KR101474493B1 - Electric precipitator and home appliance comprising the same - Google Patents

Abstract

An aspect of the present invention is to provide an electric dust collecting apparatus and an electric home appliance including the electric dust collecting apparatus, wherein the performance of the dust collecting unit is not deteriorated while securing an insulation distance between a plurality of electrodes.
An electric dust collecting apparatus according to an embodiment of the present invention includes a charging section for charging dust in the air and a dust collecting section for collecting the dust particles charged in the charging section, A plurality of second electrodes which are alternately stacked and grounded and which are grounded, and a case which receives the first and second electrodes and defines a dust collecting part, the case including a first electrode and a second electrode, And a dust collecting portion case having a first electrode supporting portion for supporting the first and second electrodes at predetermined intervals.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric dust collector and an electric home appliance including the electric dust collector.

      BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an electric dust collector and a home electric appliance including the same, and more particularly, to an electric dust collector and an electric home appliance including the electric dust collector, which ensure an insulation distance between a plurality of electrodes, .

Background Art [0002] Generally, an electric dust collecting apparatus is used by being installed in an electric home appliance such as an air conditioner or an air cleaner, and purifies air by collecting contaminants such as dust contained in the air.

In the dust collecting system of such an electric dust collecting apparatus, a two-stage electric dust collecting system in which a charging section and a dust collecting section are separated is adopted. The dust collecting part is generally used in such a manner that an electric field is formed by alternately arranging the high voltage electrode and the low voltage electrode.

However, when dust is trapped on the surface of the conventional electrode and accumulated on the surface of the electrode, electric current instantaneously flows from the conductive electrode to the surface of dust accumulated from the conductive electrode, so that insulation breakdown or discharge may occur between the electrodes, .

In order to prevent such a phenomenon, a low voltage electrode is covered with an insulator, and a spacer or a projection is formed on one side of the high voltage electrode or one side of the low voltage electrode to maintain a constant gap between the high voltage electrode and the low voltage electrode So that the gap between the two electrodes is maintained.

However, when the high-voltage electrode and the low-voltage electrode are covered with the plastic resin, the dust-collecting portion is excellent in terms of prevention of dielectric breakdown because an insulating distance between both electrodes is sufficiently secured. However, since both electrodes are covered with the plastic resin, There arises a problem that the potential drop and the surface potential rise of the low-voltage electrode occur and the performance of the dust collecting portion is substantially lowered.

Further, when the resistivity of the plastic resin of the high voltage electrode and the low voltage electrode is lowered, leakage current flowing through the spacer or the projection is increased to increase the output of the power supply device, resulting in power loss.

An aspect of the present invention is to provide an electric dust collecting apparatus and an electric home appliance including the electric dust collecting apparatus, wherein the performance of the dust collecting unit is not deteriorated while securing an insulation distance between a plurality of electrodes.

Another aspect of the present invention is to provide an electric dust collector and a home appliance including the same, which enable a charged voltage to be discharged at a high speed during operation of the electrostatic precipitator to ensure safety of a user.

An electric dust collecting apparatus according to an embodiment of the present invention includes a charging section for charging dust in the air and a dust collecting section for collecting the dust particles charged in the charging section, A plurality of second electrodes which are alternately stacked and grounded and which are grounded, and a case which receives the first and second electrodes and defines a dust collecting part, the case including a first electrode and a second electrode, And a dust collecting portion case having a first electrode supporting portion for supporting the first and second electrodes at predetermined intervals.

The case further includes an intermediate separator having a dust collecting section and a charging section, and having a second electrode supporting section for supporting the first and second electrodes at a predetermined interval in front of the first and second electrodes.

The first electrode supporting portion may include a plurality of first A supporting protrusions for supporting the main portions of the first and second electrodes.

The first electrode supporting portion may include a plurality of first B supporting protrusions selectively supporting outer portions of the first and second electrodes.

