KR100205564B1 - Air cleaner - Google Patents

Abstract

The present invention relates to an air cleaner capable of generating negative ions and collecting and deodorizing by direct current high pressure discharge, and constituting a body and a plurality of dust collecting antennas incorporating a direct current high pressure generator in a radial manner to maximize the air anion diffusion rate and improve the air cleaning performance. It is possible to remove and separate the main body and dust collecting antenna, and it is easy to replace or clean the contaminated dust collecting antenna after a certain time, and the suction pipe and exhaust vent of the pipe-shaped dust collecting antenna are equipped with carbon negative electrode. By minimizing ozone (O ₃ ) generation and filling porous insulating beads between the carbon negative electrode and the metallic positive electrode, it functions as an electric dust collector and a mechanical filter function to provide an air cleaner that can greatly improve anion generation and dust collection performance. will be.

Description

air cleaner

The present invention relates to an air cleaner having anion generation, dust collection, and deodorization function by DC high pressure corona discharge, and in particular, makes it possible to exchange dust collection antennas. The present invention also relates to a structure and a method of assembling an air-spinning air cleaner.

In the conventional high pressure corona discharge for generating negative ions, there were a metal probe method and a ceramic discharge method, but the space diffusion rate and distribution of anions were uneven and the anion generation efficiency was low.

Therefore, sufficient anion diffusion and rapid air cleaning (dust collection, deodorization, etc.) in the room could not be expected. In addition, the metal probe discharge method also generates a large amount of ozone (O3) together with the anion, which tends to harm the human body.

SUMMARY OF THE INVENTION An object of the present invention is to provide a radial air purifier capable of greatly improving negative ion generation and dust collection performance and rapidly diffusing negative ions in an indoor space.

Still another object of the present invention is to provide a structure and a method for assembling and removing or cleaning the dust collecting antenna of the air cleaner.

1 is an installation state of the radial air cleaner of the present invention.

Figure 2 is an explanatory view of the assembled state of the radial air cleaner of the present invention.

3A is a state diagram before the dust collection antenna is inserted into the dust collecting antenna housing.

3b is a state in which a dust collecting antenna is inserted into a dust collecting antenna housing.

3c is a sectional view taken along the line A-A of the dust collecting antenna.

4 is an explanatory diagram according to a first embodiment of a dust collecting antenna.

5 is an operational state diagram according to a second embodiment of the radial air cleaner of the present invention.

6 is an enlarged view of the insulating beads.

* Explanation of symbols on the main parts of the drawings

1: dust collecting antenna housing 2: dust collecting antenna

3: cathode carbon electrode 4: insulation beads

5: DC high pressure generator 6: insulation member

11: discharge dust collection antenna holder 21: outer conductive electrode

211: positive electrode connection conductor 611: negative electrode connection conductor

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Radial air purifier of the present invention has a form that can be fixed to or suspended from the ceiling or wall as shown in Figure 1 and shown in Figure 2 the assembly state of the dust collecting antenna housing (1) and the dust collecting antenna (2). Inside the dust collecting antenna housing 1 of a circular disk structure, a DC high-pressure generator 5 is built-in, and a plurality of dust collecting antennas 2 are equally installed at the edges of the collecting antenna housing 1 and drawn in radially.

The dust collecting antenna 2 has a structure as shown in FIG. The hemispheres 22 of the circular pipe case of the discharge dust collecting antenna 2 are made of conductive plastic or coated with a metal film on the inner wall to enable electricity to flow and form an air vent 23 through which air can be sucked. Let's do it. The other hemisphere 22 of the circular pipe sheath is an insulator with a vent 23 formed thereon.

In addition, a negative electrode carbon electrode (3) made of a straight carbon rod or carbon fiber of the inner center of the circular rod is installed, one side is fixed to the insulating member (6) and the other side is connected to the electrode terminal (61). In addition, the inside of the dust collecting antenna 2 configured as described above and the cathode carbon electrode 3 are filled with porous 41 insulating beads 4. The porous 41 insulating beads 4 are made of an insulator having a diameter of about 1 to 2 mm.

