KR200312209Y1 - Electric Double Heat Pipe Radiator - Google Patents

Abstract

The present invention is the application and development of the patent 10-2002-0038476 (published patent application No. 2002-0065427) and utility model registration No. 20-0290813 that the inventors have applied for, a double heat pipe radiator using electricity as a heat source (energy source) It is about.

Designed to reduce heating operation costs and to make the heating life more convenient by achieving the maximum heating effect with the minimum heat source, the present invention dissipates the heat energy of the nichrome wire generated by electricity into the heat dissipation heat pipe (1). The working fluid absorbent fabric 9 and the heat transfer to both ends of the heat dissipation heat pipe 1 so that the heat dissipation heat pipe can be effectively and quickly transferred to the working fluid 7 for maximum efficiency without loss of heat. Install a heat pipe (2) for the heat transfer heat pipe to the outside of the heat dissipation heat pipe to surround the nichrome wire (4) and to prevent the loss of heat provided by the nichrome wire as a thermal insulation material The electric double heat pipe which covered the nichrome wire cover 5 is related.

Description

Electric Double Heat Pipe Radiator

So far, pipes with higher thermal conductivity than heat pipes have not yet appeared, but the utilization of heat pipes is insignificant. This is because the properties of heat pipes are very demanding, it is difficult and expensive to make products in accordance with the properties, and when making products using heat pipes, one of the important tasks is to transfer heat to heat pipes and to operate in heat pipes. The fluids meet each other as close as possible. Only then will heat transfer be smooth.

In the conventional case of using a heat pipe as a radiator, there is a case in which the heat pipe is used upright and lying down, but when used upright, the working fluid is concentrated to the lower part, so there is no great difficulty in transferring heat, but an operation that receives heat. Since the area where the fluid vaporizes is only the non-contacting upper part of the pipe, it may make a loud noise like a sudden explosive working fluid exploding due to vaporization at once. Since the floor is shallowly laid along the length, there is not much working fluid at the end of the receiving end, so there is a closed end where the working fluid does not receive heat smoothly. Therefore, there is also a problem in the case of a conventional heat pipe radiator used upright or lying down.

In order to solve the above problems, the present invention has been envisioned. The present invention installs heat transfer heat pipes 2 at both ends of the heat dissipation heat pipe 1 as shown in FIG. The heat transfer working fluid (8) in the heat transfer heat pipe always collects at the bottom and the heat transfer heat pipe portion located in the heat dissipation heat pipe is directed upward. Enclosed with a nichrome wire 4 to maximize the area where the working fluid for heat transfer and the nichrome wire contact each other to increase the efficiency of the heat transfer heat pipe. Then, around the heat transfer heat pipes 2 at both inner ends of the heat dissipation heat pipe 1, a working fluid absorbent cloth 9 is installed obliquely inward and downward to spread heat spreading on the bottom of the heat dissipation heat pipe. It is designed to facilitate the absorption of the working fluid (7) and to cover the area where the nichrome wire (4) of the heat transfer heat pipe is covered with a nichrome wire cover (5) made of a thermal insulation material for user safety and to reduce heat loss. To maximize thermal efficiency. In some cases, when a large amount of heat is not required, a heat transfer heat pipe and a working fluid absorbent fabric may be installed only at one end of the heat dissipation heat pipe.

In the case of a radiator using a conventional heat pipe, when the heat pipe is used upright, heat can be transferred to only one side of the lower portion where the working fluid is collected, and the area is limited to the area where the working fluid is collected. Although the efficiency of the heat dissipation area is reduced due to the small contact area, the present invention installs the working fluid absorbent cloth 9 at an angle from top to bottom at both ends of the heat dissipation heat pipe 1 so that the working fluid absorbent cloth is for heat dissipation. The working fluid at the bottom of the heat pipe was always moistened by capillary action, and the length of the heat transfer heat pipe in the heat dissipation heat pipe (1) on the other side, whether or not the nichrome wire (4) of the heat transfer heat pipe was wound. The heat dissipation working fluid and the heat transfer heat pipe heated by nichrome wire Is widened the area taking the form of a heat transfer working fluid for quick and easy to be vaporized more quickly heat up the heat-dissipating pipe for heat were to smoothly dissipate heat.

In addition, the heat dissipation cloth (9) has a low density of heat dissipating working fluid, so that the heat dissipating working fluid vaporizes quickly, such as when ironing wet clothes, so the heat is transferred quietly and the heat transfer speed is higher than that of the conventional fluid. There is a much faster advantage.

Therefore, the present invention not only raises the area of the radiator using the heat pipe by one dimension by moving the electric double heat pipe radiator as shown in FIG. 5, but also results in energy consumption reduction compared to the conventional method. It can be useful to use in a large greenhouse or workshop because it can be installed hanging down from the ceiling or fixed to the wall, making the most of the limited indoor space.

