WO2015005580A1

WO2015005580A1 - Heat transfer device for heat pipe

Info

Publication number: WO2015005580A1
Application number: PCT/KR2014/004611
Authority: WO
Inventors: 김상석
Original assignee: 아이엘지에너지기술(주)
Priority date: 2013-07-09
Filing date: 2014-05-23
Publication date: 2015-01-15
Also published as: CN105378418A; KR101357766B1; CN105378418B

Abstract

The present invention relates to a heat transfer device for a heat pipe and, more specifically, to a pipe-shaped heat transfer device arranged inside a heat pipe for heating, which fills the inside of a vacuum body with a heating solution and heats the heating solution so as to transfer heat through the convection of gas, such that uniform heating is enabled by easily transferring the heat to the inside of the vacuum body, wherein: a hollow portion filled with a heating solution is formed inside a vacuous heat pipe; an exhaust part is formed on one side, and a heating member for evaporating the filled heating solution is inserted into the other side so as to transfer heat by the heating member; or a hollow pipe, which does not have a heating member and comes into close contact with the heat pipe having the heating member, is formed inside the vacuous heat pipe that transfers the heat to the contacted part, wherein: the pipe has a shock-absorbing material so as to come into close contact with and to be fixed to the exhaust part; and a plurality of spacing units are arranged on the outer circumference of the pipe so as to maintain an interval with the internal surface of the heat pipe, such that the heating solution can be smoothly supplied through gaps between a hollow portion of the pipe and the spacing units even though the heating solution inside the heat pipe is laid on the bottom of the heat pipe when the heat pipe is horizontally installed, and a heat source transferred to the heat pipe is quickly transferred through the hollow portion of the pipe, thereby enabling uniform heating by evenly transferring the heat to the entire part of the heat pipe.

Description

Heat transfer device for heat pipe

The present invention relates to a heat transfer device for a heat pipe, and more particularly, a pipe form inside a hollow part of a heating heat pipe for filling a heating solution with a vacuum and heating the inner hollow part of a body to transfer heat to the convection gas. By providing a heat transfer device of the quick to facilitate heat transfer into the body of the vacuum.

In general, heating is provided on the floor of a home or room, or inside a wall such as a wall or a ceiling, and heats the air by heating it. There is a way to warm the floor by the heat of hot water flowing through it.

However, the heating of the floor using such a hot water pipe has a problem of delaying the time of heating and heating time by first boiling the water to make hot water and starting the heating by flowing the hot water through the hot water pipe. The heat unit of the pre-registered patent registration No. 10-0962979 (2011.06.01) and the heat pipe used for the heating panel using the same are arranged a plurality of heat pipes at a predetermined interval to the heating area and then the heat generating member of the heat Through heating the heating solution filled inside the body to be uniformly heated by the convection of the gas to heat the walls or floors and walls such as ceilings to enable room heating.

The heat pipe is to facilitate the heating by the heat pipe by heating the heating solution filled inside the linear body to quickly transfer heat by the convection of the gas.

When the heat pipe is installed in a vertical direction on the wall, the heating solution provided therein is different from the heating solution.

When the heat pipe is installed in the vertical direction as described above, the heating solution is heated by the heat source of the heat generating member provided on one side of the heat pipe, so that the convection phenomenon is smooth, so that heat can be uniformly transferred to the inside of the heat pipe.

However, when the heat pipe is installed horizontally, the heating solution provided inside the heat pipe is spread on the inner bottom of the heat pipe, and the heat generating member is exposed due to the lack of the heating solution in contact with the heat generating member. It is difficult to heat the inside quickly.

In order to solve this problem, if a large amount of the heating solution is put inside the heat pipe, the vacuum space is reduced. At this time, even if the heating solution is heated by the heating member, the vaporized gas is not convective so that the heat transfer drops and heat transfer is carried out at the same time. The temperature will drop.

