KR20050056765A - Portable computer with anion cooling plate - Google Patents

Abstract

The present invention relates to a portable computer equipped with an anion heat sink, and to install a electromagnetic shield structure suitable for the slim structure of the portable computer to neutralize the electromagnetic waves emitted from the portable computer and to improve the heat dissipation, portable computer with a built-in CPU In the above, the lattice-type heat conduction plate is formed on the upper surface of the CPU, the upper surface of the heat conduction plate is provided with an anion heat sink for releasing the anion activated by the high heat conducted from the heat conduction plate, the anion heat sink contains a tourmaline inside Provides a portable computer equipped with an anion heat sink in which a heat radiation fin is formed on one side of the frame, and generates negative ions using the high heat generated from the portable computer. Therefore, electromagnetic waves emitted from the inside of the portable computer are not required. The computer is blocked The effect that sex improves.

Description

Portable computer with anion heat sink

The present invention relates to a portable computer having an anion heat sink, and more particularly, to generate negative ions by high heat generated by a central processing unit of the portable computer, thereby preventing external emissions by suppressing electromagnetic waves generated inside the computer. The present invention relates to a portable computer provided with an anion heat sink capable of improving heat dissipation of a processing device.

In general, a central processing unit chip (hereinafter referred to as a CPU) or a floppy disk, a hard disk, or a CD-ROM drive, which is an internal electronic device of a portable computer called a notebook computer, a laptop computer, a handheld computer, a palmtop computer, or a high speed data during operation. The processing generates heat in the internal chip, resulting in a high temperature. A cooling device is essential to prevent the chip from malfunctioning if the chip is overheated above a certain temperature.

1 is a perspective view showing a cooling device 10 of a general portable computer, the housing 12 is composed of a rectangular case that can seat and support the portable computer 1, the cooling pad 40 is a housing ( The computer 1 is seated by a member having excellent thermal conductivity provided in 12), and is configured to absorb and cool the heat generated from the bottom of the computer.

The heat sink 30 is installed near the heat sink 30 and discharges heat transferred from the CPU through a plurality of heat dissipation fins vertically arranged in a row, and the cooling fan 20 is installed at one side of the heat sink 30. It is configured to air-cool the heatsink fins, which are operated by the power supply and warmed to a certain temperature.

Meanwhile, the air suction outlets 14 and 16 are formed at the lower end of the housing 12 to inject air into the front lower end of the housing 12 and discharge air to the side of the housing 12 via the cooling fan 20. It is made to air-cool the heat sink (30).

The cooling device 10 configured as described above puts the portable computer 1 on the top of the cooling pad 40. When the portable computer 1 is seated on the top of the cooling pad 40, the CPU of the computer is mounted. Heat generated through the cooling pad 40 is transferred to the heat dissipation by driving the cooling fan 20.

In the portable computer cooled as described above, in the air cooling type in which air is cooled by flowing air to the air intake outlets 14 and 16 according to the driving of the cooling fan 20, the air inside is necessarily discharged to the outside. There was a risk of leakage of electromagnetic waves generated from the electronic components inside the housing 12 to the outside. In such a portable computer, it is difficult to install a separate electromagnetic shielding and additional heat dissipation means because of a slim thin structure.

The present invention has been invented to solve the above problems, an object of the present invention is to install an electromagnetic shielding structure suitable for the slim structure of a portable computer to neutralize the electromagnetic waves emitted from the portable computer and the heat dissipation effect can be improved It is to provide a portable computer provided with a heat sink.

In order to achieve the above object, the present invention provides a portable computer with a built-in CPU, wherein a heat conduction plate having a lattice-shaped through hole is installed on the upper surface of the CPU, and the upper surface of the heat conduction plate is activated by high heat conducted from the heat conduction plate. An anion heat sink for dissipating anion is provided, and the anion heat sink provides a portable computer having an anion heat sink in which heat dissipation fins are formed on one side of a frame containing tourmaline.

The portable computer equipped with an anion heat sink according to the present invention has an anion heat sink containing a natural anion generating material called a tourmaline adjacent to a CPU of the portable computer, so that activation is improved by a high temperature of the CPU where a high temperature is generated. The tourmaline has a characteristic of neutralizing and suppressing electromagnetic waves generated from a portable computer permanently without external power supply.

Tourmaline contained in the anion heat sink of the present invention is a natural anion generating material, generally belongs to borosilicates belonging to the hexagonal system consisting of chemical components such as iron, magnesium, alkali metal, aluminum, and in the crystal itself It is a natural mineral called tourmaline because it has a characteristic that permanently constant current flows due to the nature of the anode and cathode in both ends.

Such tourmaline has been known to have antimicrobial activity, negative ion generation and electromagnetic wave blocking function according to the recent research, and have a bio-activation effect, and has been applied to various health products.

When the tourmaline is applied to the present invention, the anion heat sink containing the tourmaline powder is installed on the upper surface of the CPU of the portable computer to have an effect of blocking the electromagnetic wave with the effect of generating negative ions.

The principle of generating anions in the anion heat sink of the present invention containing such tourmaline powder is shown in FIG. 2.