The first electrode supporting portion may further include a first C supporting protrusion on which a power connection terminal is provided, and the first C supporting protrusion may include a first and a second electrode supporting portions, And the second electrode supports the outermost portion of the first and second electrodes so as to be selectively connected to the power connection terminal.

The first electrode support portion includes a plurality of first AIA support protrusions for supporting the main portions of the first and second electrodes, and the second electrode support portion is formed corresponding to the first AIA support protrusions to support the first and second electrodes. 2A supporting protrusions.

The first electrode supporting portion may include a first electrode supporting portion and a second electrode supporting portion. The first electrode supporting portion may include a first electrode supporting portion and a second electrode supporting portion. And a second B-supporting protrusion which is brought into close contact with each other.

The first electrode and the second electrode may include fixing grooves for fixing the first and second electrodes to the first A support protrusions, respectively.

In addition, the first electrode and the second electrode may further include a seating groove to be seated on the first B supporting protrusion, respectively.

The power connection terminal includes a first power connection terminal electrically connected to the first electrode and a second power connection terminal electrically connected to the second electrode. The first and second power connection terminals are respectively connected to the first And a plurality of fixing protrusions to which the outermost portion of the second electrode is attached.

The power supply terminal further includes a spring-shaped power connection terminal selectively connected to the first and second electrodes.

The first and second electrodes are each provided in a flat plate shape.

The electric dust collector also includes a ground terminal for discharging the charged voltage during the operation of the electric dust collector.

The first ground terminal may include a first power terminal connected to the first electrode and a second power terminal electrically connected to the second electrode. The ground terminal may include a first ground terminal connected to the first power terminal, A second ground terminal connected to the second power connection terminal, and a third ground terminal for connecting or disconnecting the first ground terminal and the second ground terminal.

Further, the intermediate separator is formed of an insulating material.

In another aspect of the electric dust collecting apparatus according to the embodiment of the present invention, a dust collecting portion for collecting dust particles charged in the charging portion and a dust collecting portion for collecting dust charged in the charging portion include a plurality of ventilation holes A plurality of high voltage electrodes and a low voltage electrode alternately stacked between the dust collecting part case and the intermediate separating plate, wherein the dust collecting part case includes a frame part and a frame part to form a lattice structure; And a first electrode supporter formed integrally with the frame and the partition to support the high voltage electrode and the low voltage electrode to secure a gap between the high voltage electrode and the low voltage electrode.

The intermediate separator includes a rim portion, a reinforcing portion for reinforcing the rim portion to form a lattice structure, and a supporting portion for supporting the high-voltage electrode and the low-voltage electrode integrally protruding from the rim portion and the reinforcing portion, And a second electrode supporting portion for securing the second electrode supporting portion.

According to an embodiment of the present invention, there is provided a household appliance to which an electric dust collector is coupled, the electric dust collector including a charging portion charging the dust in the air, and a dust collecting portion collecting the dust particles charged in the charging portion, The dust collecting portion includes a plurality of first electrodes to which a high voltage is applied, a plurality of second electrodes which are alternately stacked and grounded with the first electrodes, and a case which receives the first and second electrodes to define the dust collecting portion, A dust collecting part case having a first electrode supporting part for supporting the first and second electrodes at a predetermined interval from the rear of the first and second electrodes, and a dust collecting part case for partitioning the dust collecting part from the charging part, 1 and a second electrode supporting portion for supporting the second electrode at predetermined intervals.

The dust collecting unit may include a first power connection terminal electrically connected to the first electrode, a second power connection terminal electrically connected to the second electrode, and a second power connection terminal connected to the first power connection terminal and the second power connection terminal, And a ground terminal for discharging the charged voltage during operation of the device.

The ground terminal includes a first ground terminal provided at one side edge of the dust case case, a second ground terminal provided at the other corner of the dust case case, and a second ground terminal formed adjacent to the through hole provided in the dust case case, And a third ground terminal made of an elastic material for connecting or disconnecting the ground terminal, and the household appliance includes a protrusion formed corresponding to the through hole to press the third ground terminal.