Therefore, when the heat pipe is installed horizontally, the heating solution is heated due to the heat source of the heat generating member provided on one side, so that convection is desired, so that it is difficult for the entire uniform heating to be difficult to transfer heat uniformly to the inside of the heat pipe.

The present invention is to solve the above-mentioned problems, the above-described heat pipe when installed horizontally to install a line of heat pipe to provide a uniform heating inside the wall, such as the floor or wall and ceiling of the home or room as above In order to solve the problem that the heating solution provided inside is spread to the floor, the heating member cannot be completely submerged and the heating of the heat pipe is not uniformly performed as the heat source of the heating member.

A hollow part is formed in which the heating solution is filled, and an exhaust part is formed at one side, and a heating member is inserted at the other side to transfer heat by the heating member or closely adhered to the heat pipe without the heating member. Provide a pipe provided with a hollow inside the heat pipe in a vacuum state to transfer heat to the furnace, and a cushioning material is provided so that the pipe is tightly fixed to the exhaust part. When the heat pipe is installed horizontally so that the heat pipe is installed on the floor, the heat solution is continuously heated by receiving the heating solution through the gap holding hole of the pipe provided inside the heat pipe and the hollow inside. A heat transfer device for heat pipes that quickly transfers heat sources through hollows One will.

The present invention for achieving the above object is to form a hollow portion (3) filled with a heating solution (4) inside the body (2) on one line, the exhaust portion (5) is formed on one side, the cover on the other side Closing in vacuum (7), the inside of the hollow portion 3 of the body 2 is provided with a pipe (11) formed of a hollow 12, and one side of the pipe (11) to exhaust the shock absorbing material (30) (5) It is characterized in that to provide a heat transfer device 10 to be provided in the interior close to the pipe (11).

The outer surface of the cover 7 is characterized in that the heating member 6 for evaporating the heating solution 4 is filled.

The pipe 11 is characterized in that to provide a heat transfer member 20 having a through hole 21 on both sides.

A plurality of pipes 11 are provided and a heat transfer member 20 having a through hole 21 is provided at each pipe 11 boundary.

Evacuation grooves 13 are formed at both ends of the pipe 11.

Therefore, in the present invention, as described above, the hollow portion in which the heating solution is filled is formed in the vacuum heat pipe, the exhaust part is formed on one side, and the heating member is inserted into the heat generating member by evaporating the heating solution filled in the other side. By providing a hollow pipe inside the heat pipe in a vacuum state to transfer heat to the heat pipe in close contact with the heat pipe provided to the heat generating member without heat generating member by the heat generating member, but the cushioning material so that the pipe is in close contact with the exhaust portion The outer periphery of the pipe is provided with one or a plurality of spacing retainers to maintain a gap with the inner surface of the heat pipe, when installing the heat pipe horizontally even if the heating solution inside the floor is spaced with the hollow of the pipe Heat transmitted to the heat pipe by smoothly supplying the heating solution through the gap between the holders The circle has the advantage of allowing the heat source to be quickly transferred through the hollow of the pipe to uniformize the entire inside of the heat pipe to enable uniform heating.

1 is an exemplary view showing an embodiment of the present invention

2 is an exploded perspective view illustrating an embodiment of the present invention

3, 4, 5, 6 is an exemplary view showing another embodiment of the present invention

7,8,10 is an exemplary view showing another embodiment of the heat transfer device of the present invention

9 is an exemplary view showing a state of using the heat transfer member of the present invention.

11 and 12 are exemplary views showing still another embodiment of the heat transfer member of the present invention.

13 and 14 are exemplary views showing a conventional heat pipe.

First to describe the heating heat pipe 1 used in the present invention for achieving the above object,

As shown in FIG. 13, the hollow part 3 is formed inside the body 2 to fill the heating solution 4 to a predetermined height, and the exhaust part 5 is formed at one side of the hollow part 3, and the hollow part is formed. (3) A cover 7 for inserting and sealing a heat generating member 6 for vaporizing the heating solution 4 to be filled on the other side is provided to enable the heat pipe 1 to be heated by the heat generating member 6.