In FIG. 2, the above-described tourmaline 44 is accommodated in powder form in the frame 42 having a plurality of heat dissipation fins 45 formed on one side, and a through hole 49 formed in the heat conductive plate 48 on the other side of the frame 42. The high temperature heat is transmitted through the negative ion is released from the frame 42.

In more detail, as described above, the gemstone of the tourmaline 44 naturally has a positive electrode and a negative electrode at both ends, so that a potential difference occurs and permanently direct current static electricity is generated. The negative electrode is guided to the positive electrode of the tourmaline 44, and the negative electrode is transported to the negative electrode in order, and the negative electrons are transported to generate anions through the process of emitting electrons.

According to the present invention, the tourmaline 44 generates a higher constant voltage in the case of a finer powder form, especially in the case of a lot of air flow or a severe vibration and temperature change, the use of anion is further promoted. .

The configuration of the anion heat sink containing the tourmaline 44 as described above is shown in FIG.

In FIG. 3, a number of heat dissipation fins 45 are formed on one side of the frame 42 in which the tourmaline 44 is contained in powder form, effectively cooling the frame 42 to the outside.

The tourmaline 44 is accommodated in the frame 42, and a plurality of through holes 49 are formed on the other side of the heat conduction plate 48 in a lattice manner.

A portable computer 1 in which the anion heat sink 40 is installed is shown in FIG.

In FIG. 4, the present invention is shown for the portable computer 1 only, but it can be installed inside a desktop computer or any computer equipped with other high temperature electronics, which is obvious to those skilled in the art, The principle of the present invention to which the principle of negative ion emission and electromagnetic wave blocking according to the tourmaline 44 activation is applied, various modifications are possible.

In the portable computer 1 shown in Fig. 4, a CPU 5 is built in, and the CPU 5 is installed in the PC.

In addition, the anion heat sink 40 of the present invention is installed on the upper side of the CPU 5, so that the high heat is transferred to the heat conduction plate through the grid-type through hole 49 so as to effectively conduct the high heat of the CPU 5. 48, and the conducted high heat is transmitted to the tourmaline 44 particles inside the frame 42, so that the tourmaline 44 is activated by the high temperature to release a large amount of negative ions.

On the other hand, the high heat transmitted to the heat conduction plate 48 as described above is radiated by the heat radiation fins 45 formed on the upper surface of the frame 42 is radiated by the driving of the cooling fan 20, wherein the activated negative ions are radiating fins (45) Neutralizes electromagnetic waves accompanying air emitted from

In addition, since the negative ions generated from the negative ion heat sink 40 are transmitted to the CPU 5 through the through holes 49 formed in the heat conduction plate 48, electromagnetic waves generated from the CPU 5 itself are suppressed from occurring. will be. That is, the electromagnetic wave in the form of cation is electrically neutralized by the negative ions emitted from the inside of the negative ion heat sink 40, and as a result, the generation of electromagnetic waves in the CPU 5 is suppressed, and the heat radiation fins 45 on the upper part of the negative ion heat sink 40 are prevented. The electromagnetic waves that can be discharged according to the flowing air flow can also be neutralized to suppress electromagnetic waves emitted to the outside of the portable computer 1.

On the other hand, when the air flow of the cooling fan 20 in contact with the anion heat sink 40 is high temperature and the heat flow rate is fast, since more anions are discharged from the powder tourmaline 44, the anion heat sink of the present invention is conventional Anion generation can also be activated by the cooling fan and the effect can be doubled.

As described above, in the present invention, an anion heat sink 40 containing a tourmaline 44 in which an anion is activated by high temperature heat conduction is installed in contact with the CPU 5 of the portable computer to neutralize electromagnetic waves emitted from the CPU 5. It is to suppress the discharge to the outside.

By the portable computer equipped with an anion heat sink of the present invention, since the anion is generated by using the high heat generated in the portable computer, electromagnetic waves emitted from the inside of the portable computer are fundamentally blocked without the need for a separate driving power, thereby increasing the reliability of the computer. There is an effect to be improved.

1 is an exploded view showing a cooling device of a conventional portable computer.

2 is a cross-sectional view of the anion heat sink for explaining the principle of the present invention.

Figure 3 is a perspective view showing the configuration of the anion heat sink of the present invention.

4 is an installation state diagram of the present invention.

<Description of the symbols for the main parts of the drawings>

1: portable computer 5: CPU

40: anion heat sink 42: frame

44: tourmaline 45: heat dissipation fin

48: heat transfer plate 49: through hole

Claims (2)

In the portable computer 1 in which the CPU 5 is incorporated, A heat conduction plate 48 having a lattice-type through hole 49 is installed on the upper surface of the CPU, and an anion heat dissipation plate that emits anions activated by the high heat conducted from the heat conduction plate 48 on the upper surface of the heat conduction plate 48 ( A portable computer with an anion heat sink, characterized in that 40) is installed. The method of claim 1, wherein the negative ion heat sink 40, Portable computer with an anion heat sink, characterized in that the heat radiation fin 45 is formed on one side of the frame 42 containing the tourmaline 44 therein.