Another embodiment of the dust collecting antenna 2 of the present invention will be described with reference to FIG. The circular pipe is made of an insulator and forms an air vent 23 on the upper part and an air vent 23 of a suitable size on the lower part. At the inner center of the pipe, a cathode carbon electrode 3 made of straight carbon rod or carbon fiber is installed, and one side is fixed to the insulating member 6 and the other side is fixed to the electrode terminal 61. On the other hand, the positive electrode plate 8 having the vent hole 23 formed at the center of the metal plate is mounted on the central portion of the pipe at an appropriate distance from the central cathode carbon electrode 3. One side of the positive electrode plate 8 is exposed to the outer surface of the pipe in the same direction as the electrode terminal 61 to enable electrical connection from the outside. And between the positive electrode plate (8) and the cathode carbon electrode (3) of the dust collecting antenna (2) configured as described above is filled with porous (41) insulating beads (4). A plurality of discharge dust collection antenna holders 11 are formed on the circumferential surface of the dust collecting antenna housing 1, and a positive electrode connection conductor 211 and a negative electrode connection conductor are formed on each discharge dust collection antenna holder 11; 611 is provided.

The positive terminal of the DC high pressure generator 5 which inserts and installs the dust collecting antenna 2 into the discharge dust collecting antenna holder 11 and generates a voltage of about 1,500 to 3,000 kV is the electrode terminal of the dust collecting antenna 2. The negative electrode is connected to the electrode terminal 61 of the dust collecting antenna 2. When a high-voltage electric field is applied between the hemispherical shell conductive electrode 21 and the cathode carbon electrode 3, a corona discharge in the atmosphere is initiated to generate negative ions, and the air particles charged to the shell conductive electrode 21 are negative carbon electrodes ( Accelerated by the electric field of 3), air flow like 3c is generated. On the other hand, porous (41) insulating beads (4) evenly corona discharge potential and maximize the discharge surface area to greatly increase the amount of negative ions generated in the air and improve the electrical dust collection performance.

That is, the porous 41 insulating beads 4 promote the generation of negative ions due to the constant voltage and also act as a filter for air. On the other hand, the cathode carbon electrode (3) is made of a carbon component can minimize the generation of ozone and increase the density of pure anion generation. This is because the cathode carbon electrode 3 acts to suppress ozone generation and reduce it to oxygen.

In the drawings, reference numeral 7 denotes a sealing fan.

Radial air purifier of the present invention configured as described above is easily generated when anion generation, dust collection, deodorization, etc. are made by the dust collection antenna detachable from the dust collection antenna housing, and the porous insulating beads of the dust collection antenna are contaminated or deteriorated with long use. Can be replaced or cleaned. Thus, by providing a replaceable dust collecting antenna, it is possible to prevent secondary pollution of the air cleaner and to expect high quality air purification and anion generation. In addition, a large number of dust collecting antennas are expanded in a radial structure to not only be in the indoor air but also to maximize anion generation and dust collection performance by the structure of the dust collecting antennas, thereby increasing anion diffusion speed and providing fast air cleaning performance. In addition, the air purifier of the present invention can be attached to the upper portion of the ceiling-type ceiling fan (Ceiling Fan) as shown in FIG.

Claims (3)

The dust collecting antenna housing (1) is provided with a direct current high voltage generator (5), and the dust collecting antenna (2) having a plurality of high-pressure discharge and dust collecting means around the dust collecting antenna housing (1) is composed radially. The air cleaner according to claim 1, wherein the electrode terminals 61 and 212 which can be attached and detached are formed on one side and the dust collecting antenna 2 is mechanically connected to and separated from the dust collecting antenna housing 1. The method of claim 1, wherein the dust collecting antenna (2) is in the form of a hollow plastic pipe and the hemisphere (22) uses a conductive plastic or coats a conductive metal on the inner wall surface, and a vent hole in the center of the circumferential surface of the hemisphere (22) 23) and the other hemisphere 22 uses an insulating member 6, and forms a plurality of vents 23 on the circumferential surface thereof, and installs a cathode carbon electrode 3 containing a carbon rod and a carbon component at the center thereof, Air purifier, characterized in that the structure between the negative electrode and the cathode carbon electrode (3) is filled with porous (41) insulating beads (4). The dust collecting antenna (2) is in the form of a hollow insulated plastic pipe, and the ventilating mechanism (23) is formed at the center of the circumferential surface of the upper and lower hemispheres (22), and the carbon rod and the carbon component are contained in the central portion. The negative electrode carbon electrode (3), and the positive electrode plate (8) having a vent hole (23) formed in the center thereof is installed on the central side of the pipe away from the negative electrode carbon electrode (3) by An air purifier, characterized in that the cathode carbon electrode (3) is filled with a porous (41) insulating beads (4).

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