In another embodiment of the heating heat pipe, as shown in FIG. 14, the heating solution 4 is filled in the inside of the body 2 to a predetermined height to finish with a vacuum in the cover 7 and the heating solution 4. In order to vaporize the heat, the heat pipe 1 provided with the heat generating member 6 is brought into close contact with the body 2, and the heat pipe 1 provided with the heat generating member 6 is heated. It can be used as an auxiliary role for transferring the heat source of the heat pipe (1) to the heat pipe (1) provided by the heat pipe (1) provided by the heat to vaporize the internal heating solution (4).

The body 2 of the heat pipe 1 is preferably formed to have a constant diameter, one end of the heat pipe (1) is gradually reduced in diameter to form the exhaust portion 5 of the heat pipe (1) It is preferable that the exhaust part 5 be formed to a degree substantially smaller than the diameter of the body 2.

In addition, the heating solution 4 filled in the hollow portion 3 of the heat pipe 1 is used as a liquid having a relatively low breaking point so as to vaporize well, and preferred embodiments thereof include ethanol, acetone or distilled water alone or the like. It can be used by mixing.

In addition, the capacity of the heating solution 4 filled in the heat pipe 1 is such that the heat generating member 6 is completely submerged when the heat pipe 1 is placed in the vertical direction, and the exhaust part 5 is laid down in the horizontal direction. Is to fill at a lower level than where is formed.

Preferably, the heat pipe 1 is laid in the horizontal direction to fill the heating solution 4 to about 30% of the height of the hollow portion 3 of the heat pipe 1 so that the heating solution 4 is inside the heat pipe 1. The space in which the vaporized gas is convection is secured, and the heating solution 4 is prevented from being discharged together when the air inside the heat pipe 1 is exhausted through the exhaust part 5.

The heat pipe 1 is sealed with a cover 7 on the other side, and the hollow portion 3 is filled with the heating solution 4 as desired, and then the air of the hollow portion 3 is exhausted through the exhaust portion 5. The hollow portion 3 is brought into a vacuum state.

As an embodiment of the heat transfer device 10 for achieving the object of the present invention to form a hollow portion (3) filled with a heating solution (4) inside the body (2) on a line as shown in Figure 3, one side An exhaust part 5 is formed therein, and on the other side, a vacuum is closed with a cover 7, and a pipe 11 formed of a hollow 12 is provided inside the hollow part 3 of the body 2, and an exhaust part is provided. (5) It is to provide a heat transfer device 10 for fixing the shock absorbing material 30 in close contact with the pipe (11).

Another embodiment of the heat transfer device 10 is to insert the heating member 6 for vaporizing the heating solution 4 is filled in the outer surface of the cover 7, as shown in Figure 1,

Heat generating member for forming a hollow portion (3) filled with a heating solution (4) inside the body (2) on one line, the exhaust portion (5) on one side, and vaporizing the heating solution (4) filled on the other side Inside the hollow portion 3 of the heat pipe 1, which has been vacuumed with the cover 7 with the inserted insert 6, a pipe 11 formed of a hollow 12 is provided, and both ends of the outer circumference of the pipe 11 are provided. At the end, the spacer 14 is spaced apart from the inner hollow part 3 of the heat pipe 1, and a buffer material 30 is provided inside the exhaust part 5 to fix the heat transfer to be in close contact with the pipe 11. The device 10 is provided.

As another embodiment of the heat transfer device 10 of the present invention as described above as shown in Figure 3 to form a hollow portion (3) filled with a heating solution (4) inside the one-line body 2, one side In the hollow part 3 of the heat pipe 1 which is formed in the exhaust part 5, and the other side is vacuum-finished with the cover 7 on the other side, the pipe 11 provided with the hollow 12 is provided, and the pipe 11 A plurality of spacing retainers 14 are provided at both ends of the outer circumference of the outer periphery to maintain a spacing with the inner hollow part 3 of the heat pipe 1, and a buffer material 30 is provided inside the exhaust part 5. It is to provide a heat transfer device 10 to be in close contact with the pipe (11).