Therefore, in the electric dust collector according to the embodiment of the present invention and the household appliance including the same, the protruding structure is formed in the dust collecting case and the intermediate separator so as to keep the gap between the electrodes uniform And it is possible to prevent the problem of insulation breakdown without deteriorating the performance of the dust collecting part.

In addition, the ground terminal provided in the dust collecting unit discharges the charged voltage during the operation of the electrostatic precipitator so that the safety of the user can be ensured.

1 is a perspective view of an electric dust collector according to an embodiment of the present invention.
2 is a side view showing an electric dust collector according to an embodiment of the present invention.
3 is a perspective view illustrating a dust collecting part of the electric dust collector according to the embodiment of the present invention.
FIG. 4A is an enlarged view of the dust collection case shown in FIG. 3. FIG.
FIG. 4B is an enlarged view of a part shown in FIG. 4A.
FIG. 5A is an enlarged view of the intermediate separator shown in FIG. 3; FIG.
5B is an enlarged view of a part shown in FIG. 5A.
6A to 6C are enlarged views of the areas A, B, and C shown in FIG.
7 is a modification of the power connection terminal shown in FIG.
8A is a view showing the high voltage electrode shown in FIG.
FIG. 8B is a view showing the low-voltage electrode shown in FIG. 3. FIG.
9 and 10 are views showing a ground terminal according to an embodiment of the present invention.

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

FIG. 1 is a perspective view of an electric dust collector according to an embodiment of the present invention, and FIG. 2 is a side view illustrating an electric dust collector according to an embodiment of the present invention.

1 and 2, an electrostatic precipitator 1 according to an embodiment of the present invention includes a charging unit 10 for ionizing dust particles in the air, a charging unit 10 for charging the charging unit 10 with dust particles And a dust collecting part 20 for dust collection.

The charging section 10 includes a charging section case 11 having a suction port 11A formed therein and a discharge electrode 12 formed as a plus electrode through a discharge electrode power connection terminal 12A and a discharge electrode 12 And an opposing electrode 13 formed at an upper side and a lower side with a constant height difference and formed as a minus pole.

A direct current voltage is applied to the discharge electrode 12, and a corona discharge is generated between the discharge electrode 12 and the counter electrode 13. The discharge electrode 12 may include a discharge wire 12 in the form of a thin wire made of tungsten.

Therefore, when air is introduced into the electrostatic precipitator 1 from the suction port 11A and a high voltage is applied from the high voltage power source (not shown) to the discharge wire 12 through the discharge electrode power connection terminal 12A, The electric current starts to flow due to the high potential difference formed between the wire 12 and the counter electrode 13, and the corona discharge is caused to charge the dust in the air flowing in the arrow direction.

The dust collecting unit 20 is formed by alternately laminating the high voltage electrode 300 and the low voltage electrode 400 in order to collect the charged dust particles in the charging unit 10. The dust collecting unit 20 is described with reference to FIGS. 8 will be described in detail.

FIG. 3 is a perspective view illustrating a dust collecting portion of the electric dust collector according to the embodiment of the present invention. FIG. 4A is an enlarged view of the dust collecting portion case shown in FIG. FIG. 5A is an enlarged view of the intermediate separator shown in FIG. 3, FIG. 5B is an enlarged view of a portion shown in FIG. 5A, FIGS. 6A to 6C are cross- B, and C of FIG.

1 and 3 to 6, the dust collecting portion 20 of the electric dust collecting apparatus 1 according to the embodiment of the present invention includes a dust collecting portion case 100, an intermediate separating plate 200, (300), a plurality of low voltage electrodes (400), and a power connection terminal (500).

The dust collecting case 100 may be combined with the charging case 11 described above to form the appearance of the electrostatic precipitator 1. [ The dust collecting case 100 may have a lattice structure having a plurality of ventilation holes 100A.

