KR20100108679A - Pipe heation apparatus - Google Patents

Abstract

PURPOSE: A pipe heating apparatus is provided to maintain uniform temperature of a fluid flowing in the longitudinal direction of a pipe because a plurality of electrodes are located along the circumference of the pipe in the longitudinal direction of the pipe. CONSTITUTION: A pipe heating apparatus comprises a heating sheet(120), terminal connectors, and a power supply unit. A plurality of electrodes(121) located in the longitudinal direction of the pipe is installed inside the heating sheet. The terminal connectors are located on both ends of the heating sheet covering the pipe and respectively connected to both ends of the electrodes. The power supply unit is connected to the terminal connectors in order to supply power.

Description

Pipe Heation Apparatus

The present invention relates to a pipe heating device for heating a pipe to maintain the temperature of the pipe properly, and configured to apply heat uniformly in the longitudinal direction of the pipe so that the fluid flowing in the longitudinal direction of the pipe can maintain a uniform temperature. will be.

When a liquid or gas flowing along the pipe (hereinafter referred to as a 'fluid') needs to maintain an appropriate temperature, a heating device is installed around the pipe to raise the temperature of the pipe, so that the fluid flowing in the longitudinal direction of the pipe The heat is transferred from the pipe to maintain the proper temperature.

1 is a schematic view showing a pipe heating apparatus according to the prior art.

As shown in FIG. 1, in mounting the pipe heating device 1 to the pipe 3, the constant temperature wire 5 is wound obliquely in the longitudinal direction around the pipe 3 and the current is applied to the constant temperature wire 5. When flowed through, electrical resistance heat is generated in the constant temperature wire 5 to heat the pipe 3.

However, in the conventional pipe heating apparatus, only the portion where the constant temperature wire 5 is in contact with the constant temperature wire 5 is heated by obliquely winding the constant temperature wire 5 around the pipe 3, and the portion where the constant temperature wire 5 is not in contact with the constant temperature is constant temperature. Compared to a portion where the wire 5 is in contact with the state to maintain a relatively low temperature.

As such, when the pipe 3 is locally heated, the fluid flowing at a low speed along the pipe has a problem in that the characteristics of the fluid are changed by repeated heating and cooling.

The present invention has been invented to solve the problems of the prior art as described above, to provide a pipe heating device configured to maintain the same temperature in the longitudinal direction of the pipe so that the fluid flowing along the pipe can maintain a proper temperature Its purpose is to.

In addition, an object of the present invention is to provide a pipe heating device that is easy to mount around the pipe and configured to easily connect the heating sheets in the longitudinal direction of the pipe.

Pipe heating apparatus of the present invention for achieving the above object is located in the both ends of the heating sheet and the heating sheet is wrapped inside the heating sheet, the electrodes located in the longitudinal direction of the pipe to be wrapped, respectively connected to both ends of the electrodes It is characterized in that it comprises a terminal connector, and a power supply connected to the terminal connector to supply power.

In addition, according to a preferred embodiment of the present invention, the heat generating sheet, the heat generating parts arranged at intervals in the width direction, and the grooves formed on one surface of the heat generating sheet at intervals between the heating parts, the electrode of the heat generating sheet It protrudes from both ends.

Further, according to a preferred embodiment of the present invention, the heat generating portion is wrapped in the sheath tube.

Further, according to a preferred embodiment of the present invention, the female fastening portion and the male fastening portion which can be fastened to each other are mounted at both ends of the width of the heating sheet.

In addition, according to a preferred embodiment of the present invention, the terminal connector is located at the end of the heating sheet, the connection cylinders are connected to each of the electrodes and energized, an insulator surrounding the connection cylinders, extending from the power supply unit connection cylinder Include the cable connected to.

In addition, according to a preferred embodiment of the present invention, further comprising a connecting connector for connecting the heating sheet located on both sides located between the plurality of heating sheets located in the longitudinal direction of the pipe, the connection connector, the heating connector located on both sides And a connecting cylinder connected to the electrodes of the sheet and energized, an insulator surrounding the connecting cylinder, and a connecting cable connected to the electrodes of the heating sheet located on both sides.

As described above, the pipe heating device of the present invention has the advantage that the temperature of the fluid moving in the longitudinal direction of the pipe is uniform because a plurality of electrodes are located in the longitudinal direction of the pipe along the circumference of the pipe.

In addition, the pipe heat generating device of the present invention has an advantage in that when the length of the pipe is longer than the length of the heat generating sheet to connect a plurality of heat generating sheets, it is easy to electrically connect with other heat generating sheets using a connection connector.

In addition, the pipe heat generating device of the present invention can be easily mounted even in the case of a polygonal pipe instead of a circular pipe.