The length of the pipe 11 provided in the inner hollow part 3 of the heat pipe 1 is provided between the cushioning material 30 provided in the exhaust part 5 and the cover 7 so that the body of the heat pipe 1 ( 2) to prevent the pipe 11 from shaking in the hollow part 3 inside.

As another embodiment of the heat transfer device 10 as shown in Figure 4, 5 inside the hollow portion 3 of the heat pipe 1 is provided with a pipe 11 formed of a hollow 12 and the pipe ( 11, one side of the buffer member 30 is provided inside the exhaust unit 5, and the other side is provided with a vacuum in the cover (7), but the pipe formed of a hollow 12 between the buffer member 30 and the cover (7) The heat transfer member 20 in which the through hole 21 is formed at both sides of the (11) is provided.

As another embodiment of the heat transfer device 10 as shown in Figure 10 is provided with a plurality of pipes 11 formed of a hollow 12 in the hollow portion 3 of the body 2 and the respective The heat transfer member 20 having the through hole 21 is provided at the boundary of the pipe 11.

In a preferred embodiment of the heat transfer member 20 is a plurality of heat transfer member 20 formed with the through-hole 21 is fixed to the strap 22 by closely contacting each other.

Another embodiment of the heat transfer device 10 of the present invention as described above as shown in Figure 10 to provide a hollow 12 in the hollow portion 3 of the body 2 and a plurality of intervals on the outer periphery A plurality of pipes 11 having a holding tool 14 are provided in a row, and a heat transfer member 20 is provided between the plurality of pipes 11 so that the internal hollow portion 3 of the heat pipe 1 and The gap is maintained and the shock absorbing material 30 is provided inside the exhaust part 5 so as to be in close contact with the pipe 11.

When the plurality of heat transfer members 20 and the pipes 1 are arranged in a row in the heater pipe 1, the surfaces of the heat pipes 1 having the heat generating members 6 in the center of the heat pipe 1 closely adhere to each other. When the heat source of the heat generating member 6 of the heat pipe 1 heats the heat source of the heat generating member 6 by a plurality of heat transfer members 20 and the pipe 11 provided inside the hollow part 3 of the heat pipe 1. By quickly transferring the uniform heat to the inside of the heat pipe (1) is to enable heating as a whole.

As a preferred embodiment of the heat transfer member 20 is to provide a plurality of heat transfer member 20 formed with a through-hole 21 as shown in Figure 9 to be in close contact with each other to be fixed with a string 22 to the outside.

In addition, another embodiment of a plurality of heat transfer member 20 to be fixed by the external strap 22 is as shown in Figure 23 or the spring 23 having a through-hole 21 in the longitudinal direction as shown in FIG. Likewise, it may be formed of a net 24 having a through hole 21 formed in the longitudinal direction.

As another embodiment of the pipe 11 provided between the cover 7 and the cushioning material 30, as shown in FIG. 7, evacuation grooves 13 are formed at both ends of the pipe 11 to cover the cover 11. The gas heated by the heating solution 4 is convection through the evacuation groove 13 of the hollow 12 so that the hollow 12 is not blocked by the buffer 30 when the adhesive is fixed between the buffer member 30 and the buffer member 30. The phenomenon is to smooth.

The cushioning material 30 may be made of a material such as a sponge that is easy to cushion so that the pipe 11 or the heat transfer member 20 may be fixed to the cushion from the buffer material 30 when the pipe 11 or the heat transfer member 20 is in close contact with the cushion. It is desirable to.

The heat transfer member 20 may be formed of a graphite or a metal material such as aluminum, copper, or a cloth or paper, which contains a large amount of carbon, to facilitate heat transfer.

As a preferred embodiment of the pipe 11 provided in the hollow portion 3 of the body 2, the heat source by the heat generating member 6 is made of metal 12 such as aluminum, copper, or cloth or paper. It is preferable to preheat the pipe 11 quickly while passing through to serve as another heating member 6.