For example, the dust collecting part case 100 includes a frame part 110, a partition part 120 partitioning the frame part 110 into a plurality of ventilation holes 100A and reinforcing the rigidity of the frame part 110 Lt; / RTI >

The partition 120 includes a first compartment 121 extending in the stacking direction D1 of the electrode and a second compartment 121 extending in the electrode arrangement direction D2 so as to intersect the first compartment 121, (122). ≪ / RTI >

The frame 110 includes a first frame portion 111 extending from the left side in the electrode stacking direction D1 and a second frame portion 111 extending from the right side in the stacking direction D1 of the electrodes, (112). ≪ / RTI >

The first frame supporting part 111, the second frame part 112 and the first partition part 121 are provided with a plurality of electrodes 300 and 400 to secure a space between the electrodes 300 and 400, Is formed.

The first electrode support 130 includes a first A support protrusion 131 for supporting a main portion of the electrodes 300 and 400 and a first B support protrusion 132 for supporting an EDGE portion of the electrodes 300 and 400. [ . ≪ / RTI >

The first A support protrusions 131 support the main parts except the outer edges of the electrodes 300 and 400 to secure a gap between the electrodes 300 and 400. The first A support protrusions 131 are formed in the first partition 121, One end 111A of the first frame part 111 adjacent to the ventilation hole 100A and one end 112A of the second frame part 112 adjacent to the ventilation hole 100A.

The first A support protrusions 131 may be formed in any shape that supports the electrodes 300 and 400 to secure a gap between the electrodes 300 and 400.

6A to 6C, when the first 1A support protrusions 131 are arranged in a zigzag manner so as to form a constant gap 131A, the first 1A support protrusions 131 are spaced apart from each other by a predetermined gap 131A And the electrodes 300 and 400 are supported on the first and second electrodes.

The first A-supporting protrusions 131 may be integrally protruded from the first ends 111A and 112A of the first and second frame parts 111 and 112 and the first dividing part 121. The first A- May be formed of a combination of a cylinder and a cone, or may be formed of a triangular protrusion, a rectangular protrusion, and other polygonal protrusions.

The first B support protrusions 132 are provided adjacent to the first A support protrusions 131 to support the outer portions of the electrodes 300 and 400.

The first B support protrusion 132 prevents unnecessary electrical interference between the power supply connection terminal 500 and the electrodes 300 and 400 which are not in close contact with the power supply connection terminal 500.

The first B support protrusions 132 formed on the first frame part 111 and the first B support protrusions 132 formed on the second frame part 112 can support the different electrodes 300 and 400. For example, Only the outer portion of the low voltage electrode 400 is supported by the first B supporting protrusions 132 formed on the first frame portion 111 and the second frame portion 112 is formed on the second frame portion 112 as shown in FIGS. Only the outer portion of the high voltage electrode 300 can be supported by the formed first B supporting protrusion 132. [

Also, the first B support protrusion 132 may serve to fix the position of the electrodes 300 and 400 when the electrodes 300 and 400 selectively contact the power connection terminal 500.

The first electrode supporter 130 may further include a first C support protrusion 133 for supporting an extreme edge portion of the electrodes 300 and 400. The first C support protrusions 133 are provided at the other end 111B of the first frame part 111 and at the other end 112B of the second frame part 112 to support the outermost portions of the electrodes 300 and 400.

The first C support protrusions 133 provided in the first frame part 111 and the second frame part 112 are respectively provided with a power connection terminal 500.

6A, the power connection terminal 500 is connected to the first power connection terminal 510 (not shown) which is provided on the first C support protrusion 133 formed on the first frame part 111 and is electrically connected to the low voltage electrode 400, And a second power connection terminal 520 provided on the first C support protrusion 133 formed on the second frame part 112 and electrically connected to the high voltage electrode 300 as shown in FIG. 6C .

The first and second power connection terminals 510 and 520 are provided with a plurality of fixing protrusions 510A and 520A which are provided on the first C supporting protrusions 133 and on which the outermost portions of the electrodes 300 and 400 are mounted.

The power connection terminals 500 'and 510' may be formed in a spring shape adjacent to the first and second B-supporting protrusions 131 and 132 as shown in FIG. It goes without saying that the first C supporting protrusion 133 may be omitted when the power connecting terminal 500 '(510') is formed in a spring shape.