In order to solve the above-mentioned problems, the present invention is designed to absorb the working fluid absorbent cloth so that the heat dissipating working fluid 7 can be easily collected by capillary action at both ends of the heat dissipating heat pipe 1. 9) and install the heat transfer heat pipes (2) at both ends, with a part of which is directed to the lower part outside the heat dissipation heat pipe and the other part of the working fluid absorbent cloth inside the heat dissipation heat pipe ( 9) It is enclosed inside and facing obliquely. This is to remove the loud noise generated when the heat dissipating working fluid 7 in the working fluid absorbent cloth 9 vaporizes and to easily vaporize the heat for vaporized heat transfer. This is to allow the heat transfer working fluid 8 in the pipe to condense and easily collect downward with the nichrome wire 4.

The Nichrome wire is wound around the heat pipe 2 for heat transfer, and the Nichrome wire cover 5 made of a thermal insulation material is used to prevent heat loss for user safety and energy efficiency. Raised.

The conventional heat pipe radiator has been difficult to manufacture a portable radiator as shown in Figure 5 due to the problems described above, but the present invention solves such problems, not only to provide a comfortable, convenient and economical heating life, but also heat pipe for heat transfer As it can generate a lot of energy even with a small heat source, it is aimed at raising the heating life and culture of the people to the next level as it is suitable for Korea where no drop of oil comes out.

1 is a schematic perspective view of the present invention;

2 is a cross-sectional view of the present invention

3 is a state diagram showing a state in which the nichrome wire is wound around the heat pipe for heat transfer when the nichrome wire cover of the present invention is removed;

4 is a cross-sectional view showing a state where the working fluid is laid on the bottom of the heat pipe when the conventional heat pipe is laid down.

5 is a schematic perspective view of a portable electric double heat pipe radiator as an embodiment of the present invention;

6 is a view showing an example of using fixed to the ceiling or wall as another embodiment of the present invention.

* Explanation of symbols on the main parts of the drawings

1. Heat pipe for heat dissipation 2. Heat pipe for heat transfer

3. Heat sink fin 4. Nichrome wire

5. Nichrome wire cover 6. Wire

7. Working fluid for heat dissipation 8. Working fluid for heat transfer

9. Working fluid absorber 10. Plug

11. Radiator holder in radiator case 12. Radiator case

13. Radiator fixture 14. Wheel

The present invention for achieving the above object is described with reference to the accompanying drawings, preferred embodiments of the present invention as an electric double heat pipe radiator as follows.

1 is a schematic perspective view of the present invention, in which the heat transfer heat pipes 2 are installed at both ends of each of the heat dissipation heat pipes 1 to which the heat dissipation fins 3 are attached. Is directed upwards of the inside of the heat dissipation heat pipe so as to be enclosed in the working fluid absorbent cloth 9, and wound the nichrome wire 4 which generates heat in the lower part of the heat transfer heat pipe. It is a figure which shows the state which covered the periphery with the nichrome wire cover 5. As shown in FIG.

2 is a cross-sectional view of the present invention, in which the length of the heat transfer heat pipe in the heat dissipation heat pipe 1 is longer than the outer portion, and the working fluid absorbent cloth 9 is installed obliquely long from the top to the bottom to heat Figure showing a structure that can easily lift the divergent working fluid (7).

3 is a state diagram showing a state in which the nichrome wire 4 is wound around a heat transfer heat pipe when the nichrome wire cover 5 of the present invention is removed, and the nichrome wire is sufficiently wound around a portion where the heat transfer working fluid 8 collects. There is a view showing the ease of heat transfer.

4 is a cross-sectional view illustrating an example in which the working fluid does not function smoothly since the working fluid is laid only on the bottom of the heat pipe when the conventional heat pipe is laid down, so that the nichrome wire and the working fluid do not function smoothly.

Figure 5 is a schematic perspective view of a mobile electric heat pipe radiator as an embodiment of the present invention, there is a radiator case 12 and the wheel 14 is a view showing the smooth movement.

6 is a view showing an example of using fixed to the ceiling or the wall as another embodiment of the present invention, when installed in the air can be suspended from the ceiling radiator fixing device 13 to the line from the ceiling or hanger like a nail on the wall It is a figure which shows the state which can hang by installation.

As described above, the present invention installs the heat transfer heat pipe 2 and the working fluid absorbent fabric 9 on both sides of the heat dissipation heat pipe 1, so that the nichrome wire 4 generates heat. It can be delivered to the heat pipe for heat dissipation quickly and smoothly, not only to provide a comfortable heating life for the user, but also to consume a lot of energy provided as a heat source than the conventional one, it will be a beneficial design that helps both the individual and the national economy.

Claims (1)

Install a heat transfer heat pipe (2) and a working fluid absorbent fabric (9) at the end of the heat dissipation heat pipe (1), and attach a nichrome wire (4) to the heat transfer heat pipe portion that extends out of the heat dissipation heat pipe. Installing electric double heat pipe radiator.