KR20030085206A - Electrolytic dissociation of filter - Google Patents

Abstract

The present invention relates to an electric dust collecting filter of an air purifier that purifies the air by charging and collecting dust in the air sucked into the cabinet. In particular, the present invention relates to an ionizing unit so that the air can be sufficiently sucked into the ionizing unit that charges the dust in the air. The ionizing part structure of the electric dust collecting filter which increases the air intake area ratio.

The ionizing unit structure of the electric dust collecting filter according to the present invention is because the direction changing means protrudes on one side of the ionizing unit, the spring can be arranged to be elastic in the longitudinal direction of the ionizing unit cover between both ends of the discharge line and the spring The area required for mounting on the ionizing part cover is small, and the suction port of the ionizing part cover can be made relatively large, so that the amount of air sucked into the ionizing part is increased, so that the dust collecting efficiency is improved, the noise is reduced, and the load is reduced.

Description

Electrophoretic structure of electrostatic precipitating filter {Electrolytic dissociation of filter}

The present invention relates to an electric dust collecting filter of an air purifier that purifies the air by charging and collecting dust in the air sucked into the cabinet. In particular, the present invention relates to an ionizing unit so that the air can be sufficiently sucked into the ionizing unit that charges the dust in the air. The ionizing part structure of the electric dust collecting filter which increases the air intake area ratio.

In general, an air purifier is a mechanism for purifying indoor air containing contaminants such as dust, odors, and bacteria with clean air to create a comfortable indoor environment. A cabinet having inlet and outlet ports and forced indoor air into and out of the cabinet And an electric dust collecting filter configured to charge and collect dust in the air sucked by the driving of the blower, and when the blower is driven, the air containing contaminants is sucked through the inlet of the cabinet to collect the electric dust. After purifying in the filter, the purified air is discharged through the outlet of the cabinet.

1 is a schematic view showing the main configuration of the electric dust collecting filter according to the prior art, Figure 2 is an exploded perspective view of the electric dust collecting filter according to the prior art, Figure 3 is a rear view of the ionizing cover according to the prior art.

The electric dust collecting filter according to the prior art is composed of an ionizing unit 10 for charging contaminants in the air sucked into the cabinet, and a collecting unit 20 disposed behind the ionizing unit 10 to collect charged dust. do.

As shown in FIG. 2, the ionizing part 10 is mounted on the ionizing part cover 2 having an inlet 2a through which air is sucked, and the ionizing part cover 2 so as to be orthogonal to the flow direction of air. When the high voltage is applied to the discharge line (4) to form a positive electrode, the ionizing unit case 6 formed with a discharge hole (6a) is coupled to the rear of the ionizing unit cover 2, the air is discharged, and the room It is composed of a ground electrode 8 mounted to the ionizing part case 6 to be disposed between the wires 4.

As shown in FIG. 3, a power applying terminal 12 for applying a high voltage to the discharge line 4 is mounted on one side of the back surface of the ionizing unit cover 2, and an ionization opposed to the power applying terminal 12 is provided. On the other side of the rear surface of the sub cover 2, three support protrusions 14 which support the discharge line 4 so as not to contact the ground electrode (not shown) protrude.

One end of the discharge line 4 is grounded to the power supply terminal 12, bypasses the support protrusion 14 by crossing the suction port 2a, and tensions the discharge line 4 at the other end thereof. A spring 16 to be provided is connected to the spring 16 and is fixed to the power supply terminal 12 so that the spring 16 is attached to the ionizing part cover 2 together with the spring 16 in a '⊂' shape.

As shown in FIGS. 1 to 3, when the high voltage is applied to the discharge line 4, the ionizing unit 10 forms an electric field M between the discharge line 4 and the ground electrode 8. After charging the dust in the air sucked through the suction hole (2a) of the ionizer cover 2, it is to be discharged through the discharge hole (6a) of the ionizer case (6).

As shown in FIGS. 1 and 2, the collecting unit 20 includes a collecting electrode 22 having a polarity opposite to that of the charged dust so that the dust in the air charged by the ionizing unit 10 is absorbed and collected. The dust charged in the ionizing unit 10 is composed of an acceleration electrode 24 having the same polarity as the charged dust so that the dust charged in the ionizing unit 10, the dust charged in the ionizing unit 10 When introduced between the acceleration electrode 24 and the collection electrode 22, the collection electrode 22 is absorbed and collected by the repulsive force with the acceleration electrode 24.