The intermediate separator 200 may be disposed between the electrification unit case 11 and the dust collection unit case 100 to form an appearance of the dust collection unit 20 and may be coupled to the dust collection unit case 100. The intermediate separator 200 fixes the electrodes 300 and 400 together with the dust collecting case 100 at regular intervals.

The intermediate partition plate 200 may have a lattice structure having a plurality of ventilation holes 200A as in the case 100 of the dust collection unit. For example, the intermediate separator 200 includes a rim 210, a reinforcing portion 220 for dividing the rim 210 into a plurality of ventilation holes 200A and reinforcing the rigidity of the rim 210, ≪ / RTI >

The reinforcing portion 220 includes a first reinforcing portion 221 extending in the electrode stacking direction D1 and a second reinforcing portion 221 extending in the electrode arranging direction D2 so as to intersect the first reinforcing portion 221. [ And a reinforcing portion 222 as shown in FIG.

The frame 210 includes a first frame 211 extending from the left in the stacking direction D1 of the electrode and a second frame 212 extending from the right in the stacking direction D1 of the electrode ). The first rim portion 211 is formed to correspond to the second frame portion 112 of the dust collecting portion case 100 and the second rim portion 212 is formed on the first frame portion 111 of the dust collecting portion case 100 Respectively.

A plurality of electrodes 300 and 400 are supported on the first rim 211, the second rim 212 and the first reinforcement 221 to secure a gap between the electrodes 300 and 400, Is formed.

The second electrode supporting part 230 is formed to correspond to the first electrode supporting part 130 so as to support the electrodes 300 and 400. The second electrode supporting part 230 is formed corresponding to the first A supporting protrusions 131, And a second B support protrusion 232 formed to correspond to the first C support protrusion 133 and to allow the outermost portion of the electrodes 300 and 400 and the power connection terminal 500 to be in close contact with each other, ).

The second 2A supporting protrusions 231 support the electrodes 300 and 400 together with the first A supporting protrusions 131. The second A supporting protrusions 231 include a first reinforcing portion 221, One end 211A of the rim portion 211 and one end 212A of the second rim portion 212 adjacent to the ventilation hole 200A.

The first and second support protrusions 231 and 231 may be formed in any shape capable of supporting the electrodes 300 and 400 in the same manner as the first support protrusions 131. For example, when the two second AIA support protrusions 231 are arranged in a staggered manner with a predetermined gap 231A so as to correspond to the first AIA support protrusions 131, the second AIA support protrusions 231 are formed in a predetermined gap 231A And may be shaped to support one of the electrodes 300 and 400.

The second AE support protrusions 231 may be integrally protruded from the first ends 211A and 212A of the first and second rims 211 and 212 and the first reinforcement 221. Needless to say, the second AIA support protrusion 231 may be formed by combining a cylinder and a cone, a shape of a triangular protrusion, a shape of a square protrusion, and other polygonal protrusions.

The second B support protrusions 232 are provided on the outer sides of the first and second frame parts 111 and 112 so as to allow the first and second power connection terminals 510 and 520 and the electrodes 300 and 400 to be selectively in close contact with each other. May be formed to fit in the gap 133A formed between the first C supporting projections 133 to which the fixing protrusions 510A and 520A of the two power connection terminals 510 and 520 closely contact.

That is, the fixing protrusions 510A and 520A of the first and second power connection terminals 510 and 520 are respectively installed on the first C supporting protrusions 133 and the outermost portion of the electrode 300 is connected to the second power connecting terminal 520 And the outermost portion of the electrode 400 is brought into close contact with the fixing protrusion 510A of the first power connection terminal 510. The second B supporting protrusion 232 is in contact with the first C supporting protrusion 133 so that the first and second power connection terminals 510 and 520 and the electrodes 300 and 400 are firmly tightly coupled to each other.

