KR101333080B1 - Heating equipment having a heat pipe - Google Patents

Abstract

The present invention provides a heating facility using a heat pipe including a hot fluid pipe having a flow path in which a heating fluid over a predetermined temperature flows and a U-shaped heating pipe, wherein a heating medium is included, protruding to the outside of the hot fluid pipe with a gap.

Description

Heating equipment using heat pipes {HEATING EQUIPMENT HAVING A HEAT PIPE}

The present invention relates to a heating installation using a heat pipe, and more particularly to a heating installation using a heat pipe that can be used to heat the heating area by using a small amount of heating water as a heat source.

In general, the floor heating tube uses XL pipes, copper pipes, or stainless steel pipes, and in the case of the conventional heat pipe heating method, after installing the main pipe through which hot water flows in a zigzag form, a straight heat pipe is inserted into the main pipe. The ends are separated. In the case of general plumbing pipes, the amount of hot water flowing is up to 8 times higher than that of the heat pipe method, which has low thermal efficiency and high risk of leakage.

In addition, the heat pipe separated at the end has a problem that the heat dissipation part is finished in an I-shape so that the I-shaped end is not completely vacuumed and there is a heat-blocking phenomenon in which heat is not transmitted to the end. In addition, the heating pipe for the bottom of the heat pipe, which has a rod shape, has a disadvantage in that a lot of air (air) accumulates in the main part installed in a zigzag and frequent failures. There was a troublesome problem.

An object of the present invention relates to a heating installation using a heat pipe, and more particularly to a heating installation using a heat pipe capable of heating a heating area by using a small amount of heating water as a heat source. In providing.

Another object of the present invention is to provide a heating facility using a heat pipe that can variably install the interval of the U-shaped heating tubes protrudingly formed at both sides of the heating tube.

In a preferred embodiment, the present invention includes a heating tube having a flow path through which a heating fluid of a certain temperature or more flows; And a heat pipe disposed in a flow path of the heating tube, and including a U-shaped heating tube which is provided with a heat generating medium therein and forms a gap to protrude out of the heating tube. .

The heating tube is disposed inside the heating tube, the inner tube protruding from both ends of the heating tube along the flow path, and protruded at intervals on both sides of the inner tube, both ends of the inner tube It is provided with a heating tube connected to both sides of the to form a U-shape.

It is preferable that a heating material is embedded in the heating tube to form a vacuum state.

Both ends of the inner tube is preferably welded to the outer circumference of the heating tube so that the inside of the heating tube forms a vacuum state.

On the outer circumference of the heating tube, a connection member connected to both ends of the heating tube is further installed.

The connection member may be screwed to both ends of the heating tube.

The connecting member includes a connecting tube protruding from an outer circumference of the heating tube, and a fastening member installed at an end of the connecting tube and screwed to both ends of the heating tube.

It is preferable that the opening and closing valve which opens and closes the flow path of the said connection pipe is further provided in the said connection pipe.

Spiral spiral holes may be formed in the inner circumference of the heating tube.

Preferably, the pitch of the spiral hole is formed to gradually widen along an end portion of the heating tube bent in a U shape at both ends of the heating tube.

The present invention relates to a heating facility using a heat pipe, and more particularly, a small amount of heating water flows to be used as a heat generating source, and has the effect of heating the heating area by using the same.

In addition, the present invention has the effect that the interval of the U-shaped heating tubes protrudingly formed at both sides of the heating tube can be variably installed.

1 is a view showing a heating installation using the heat pipe of the present invention.
2 is a photograph showing a state in which a heating facility using a heat pipe of the present invention is constructed.
3 is a table showing comparative examples and examples according to the present invention.
4 is a view showing a connection between the inner tube and the heating tube according to the present invention.

Hereinafter, with reference to the accompanying drawings will be described a heating facility using the heat pipe of the present invention.

1 is a view showing a heating installation using the heat pipe of the present invention.

Referring to Figure 1, the heating equipment of the present invention is largely composed of a heating tube 100 and a heating tube (200).

The heating tube 100 is formed in a straight shape. The heating tube 100 forms a flow path through which the heating fluid heated to a predetermined temperature flows.

The heating tube 100 is preferably formed of a copper tube.

A plurality of through holes 101 are formed at both sides of the heating tube 100.

The through holes 101 are holes for fitting both ends of the heating tube 220 to be described later on a pair basis, and the outer circumferences of the through holes 101 and the heating tube 220 may be welded.

The heating tube 200 is composed of an inner tube 210 and a plurality of heating tubes 220.

The heating tube 200 is filled with a liquid heating medium.

The inner tube 210 is disposed inside the heating tube 100, and is formed in a straight line shape along a flow path.

Here, the inner tube 210 is formed to protrude from both ends of the heating tube (100).

The inner tube 210 may be welded at both ends of the heating tube 100 to be hermetically sealed. Therefore, the inside of the heating tube 200 can maintain a vacuum state.

The heating tubes 220 are formed at a plurality of positions on both sides of the inner tube 210 at intervals.

The heating tubes 220 are formed in a U shape.

Both ends of each of the heating tubes 220 protrude to the outside through the through holes 101 formed in the heating tube 100.