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

2 is a perspective view showing a heating sheet of the heat generating apparatus according to the present invention, Figure 3 is a cross-sectional view of the heating sheet shown in FIG. And Figure 4 is a cross-sectional view of the pipe wrapped with the heating sheet shown in Figure 2, Figure 5 is a side cross-sectional view showing a state in which the heating sheet is connected to the connecting connector after a long length of the pipe wrapped with a plurality of heating sheets, FIG. 6 is a perspective view illustrating the connection connector shown in FIG. 5.

As shown in FIG. 2 and FIG. 3, the pipe heating device 100 includes heat generating sheets 120 surrounding the pipe 110, a terminal connector 160 connecting the heat generating sheets 120, and a terminal connector. Including a power supply unit 150 for flowing a current to the electrode 121 of the heating sheet 120 through the 160, the length of the pipe 110 to be heated is longer than the length of the heating sheet 120 It further includes a connection connector 140 for connecting the heating sheet 120 located in the longitudinal direction of the pipe (110).

Hereinafter, the pipe heating device configured as described above will be described in detail.

2 to 4, the heating sheet 120 has a width that can wrap the circumference of the pipe (110). The plurality of heat generating parts 123 wrapped in the sheath tube 125 inside the heat generating sheet 120 are arranged in the width direction at intervals, and the V grooves 127 are formed on one surface of the heat generating sheet 120. Is formed between the 123 and extends in the longitudinal direction of the heat generating sheet (120). When the other surface of the heat generating sheet 120 configured as described above is in contact with the outer circumferential surface of the pipe 110, and then the inner angle of the V groove 127 of the heat generating sheet 120 is wrapped around the pipe 110 with the heat generating sheet 120. As the heating sheet 120 surrounds the outer circumferential surface of the pipe 110.

The female fastening part 131 and the male fastening part 132 are mounted at both ends of the width of the heating sheet 120, respectively, and the female fastening part 131 and the male are in a state in which the heating sheet 120 wraps the pipe 110. The fastening part 132 is fastened in contact with each other.

The male fastening part 132 is shaped like a cramp, and the female fastening part 131 is a structure in which a hole into which a male fastening part 132 can be inserted is formed, and an outer circumferential surface of the pipe 110 as a heat generating sheet 120. A part of the male fastening part 132 is inserted into the hole of the female fastening part 131 and fastened in a wrapped state. When the female fastening part 131 and the male fastening part 132 are fastened as described above, the heating sheet 120 is not unwound in a state in which the pipe 110 is wrapped, and thus, the heat fastening sheet 120 is mounted in a state in which the outer circumferential surface of the pipe 110 is wrapped.

On the other hand, in the case of wrapping the pipe 110 having a small diameter with the heating sheet 120, the width of the heating sheet 120 is longer than the circumference of the pipe 110, female fastening portion 131 and male fastening portion 132 Are not in contact with each other and cannot be tightened. In this case, the width of the heating sheet 120 is adjusted according to the circumference of the pipe 110. That is, the width of the heat generating sheet 120 is adjusted to fit the circumference of the pipe 110 by cutting around the V groove 127 positioned at the point where the circumference of the pipe 110 and the width of the heat generating sheet 120 coincide. After wrapping the heat generating sheet 120, the outside of the heat generating sheet 120 is bundled with a member such as an adhesive tape or a string that can be bundled. Thus, even if the heating sheet 120 is fixed by a member such as an adhesive tape or string, the pipe 110 can be sufficiently heated by the heat of the heating sheet 120.

On the other hand, the inside of the heat generating portion 123, the electrode 121 is located in the longitudinal direction, when a current flows in the electrode 121, the electrode 121 generates electrical resistance heat, the heat is generated as a whole of the heat generating portion 123 It is uniformly delivered and shows a uniform temperature throughout the heat generating unit 123. The terminal connector 160 is inserted into each electrode 121 at both ends of the electrode 121 extending to the end of the heat generating unit 123 and is electrically connected to the electrode 121 by current flowing through the terminal connector 160. Heat of resistance is generated.

On the other hand, as shown in Figure 5 and 6, when the length of the pipe 110 is not long enough to wrap the entire outer peripheral surface of the pipe 110 with one heating sheet 120, the longitudinal direction of the pipe 110 After the plurality of heat generating sheets 120 are arranged in series, the respective heat generating sheets 120 are connected to the connection connector 140 so that the electrodes 121 of the heat generating sheets 120 are energized.

The following describes the connection connector in detail.

As shown in FIG. 5 and FIG. 6, the connection connector 140 has a cylinder structure in which the insulator 141 surrounding the outer circumferential surface of the pipe 110 and the electrode 121 embedded in the heat generating sheet 120 are respectively inserted. A plurality of connection cylinders 143 are embedded to be exposed to one side of the (141) and the connection cable 145 connected to the connection cylinder 143 and connected to the connection cylinder 143 embedded in another insulator 141, respectively. ).