Meanwhile, the intermediate separator 200 may be formed of an insulating material and may serve to isolate the dust collecting unit 20 from the charging unit 10. The high voltage electrode 300 of the dust collecting unit 20 is insulated by an insulating layer (not shown), but the outermost portion of the high voltage electrode 300 contacting the power connecting terminal 500 is opened by a conductive material. Prevents the current from flowing to the charging unit 10 from the open most outermost portion so that the performance of the dust collecting unit can be secured without the voltage drop of the dust collecting unit 20 due to current leakage.

FIG. 8A is a view showing the high voltage electrode shown in FIG. 3, and FIG. 8B is a view showing the low voltage electrode shown in FIG.

As shown in FIGS. 8A and 8B, the high voltage electrode 300 is formed in a flat plate shape including a first insulating layer 310, a second insulating layer 320, and a conductive layer 330.

The conductive layer 330 includes an electrode portion 331 provided between the first insulating layer 310 and the second insulating layer 320 and a second insulating layer 330 formed on the electrode portion 331, And a terminal connection portion 332 exposed to the outside of the layer 320 and connected to the second power connection terminal 520. That is, the terminal connection portion 332 forms the outermost portion of the high voltage electrode 300 and is electrically connected to the second power connection terminal 520 installed in the second frame portion 112.

A plurality of fixing grooves 300A may be provided on both sides of the high voltage electrode 300 with a predetermined distance therebetween. The fixing groove 300A allows the high voltage electrode 300 to be easily stacked in the process of stacking the high voltage electrode 300 on the dust collecting case 100 and the intermediate separating plate 200, And the second support protrusions 231 of the intermediate separator 200.

A mounting groove 300B is formed on one side of the high voltage electrode 300 so as to correspond to the first B supporting protrusion 132 of the dust collecting case 100.

On the other hand, the conductive layer 330 is made of a material having good electrical conductivity, for example, metal, carbon, or the like. The first and second insulating layers 310 and 320 may be formed of a material having a high volume resistivity and a high surface resistivity at an insulator level where electricity can not pass.

The low-voltage electrode 400 is made of a plate-like material having good electrical conductivity. The low voltage electrode 400 may be formed of a single piece of metal film such as stainless steel (SUS) or aluminum so as not to be damaged even if micro discharge is generated. That is, the low-voltage electrode 400 does not include an insulator such as a plastic resin in order to avoid a decrease in the electric field intensity occurring on the surface of the low-voltage electrode 400.

The low voltage electrode 400 also includes a terminal connection part 410 connected to the fixing protrusion 510A of the first power connection terminal 510. [ That is, the terminal connection part 410 forms the outermost part of the low voltage electrode 400 and is electrically connected to the first power connection terminal 510 installed in the first frame part 111.

A plurality of fixing grooves 400A are disposed at both sides of the low voltage electrode 400 with a predetermined distance therebetween. The fixing groove 400A allows the low voltage electrode 400 to be easily stacked in the process of being stacked on the dust collecting unit case 100 and the intermediate separating plate 200, And the second support protrusions 231 of the intermediate separator 200.

In addition, a seating groove 400B is formed on one edge of the low voltage electrode 400 to correspond to the first B supporting protrusion 132.

A high voltage of positive polarity is applied to the high voltage electrode 300 through the second power connection terminal 520 and the low voltage electrode 400 is connected to the earth through the first power connection terminal 510, .

As a result, when the corona discharge occurs in the charging section 10 and the dust particles in the air are charged with plus, the dust particles charged with plus are minus in the dust collecting section 20 due to the Coulomb force, Voltage electrode 400 on the other side.

The polarity of the high voltage power source (not shown) connected to the second power connection terminal 520 may be either positive or negative, and may also be a pulse voltage.

Also, the electric dust collector according to the embodiment of the present invention may include the ground terminal 600 as shown in FIGS. 1, 9 and 10.

The ground terminal 600 includes a first ground terminal 610 electrically connected to the first power connection terminal 510, a second ground terminal 620 electrically connected to the second power connection terminal 520, And a third ground terminal 630 for connecting or disconnecting the first ground terminal 610 and the second ground terminal 620.