However, since the ionizing portion of the electric dust collecting filter according to the prior art is arranged such that the spring 16 is elastic in a direction parallel to the ground electrode 8, the spring 16 is connected to the inlet 2a of the ionizing cover 2. There is a problem that the dust collecting efficiency is low because the area of the suction port (2a) of the ionizing portion cover (2) so as not to protrude.

The present invention has been made to solve the above-mentioned problems of the prior art, to provide an ionizing unit structure of the electric dust collecting filter that can increase the air suction force by increasing the area of the suction inlet for the air to the ionizing unit cover. There is a purpose.

1 is a schematic diagram showing the main configuration of the electric dust collecting filter according to the prior art,

2 is an exploded perspective view of an electric dust collecting filter according to the prior art,

Figure 3 is a rear side cross-sectional view of the ionizing cover according to the prior art,

4 is an exploded perspective view of an air cleaner equipped with an electric dust collecting filter according to the present invention;

5 is a rear side cross-sectional view of the ionizing unit cover according to the present invention.

<Explanation of symbols on main parts of the drawings>

52 case 54: air filter

56: suction grill 60: ionizer

62: ionizer cover 62a: suction port

64: discharge line 66: ionizer case

66a: outlet 68: ground electrode

72: power supply terminal 73: fixed projection

74: support protrusion 75: hook type hook

76: spring 78: direction determining means

80: collecting part 86: barrier

The ionizing unit structure of the electric dust collecting filter according to the present invention for solving the above problems is formed with an inlet for air suction, a plurality of grounding electrode is disposed an ionizing unit case; A power applying terminal disposed at one side of the ionizing unit case; A discharge line having one end grounded at the power supply terminal and the other end positioned at one side of the ionizing part casing to form an electric field between the ground electrode; A support part protruding on the other side of the ionizing part case facing the power applying terminal such that the discharge line is spaced apart from the ground electrode; An elastic member connected to the other end of the discharge line such that the discharge line has tension; Consists of a direction determining means formed on one side of the ionizing part casing so that the elastic member is elastic in the arrangement direction of the ground electrode.

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

As shown in FIG. 4, the air purifier equipped with the electric dust collecting filter according to the present invention is detachably attached to the cabinet 52 having a front opening and a discharge opening 51 formed at an upper surface thereof, and an opening of the cabinet 52. A suction grill 56 provided with an air filter 54 on an inner wall, a motor 57 provided on an inner wall of the rear surface of the cabinet 52, and a turbo fan 59 provided on a rotation shaft of the motor 57. Blower 58 including a), an electric dust collecting filter 60 disposed in front of the blower 58 to charge and collect dust in the air passing through the air filter 54, and the electric dust collecting A barrier 86 is provided between the filters 60 and 80 and the blower 58 to partition the inside of the cabinet 52 into a blower chamber and a collection chamber.

The electric dust collecting filters 60 and 80 are disposed on an ionization unit 60 for ionizing and charging dust in the air passing through the air filter 54 and the ionizing unit 60 disposed behind the ionizing unit 60. It consists of a collecting unit 80 for collecting the charged dust in.

The ionizing part 60 is disposed at the rear of the air filter 54 and the ionizing part cover 62 having a lattice suction port 62a through which air is sucked, and the ionizing part so as to be orthogonal to the air flow direction. When the high voltage of 5 to 7kv is applied to the cover 62 and the discharge line 64 forms a positive electrode, the ionizing part case is fixed to the back side of the ionizing part cover 62 and the outlet 66a is formed ( 66 and a plurality of ground electrodes 68 disposed on the ionizing part case at regular intervals in the longitudinal direction L of the ionizing part case 66 to form an electric field with the discharge line 64; It is composed of a ground mesh (not shown) fixed to the back of the ionizer case 66 to block electrical interference between the ionizer 60 and the collecting unit 80.

Here, the ionizing part cover 62 is a power supply terminal 72 for applying a high voltage to the discharge line 64 on one side 62b of the back side as shown in FIG. 5 in the longitudinal direction of the ionizing part cover 62. A plurality of fixing protrusions 73 protrude from the power supply terminal 72 so that the discharge line 64 can be mounted, and an ionization cover facing the power supply terminal 72. A support protrusion 74 for supporting the discharge line 64 so as to be spaced apart from the ground electrode 68 of FIG. 4 protrudes from the other side 62c of the back surface 62.