The present invention configured as described above, even if the heating heat pipe 1 is installed horizontally when installed on the indoor floor or the like, even if the heating solution 4 provided inside the body 2 is laid on the inner bottom of the hollow part 3, the heating member. The heat source of (6) quickly transfers the heat source of the heat generating member (6) to the pipe (11) provided in the lower surface of the hollow portion (3) of the heat pipe (1) to uniform heat into the heat pipe (1) It is delivered to enable heating as a whole.

The present invention is a heat source of the heat generating member 6, even if the heating solution 4 provided inside the heat pipe 1 does not immerse the heat generating member 6 when installed horizontally on the indoor floor or wall surface. When the inner hollow portion 3 is heated, the vaporized gas of the heating solution 4 passes through the inner hollow 12 of the pipe 11 to heat the entire pipe 11 by convection.

At this time, even if the pipe 11 and the heat transfer member 20 is provided inside the heat pipe 1 and installed horizontally when installed on the floor of a home or indoor, the heating member 6 of the heat pipe 1 is heated with a solution. (4) It satisfies the shortage, so that heat can be quickly transferred to the entire interior.

The heat transfer device 10 as described above is also applicable to the heat pipe 1 for transferring heat by the heat generating member 6 by providing the heat generating member 6 on one side of the cover 7, the heat generating member 6 ) Is also applied to the heat pipe (1) in close contact with the heat pipe (1) provided with the heat generating member (6) to indirectly transfer heat by the heat generating member (6).

As shown in FIG. 2, the heat pipe 1 includes a hollow 12 provided inside the hollow part 3 inside the heat pipe 1, and a pipe having a gap retaining portion 14 formed at an outer circumference thereof. 11) and then seal the cover 7 with one side of the heat pipe (1), and then fill the heating solution (4) in the hollow portion (3), the buffer material 30 is provided inside the exhaust portion (5) on the other side This seals and fixes the inside of the heat pipe 1 in a vacuum state.

In addition, when inserted into the heat pipe 1 formed of a cover 7 having no heat generating member 6 on one side, as shown in FIG. 3, the heat transfer member 20 is provided on both sides of the pipe 11 to generate the heat generating member. The heat source of (6) is preheatable while passing through the inner hollow 12 of the pipe 11, so that heat can be transferred quickly.

Accordingly, the pipe 11 having the hollow 12 provided inside the heat pipe 1 and the plurality of heat transfer members 20 having the through holes 21 are connected in the longitudinal direction to be in close contact with each other. When the heat pipe 1 is installed in a horizontal direction such as an indoor floor, even if the internal heating solution 4 of the heat pipe 1 is laid on the floor, the heat source of the heat pipe 1 is transferred inside the vacuum state. Through the through hole 21 and the hollow 12 of the pipe 11 is to quickly transfer a uniform heat source as a whole.

Claims

The hollow body 3 in which the heating solution 4 is filled is formed in the body 2 on one line, and the exhaust part 5 is formed on one side, and the cover 7 is vacuumed on the other side, and the body A pipe 11 formed of a hollow 12 is provided inside the hollow part 3 of the hollow part 2, and a buffer material 30 is provided inside the exhaust part 5 on one side of the pipe 11 to provide a pipe 11. Heat transfer device for heat pipes, characterized in that to provide a heat transfer device 10 to be in close contact with.
The method of claim 1,

Heat pipe for heat pipes, characterized in that the heating member (6) for evaporating the heating solution (4) is filled in the outer surface of the cover (7).
The method of claim 1,

Heat pipe for heat pipes, characterized in that to provide a heat transfer member (20) having a through hole (21) on both sides of the pipe (11).
The method of claim 3, wherein

Heat pipe for heat pipes, characterized in that to provide a plurality of pipes (11) and a heat transfer member (20) having a through-hole 21 formed at each pipe (11) boundary.
The method of claim 1,

Heat pipe for heat pipes, characterized in that the evacuation grooves (13) are formed at both ends of the pipe (11).