The first ground terminal 610 and the second ground terminal 620 may be connected to the first power connection terminal 510 and the second power connection terminal 520 at one side edge and the other side edge of the dust case case 100, And is fixedly installed.

The third ground terminal 630 is connected to the first ground terminal 610 and the second ground terminal 610 so as to connect or disconnect the first ground terminal 610 and the second ground terminal 620, 2 grounding terminal 620. In this embodiment,

That is, when the protrusion 700A of the counterpart 700 is fitted into the through-hole 100B of the dust-collecting case 100, the protrusion 700A of the counterpart 700 is connected to the third grounding terminal The second ground terminal 630 is pressed downward so that the third ground terminal 630 can separate the first ground terminal 610 and the second ground terminal 620.

When the projecting portion 700A of the object 700 inserted into the through hole 100B of the dust collecting case 100 is removed, the third grounding terminal 630 is restored upward by the resilient force so that the first grounding terminal 610, And the second ground terminal 620 are connected to each other.

9, the third ground terminal 630 is connected to the first ground terminal 610 and the second ground terminal 620 in a state where the electric dust collector 1 is separated from the object 700. [ So that a voltage charged in the electric dust collector 1 can be discharged.

10, when the electric dust collector 1 is installed in a counterpart 700 such as an air cleaner or an air conditioner, the first ground terminal 610 and the second ground terminal 630 are connected by the third ground terminal 630, The second ground terminal 620 is disconnected to be able to perform the operation of the electric dust collector 1.

Accordingly, the charged voltage in the operation of the electric dust collector 1 is discharged in a short period of time, thereby ensuring the safety of the user.

Reference numeral 30 denotes a clip having a hook structure for improving the fastening force between the charging section 10 and the dust collecting section 20. Reference numeral 500A denotes a first medium connecting the first power connecting terminal 510 to a high- And 500B is a second medial terminal for grounding the second power connection terminal 520. Fig.

1 Electrostatic precipitator 10 Electrification unit
11: charging unit case 12: discharging electrode
13: opposing electrode 20:
100 ... dust collecting case 200 ... middle separating plate
300 ... high voltage electrode 400 ... low voltage electrode
500 ... Power connection terminal 600 ... Ground terminal

Claims (20)

