped around the surface of the pipe portion 12 in the longitudinal direction through an extrusion or coating method, etc., the insulating material 14 is the electrical conduction between the pipe portion 12 and the conductor (16) It will function to prevent it from happening.

As mentioned above, the heat generating material 18 is provided in the longitudinal direction through the extrusion or coating method, and the conductor 16 is formed along the circumference of the insulating material 14 around the surface of the insulating material 14. Or it is buried through the extrusion or coating of the heat generating material 18 in a state in which the number of the more and is arranged in the longitudinal direction.

In addition, although the conductor 16 is illustrated as an arrangement structure positioned on the top, bottom, left, and right sides, this is only an example for description, and thus is not limited to or limited to the arrangement structure of the conductor 16. For example, not only the positioning of the conductors 16 but also the number of embeddings can be appropriately adjusted depending on various factors such as the diameter of the pipe part 12, the performance (heat transfer) of the heat generating material 18, and the like.

In addition, the gap between the conductors 16 acts as R (resistance), and the relationship between the heat formed in the gaps between the conductors 16 and R (resistance) is Q (calories) ∝ i (intensity of current) ² R (Resistance).

In addition, the relationship is T (temperature) 열 Q (calorie), and can be generally expressed as R (resistance) = ρ (specific resistance) * (multiply) L (gap between conductors) / S (area of insulating material).

To reconstruct the above relationship, L = R * (multiply) S / ρ, and T ∝ Q ∝ i²R. That is, since R ∝ (T / i²), it can be expressed as a relation of L ∝ (T S / i²ρ). Therefore, it is preferable that the spacing between the conductors 16 satisfies the following equation.

[Equation]

 L (gap between conductors) ∝ (T (temperature) S (area of insulating material)) / (i² (current strength) ρ (resistance))

On the other hand, the terminal connector 22 is connected to the end of the heating pipe 10 configured as described above for the electric conductor 16 and the electric conductor embedded, the terminal connector 22 is electrically connected to the power supply device 24 Connected.

When current flows through the conductor 16 through the above configuration, the conductor 16 generates heat of electrical resistance. The heat of resistance is transferred to the heat generating material 14 and the received heat of resistance is uniformly transmitted to the whole according to the characteristics of the heat generating material 18.

In addition, since the heat generating material 18 has a structure surrounding the pipe part 12, the entire surface of the pipe part 12 is uniformly heated, whereby the entire surface of the pipe part 12 may form a uniform temperature. It becomes possible.

On the other hand, when the plurality of heat generating pipes 10 configured as described above are arranged in the longitudinal direction, electrical conduction between the conductors 16 of the heat generating pipes 10 adjacent to each other is required. The connection between neighboring heating pipes 10 is shown.

As shown in the figure, at one end of each heat pipe 10 is formed a stripping groove portion (S) in a state in which the surface of the pipe portion 12 is partially exposed, the stripping groove portion (S) is connected to the connector 20 Is fixedly placed. One side of the connection connector 20 is connected to a conductor 16 embedded in the heating pipe 10, and a connection cable C having an electrical conduction function between the connection connector 20 and the neighboring connection connector 20. ) Is connected.

Therefore, even if several heating pipes 10 are listed, the electrical conduction connection between the conductors 16 can be made easily and simply.

Furthermore, the connection portion 20 of the neighboring heat generating pipe 10 is exposed as it is, in which case the insulating protective tube 26 is wrapped to protect the conduction connection portion, so that the conductors including the connection connector 20 ( 16) and the connecting cable (C) is not exposed to the outside. In addition, the present invention has been described that the insulating protective tube 26 is used, but this is just an example, and the insulating tape may be bent instead of the insulating protective tube 26.

On the other hand, Figure 5 is a cross-sectional view showing another embodiment of the heating pipe for heating according to the present invention.

In the drawing, the heat generating pipe 30 has a structure in which the protective sheath 28 is further wrapped around the heat generating pipe 10, that is, around the outer surface of the heat generating material 18, according to the use purpose of the heat generating pipe 10. Can be configured. In addition, since the other components are the same as the above-described components, the same reference numerals are used and the description thereof is omitted to avoid duplication.

As described above, although the present invention has been described with reference to the limited embodiments and drawings, the present invention is not limited thereto, and furthermore, those skilled in the art and the technical spirit of the present invention Of course, various modifications and variations are possible within the equivalent scope of the claims to be described below.

1 is a schematic view showing a heat pipe to which the heat generating device according to the prior art is applied.

2 is a plan view showing a heating pipe for heating according to the present invention.

3 is a cross-sectional view taken along the line A-A of FIG.

4 is a cross-sectional view taken along line B-B of FIG. 2.

5 is a cross-sectional view showing another embodiment of a heating pipe for heating according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Heating device 3, 12: Pipe part

5: constant temperature wire 10: heat pipe

14: insulation material 16: conductor

18: heating material 20: connection connector

22: terminal connector 24: power supply

26: protective tube 28: protective sheath

Claims (4)

A pipe section; An insulating material provided in the longitudinal direction of the pipe part while surrounding the surface circumference of the pipe part; A conductor disposed along the circumference of the insulating material and spaced apart from each other and disposed in the longitudinal direction of the pipe part; Heating element provided in the longitudinal direction of the insulating material while surrounding the surface circumference of the insulating material while the conductor is embedded. The method of claim 1, A stripping groove is formed at one end of the pipe to expose the surface of the pipe. The stripping groove is fixed in a state of being electrically connected to the conductor. When the plurality of heat pipes are arranged, a connection cable between conductors of neighboring heat pipes is connected. Heating pipe for heating characterized in that it comprises a connection connector to make an electrical conduction connection through. 3. The method of claim 2, Heating tube for heating, characterized in that the outer periphery of the heating material is provided in the longitudinal direction while wrapping the protective sheath. The method according to any one of claims 1 to 3, The distance between the conductors arranged along the circumference of the insulation material satisfies L (interval between conductors) ∝ (T (temperature) S (area of insulation material)) / (i² (current strength) ρ (resistance)). Heating pipe for heating.

Images