Therefore, the U-shaped heating tubes 220 are installed at intervals on the outer periphery of both sides of the heating tube 100.

The function of the heating installation using the heat pipe which has the above structures is demonstrated.

1 and 2, the heating fluid heated to a constant temperature through the boiler flows along the heating tube (100). That is, the heating fluid flows along the flow path. The heating fluid may be circulated through the boiler.

At the same time, the flowing heating fluid is in contact with both ends of the heating tubes 220 while flowing into the inner tube 210.

Therefore, both ends of each of the heating tubes 220 are heated at a predetermined temperature by the heating fluid that is heated and flows.

Accordingly, the heating medium filled in each of the heating tubes 220 may be evaporated and condensed at the end of the U-shaped heating tube 220 to radiate heat.

Then, after the condensation, the heating medium is returned to the original state again.

Accordingly, referring to the table of FIG. 3, compared to the comparative example in the case of the embodiment, the present invention transfers heat to a plurality of heating tubes 220 installed in the heating area while keeping the circulation amount of the heating fluid to a minimum. Due to the heat generation of the heat pipes 220 which are heat pipes, heating can be efficiently performed.

4 is a view showing another example of a heating tube according to the present invention.

Referring to FIG. 4, the outer circumference of the inner tube 210 of the heating tube 200 is further provided with a connection member 300 to which both ends of the heating tube 220 are connected.

In addition, the connection member 300 is screwed to both ends of the inner tube (210).

Here, the connecting member 300 is connected to the connecting tube 310 protruding from the outer circumference of the inner tube 210, and is installed at the end of the connecting tube 310 and screwed to both ends of the heating tube 210 Has a fastening member 320.

The connection pipe 310 is further provided with an opening and closing valve 330 for opening and closing the flow path of the connection pipe (310).

Therefore, the plurality of connection pipes 310 protrudes to the outside of the heating pipe 100 in a state connected to the inner pipe (210). The plurality of connection pipes 310 protrude to the outside through the through holes 101 formed in the heating pipe 100.

Referring to the above configuration, each of the connecting pipes 310, the on-off valve 330 is installed, the closing of the on-off valve 330, it is possible to airtight the inside of the inner tube 210.

In this state, an inner tube 210 having different widths is prepared, and both ends of the inner tube 210 are positioned in the connector tube 310, and the connector tube 300 is connected using the fastening member 300. 310 and both ends of the inner tube 210 are fastened.

Next, the opening and closing member 330 installed in the distal end tube 310 is opened.

Through such a configuration, by selectively installing the heating tube 220 having various widths between both ends, there is an advantage that can be installed variably to correspond to the heating area.

In addition, although not shown in the drawings, spiral spiral holes may be formed on the inner circumference of the heating tube 220 according to the present invention.

In this case, the pitch of the spiral hole may be formed to gradually narrow along the end of the heating tube 220 bent in a U shape at both ends of the heating tube 220.

That is, when heat is transferred due to the heating fluid at both ends of each of the heating tubes 220, the heating fluids located inside the heating tubes 220 are evaporated, and the evaporated fluid is condensed at the U-shaped end. At this time, since the pitch of the spiral hole is narrowly formed at the U-shaped portion relative to both ends of the heating tube, the contact area with the heating fluid which is substantially condensed is increased.

Therefore, by increasing the heat radiation efficiency, there is an effect that can further improve the heating efficiency.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

100: heating tube 101: through hole
200: heating tube 210: inner tube
220: heating tube
300: connection member 310: connector
320: fastening member 311: on-off valve

Claims (6)

A heating tube having a flow path through which a heating fluid of a predetermined temperature or more flows; And
Is disposed in the flow path of the heating tube, the heating medium is embedded therein, and comprises a U-shaped heating tube formed to form a gap protruding to the outside of the heating tube,
The heating tube is disposed inside the heating tube, the inner tube protruding from both ends of the heating tube along the flow path, and protruded at intervals on both sides of the inner tube, both ends of the inner tube Is provided with a heating tube connected to both sides of the forming a U-shape, the heating material is built in the heating tube, and forms a vacuum state,
In the inner circumference of the heating tube, spiral spiral holes are formed,
And a pitch of the spiral hole is formed to be gradually narrowed along an end portion of the heating tube bent in a U shape at both ends of the heating tube.
delete The method of claim 1,
Both ends of the inner tube,
And a heat pipe is welded to an outer circumference of the heating tube so that the inside of the heating tube forms a vacuum state.
The method of claim 3, wherein
On the outer circumference of the inner tube, a connection member protruding to the outside of the heating tube, the both ends of the heating tube is further connected,
The connecting member is a heating device using a heat pipe, characterized in that the screw coupling with both ends of the heating tube.
5. The method of claim 4,
The connecting member includes:
A connecting pipe connected to an outer circumference of the inner tube and protruding from an outer circumference of the heating tube;
Is provided at the end of the connection pipe is provided with a fastening member for screwing the both ends of the heating tube,
The connection pipe, heating equipment using a heat pipe, characterized in that the opening and closing valve for opening and closing the flow path of the connection pipe is further provided.
delete

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