The discharge line 64 is equipped with a ring portion 63 having a fitting hole 63a formed at one end thereof, such that the fitting hole 63a of the ring portion 63 is fitted into the fixing protrusion 73 to cover the ionizing portion ( It is fixed to the back side 62b of the 62, bypasses the support protrusion 74 across the suction port 62a of the ionizer cover 62, and again the suction port 62a of the ionizer cover 62. The other end is positioned on the back side 62b of the ionizing part cover 62 to take a '⊂' shape. In addition, the discharge line 64 is prevented from being in contact with the ground electrode 68 of FIG. 4 since the spring 76, which is an elastic member, is connected to the other end to maintain a predetermined tension at all times.

The spring 76 has a grounding electrode of FIG. 4 because the direction determining means 78 is formed at a side spaced from the bottom side 62b of the ionizing part cover 62 downwardly from the fixing protrusion 73. 68 is disposed so as to be elastic in the longitudinal direction (L) of the ionizing portion cover 62, the hook-shaped ring 75 is formed at one end of the discharge line 64 is not connected to the hook-type ring The 75 is fixed by being locked to the fixing protrusion 73.

The direction determining means (78) is a protrusion (78) protruding from one side (62b) of the back of the ionizing part cover (62), and the other end of the discharge line (64) is one side (62b) of the back of the ionizing part cover (62). ) So as to be directed toward one end of the discharge line 64, so that both ends of the discharge line 64 are in the longitudinal direction L of the ionizer cover 62 at one side 62b of the back side of the ionizing unit cover 62. And spaced apart from each other, the spring 76 may be disposed to be elastic in the longitudinal direction L of the ionizing part cover 62 between both ends of the discharge line 64.

On the other hand, the support protrusion 74 is the first, second, and third support protrusions 74a, 74b, 74c protruding triangularly to the other rear surface 62c of the ionizing part cover 62, and the first The support protrusion 74a is positioned on the same horizontal plane as the fixing protrusion 73, and the second support protrusion 74b is located on the same horizontal plane as the protrusion 78. 74c is positioned between the first supporting protrusion 74a and the second supporting protrusion 74b to gently bypass the discharge line 64 to be spaced apart from the ground electrode 68 of FIG. 4.

Such an ionizing unit structure is required to mount the power applying terminal 72, the fixing protrusion 73, the spring 76, and the direction determining unit 78 to one side 62b of the ionizing unit cover 62. While the area is allocated a little, the area of the inlet port 62a of the ionizer cover 62 can be relatively widened, and the amount of air suction sucked into the ionizer 60 increases.

Looking at the ionizing portion of the electric dust collecting filter according to the present invention configured as described above are as follows.

First, when the blower is driven, air is forcibly sucked through the inlet port 62a of the ionizer cover 62 to charge dust in the air and then discharged through the outlet port 66a of the ionizer case 66. At this time, since a high voltage is applied to the discharge line 64 to form an electric field between the discharge line 64 and the ground electrode 68, dust in the air is charged.

On the other hand, the air passing through the ionizing unit 60 is blown to the collecting unit 80 is charged with the dust charged in the collecting unit 80, so that the dust in the air is caught, and discharged to the outside to clean the air.

In the ionizing part structure of the electric dust collecting filter according to the present invention configured as described above, the direction changing means protrudes on one side of the ionizing part so that the spring may be arranged to be elastic in the longitudinal direction of the ionizing part cover between both ends of the discharge line. The area required for both ends of the wire and the spring to be mounted on the ionophore cover is small, and the inlet of the ionophore cover can be made relatively large, which increases the amount of air sucked into the ionophore, improving dust collection efficiency, reducing noise, and loading. There is an advantage that is reduced.

Claims (3)

An ionization unit case in which an air suction port is formed and a plurality of ground electrodes are spaced apart from each other; A power applying terminal disposed at one side of the ionizing unit case; A discharge line having one end grounded at the power supply terminal and the other end positioned at one side of the ionizing part casing to form an electric field between the ground electrode; A support part protruding on the other side of the ionizing part case facing the power applying terminal such that the discharge line is spaced apart from the ground electrode; An elastic member connected to the other end of the discharge line such that the discharge line has tension; The ionizing part structure of the electric dust collecting filter, characterized in that it comprises a direction determining means formed on one side of the ionizing part casing so that the elastic member is elastic in the arrangement direction of the ground electrode. The method of claim 1, And the elastic member is caught by a locking protrusion protruding from the power supply terminal so that one end of the discharge line is grounded. The method of claim 1, The direction determining means is an electric dust collector, characterized in that the projection is formed so as to be spaced apart in the direction where the one end of the discharge line and the ground electrode is disposed so that the other end of the discharge line is bypassed toward one end of the discharge line. Ion structure of the filter.