When the plurality of heat generating sheets 120 are connected by using the connection connector 140 having such a structure, the insulators 141 located on both sides thereof are mounted on the two heat generating sheets 120 to be energized. Specifically, the plurality of electrodes 121 protruding to one side of the heating sheet 120 are inserted into the connection cylinders 143, respectively. Then, each electrode 121 of the heating sheet 120 positioned in series is connected to be energized by the connection cable 145 in a state of being fitted to the connection cylinder 143.

In this way, the connection part 140 and the electrode 121 are not exposed to the outside by wrapping the connection part with the insulating protective tube 147 in a state in which the two heating sheets 120 are connected with the connection connector 140.

On the other hand, even if a member such as the fastening portions 131 and 132 of the heating sheet 120 is not configured in the insulator 141, the electrode 121 is inserted into the connection cylinder 143 embedded in the insulator 141, which is flexible. The insulator 141 is bent and wrapped around the pipe 110.

In addition, a power supply unit is provided on electrodes 121 protruding from both ends of the heating sheet 120 surrounding the pipe 110 and electrodes 121 protruding from the outermost ends of the plurality of heating sheets 120 connected by the connection connector 140. The terminal connector 160 of 150 is connected to configure the current to flow through the electrode 121 of the heating sheet 120 surrounding the pipe 110. Here, the terminal connector 160 is connected to the one end portion of the connection connector 140, that is, the cable 165 extending from the power supply unit 150 to the insulator 141 in which the connection cylinder 143 is embedded, and the connection cylinder 143. As a structure connected to the structure, the structure of the connection connector 140 is almost similar.

When the terminal connector 160 is connected to both ends of the heat generating sheet 120 as described above, power is supplied from the power supply unit 150 to generate heat of resistance in the electrode 121 of the heat generating sheet 120. The heat generated from the heat is uniformly transmitted to the whole of the heat generating sheet 120 through the heat generating unit 123 and then to the pipe 110.

Since the heating sheet 120 is disposed in the longitudinal direction of the pipe 110, the fluid flowing in the longitudinal direction of the pipe 110 may maintain a uniform temperature.

1 is a schematic view showing a pipe heating apparatus according to the prior art.

2 is a perspective view showing a heating sheet of the heating device according to the present invention,

3 is a cross-sectional view of the heating sheet shown in FIG. 2.

Figure 4 is a cross-sectional view of the pipe wrapped with the heating sheet shown in Figure 2,

5 is a side cross-sectional view illustrating a state in which a long pipe is wrapped with a plurality of heat generating sheets and the heat generating sheets are connected with a connection connector.

FIG. 6 is a perspective view illustrating the connection connector shown in FIG. 5.

Explanation of symbols on the main parts of the drawings

100: pipe heating device 110: pipe

120: heating sheet 121: electrode

123: heat generating portion 125: sheath tube

127: V groove 131: female fastening portion

132: male fastening portion 140: connection connector

141: insulator 143: connection cylinder

145: connecting cable 147: protective tube

150: power supply 160: terminal connector

165 cable

Claims (6)

A heating sheet having electrodes located in the longitudinal direction of the pipe to be wrapped; A terminal connector positioned at both ends of the heating sheet surrounding the pipe and connected to both ends of the electrodes, Pipe heating device characterized in that it comprises a power supply for supplying power connected to the terminal connector. The method of claim 1, Heating sheet, Heating parts arranged at intervals in the width direction, It includes a groove formed in the longitudinal direction on one surface of the heating sheet at intervals between the heating parts, The electrode is a pipe heating device, characterized in that protruding to both ends of the heating sheet. The method of claim 2, Heating element is a pipe heating device characterized in that wrapped in the sheath tube. The method according to claim 2 or 3, Both ends of the heat generating sheet is a pipe heating device, characterized in that the female fastening part and the male fastening part which are mutually fastened are mounted. The method of claim 1, The terminal connector is Connection cylinders which are located at an end of the heating sheet and are connected to each of the electrodes and are energized; An insulator surrounding the connection cylinders, And a cable extending from the power supply and connected to the connection cylinder. The method according to any one of claims 1 to 3, Further comprising a connection connector located between the plurality of heating sheets located in the longitudinal direction of the pipe to connect the heating sheets located on both sides, The connection connector, A connecting cylinder electrically connected to each of the electrodes of the heating sheet located on both sides; An insulator surrounding the connection cylinder, Pipe heating device comprising a connection cable for connecting the connection cylinder connected to the electrodes of the heating sheet located on both sides.

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