An electric dust collecting apparatus comprising: a charging section for charging dust in the air; and a dust collecting section for collecting dust particles charged in the charging section,
The dust collecting portion includes a plurality of first electrodes to which a high voltage is applied, a plurality of second electrodes which are alternately stacked and grounded with the first electrodes, and a case that accommodates the first and second electrodes to define the dust collecting portion ≪ / RTI &
Wherein the case includes a dust collecting portion case having a first electrode supporting portion for supporting the first and second electrodes at a predetermined interval from the rear of the first and second electrodes. The method according to claim 1,
And the case includes an intermediate separator having a second electrode supporting portion for partitioning the dust collecting portion from the charging portion and supporting the first and second electrodes at a predetermined distance in front of the first and second electrodes . The method according to claim 1,
Wherein the first electrode supporting portion includes a plurality of first A-supporting protrusions for supporting a main portion of the first and second electrodes. The method according to claim 1,
Wherein the first electrode supporting portion includes a plurality of first B supporting protrusions for selectively supporting outer portions of the first and second electrodes. The method according to claim 1,
Further comprising a power connection terminal selectively connected to the first and second electrodes,
The first electrode supporting portion may further include a first C supporting protrusion on which the power connection terminal is installed,
Wherein the first C supporting protrusions support the outermost portions of the first and second electrodes so that the first and second electrodes are selectively connected to the power connection terminal. 3. The method of claim 2,
The first electrode support portion includes a plurality of first AIA support protrusions for supporting a main portion of the first and second electrodes,
Wherein the second electrode supporting portion includes a plurality of second A 2A supporting protrusions formed corresponding to the first A supporting protrusions and supporting the first and second electrodes. 3. The method of claim 2,
And a first C supporting protrusion provided with a power connection terminal selectively connected to the first and second electrodes,
And the second electrode supporting portion includes a second B supporting protrusion formed to correspond to the first C supporting protrusion so that the power connection terminal and the first and second electrodes are tightly coupled to each other. The method of claim 3,
Wherein the first electrode and the second electrode each include a fixing groove for fixing to the first A support protrusion. 5. The method of claim 4,
Wherein the first electrode and the second electrode are respectively mounted on the first B supporting protrusions. 6. The method of claim 5,
Wherein the power connection terminal includes a first power connection terminal electrically connected to the first electrode and a second power connection terminal electrically connected to the second electrode,
Wherein the first and second power connection terminals include a plurality of fixing protrusions to which the outermost portions of the first and second electrodes are attached, respectively. The method according to claim 1,
And a spring-shaped power connection terminal selectively connected to the first and second electrodes. The method according to claim 1,
Wherein the first and second electrodes are each provided in a flat plate shape. The method according to claim 1,
And a ground terminal for discharging the charged voltage during operation of the electric dust collector. 14. The method of claim 13,
A first power connection terminal electrically connected to the first electrode, and a second power connection terminal electrically connected to the second electrode,
The ground terminal includes a first ground terminal connected to the first power connection terminal, a second ground terminal connected to the second power connection terminal, and a second ground terminal connected to the first ground terminal and the second ground terminal. 3 < / RTI > ground terminal. 3. The method of claim 2,
Wherein the intermediate separator is formed of an insulating material. A dust collecting part for dusting the dust particles charged in the charging part;
Wherein the dust collecting portion includes a dust collecting portion case and an intermediate separating plate having a lattice structure having a plurality of ventilation holes to define the dust collecting portion and a plurality of high voltage electrodes and a low voltage electrode alternately stacked between the dust collecting portion case and the intermediate separating plate,
The dust collecting part case includes a frame part, a partition part for partitioning the frame part to form the lattice structure, and a supporting part for supporting the high voltage electrode and the low voltage electrode integrally projecting from the frame part and the partition part, And a first electrode supporting portion for securing an interval between the electrodes. 17. The method of claim 16,
The intermediate separator includes a rim portion, a reinforcing portion that reinforces the rim portion to form the lattice structure, and a supporting portion that is integrally protruded from the rim portion and the reinforcing portion to support the high voltage electrode and the low voltage electrode, And a second electrode supporting portion for securing an interval between the low-voltage electrodes. A household appliance (1) to which an electric dust collector is coupled,
The electric dust collecting apparatus includes a charging unit charging the dust in the air, and a dust collecting unit collecting the dust particles charged in the charging unit,
The dust collecting portion includes a plurality of first electrodes to which a high voltage is applied, a plurality of second electrodes which are alternately stacked and grounded with the first electrodes, and a case that accommodates the first and second electrodes to define the dust collecting portion ≪ / RTI &
Wherein the case comprises: a dust-collecting portion case having a first electrode supporting portion for supporting the first and second electrodes at a predetermined interval from the rear of the first and second electrodes; and a dust collecting portion case partitioning the dust- And an intermediate separator having a second electrode support portion for supporting the first and second electrodes at a predetermined interval in front of the second electrode. 19. The method of claim 18,
The dust collecting unit includes a first power connection terminal electrically connected to the first electrode, a second power connection terminal electrically connected to the second electrode, and a second power connection terminal connected to the first power connection terminal and the second power connection terminal And a ground terminal for discharging the charged voltage in operation of the electric dust collector. 20. The method of claim 19,
The ground terminal includes a first ground terminal provided at one side edge of the dust case case, a second ground terminal provided at the other corner of the dust case case, and a second ground terminal formed adjacent to the through hole provided in the dust case case, And a third ground terminal of an elastic material for connecting or disconnecting the second ground terminal,
And the household appliance includes a protrusion formed corresponding to the through hole to press the third ground terminal.

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