JP2003211023A - Dust collecting element - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a dust collecting element capable of maintaining the high electric charge state of a dust collecting electret filter for a long period of time in a simple structure, prolonging the service life of the dust collecting electret filter and improving safety. <P>SOLUTION: A discharge electrode 2 and a counter electrode 3 are arranged inside an air course, the electret filter 4 arranged on the leeward of the discharge electrode 2 and the counter electrode 3 for collecting dust charged by the discharge electrode 2 and the counter electrode 3 is provided, and a resin net 5 provided with an opening part and composed of a semi-insulating resin is arranged respectively on the windward and leeward of the electret filter 4. A DC high voltage is applied between the semi-insulating resin 5 and the electret filter 4. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a dust collecting element for capturing dust which is airborne particles.

[0002]

2. Description of the Related Art A conventional dust collecting element has an ionization section (charging section) for charging dust on the windward side to collect the charged dust on the leeward side in order to remove dust in the air. An electric dust collecting method in which a collector portion (dust collecting portion) is arranged is used. Further, a deodorizing filter for adsorbing and removing by a physical or chemical adsorption method is used to remove odorous gas components in the air. A sheet-shaped electret filter is often used for the collector portion of the dust collecting element used in a general household air cleaner or the like in order to reduce the thickness and simplify the maintenance.

FIG. 5 is a longitudinal sectional view of the main part of the air cleaner disclosed in, for example, Japanese Unexamined Patent Publication No. 5-84421. A deodorizing filter carrying an ionization part, a sheet-shaped electret filter, and a particulate adsorbent. An air cleaning element (dust collecting element) is disclosed.

In the figure, 1 is a front cover, 2 is a discharge electrode, 3 is a counter electrode, 4 is a dust collecting electret filter,
9 is a deodorizing filter, 10 is a pre-filter, 11 is a fan, and 12 is a motor. The discharge electrode 2 is composed of a metal wire wire, and the counter electrode 3 is composed of a metal flat plate. The dust collecting electret filter 4 is a breathable planar dust collecting material made of a polypropylene fiber non-woven fabric which is ultrafine and has a diameter of 2 to 3 μm made by a melt blown method, and has a height of 25 mm, Pitch 5.5m
It is processed into a m-fold shape and the periphery is shaped with a thick non-woven frame plate. The basis weight of the breathable sheet-like dust collecting material of this nonwoven fabric is about 60 g / m ² . The dimensions are 454 mm in width × 302 mm in length. As described above, the dust collecting electret filter 4 which is the folding type melt blown electret filter is configured to collect the dust contained in the air.
The deodorizing filter 9 is made of a deodorizing agent such as activated carbon.

Next, the operation will be described. Motor 12
Large dust is removed by the pre-filter 10 from the air sucked by the rotation of the fan 11 driven by. Subsequently, a high voltage is applied between the discharge electrode 2 and the counter electrode 3, and dust in the air is charged during this period and captured by the dust collecting electret filter 4. After that, gas components such as odorous components are adsorbed by the adsorbent of the deodorizing filter 9. The air purified in this way goes out indoors.

[0006]

In the conventional dust collecting element as described above, the dust collecting electret filter 4 must be maintained in a high electric charge state, but in the dust collecting electret filter 4 using the ultrafine fibers, the dust collecting electret filter 4 is trapped. Since a large amount of collected dust accumulates on the surface of the dust collecting electret filter 4, it becomes impossible to maintain a high charge state for a long period of time.
There is a problem that it is difficult to capture new dust and the life of the dust collecting element itself is shortened.

The present invention has been made to solve the above-mentioned problems, and can maintain the high charge state of the dust collecting electret filter for a long time with a simple structure and extend the life of the dust collecting electret filter. In addition, a dust collecting element with high safety is obtained.

[0008]

In a dust collecting element according to the present invention, a discharge electrode and a counter electrode are arranged in an air passage, and the discharge electrode and the counter electrode are arranged on the leeward side of the discharge electrode and the counter electrode. And a electret filter for collecting dust charged by the counter electrode, and a resin net made of semi-insulating resin having openings respectively on the windward side and the leeward side of the electret filter, and the semi-insulating property Apply a predetermined DC voltage between the resin and the electret filter

The resin net has a volume resistivity of 10
^{It is 8 to} 10 ¹³ Ωcm.

Further, the resin net is formed of an antistatic resin obtained by alloying a hydrophilic polymer containing a polyethylene oxide type polymer electrolyte as a component.

Further, at the portion of the electret filter where the flow of air passing through the dust collecting element is maximum,
A power supply unit for supplying a voltage to the resin net is provided.

Further, the power feeding portion is provided at the center of the resin net.

Further, a discharge electrode is arranged in the air passage, the discharge electrode is arranged on the leeward side of the discharge electrode, and the electret filter collects charged dust. The electret filter is formed of metal on the windward side. A flat plate provided with a net or an opening, and a flat plate provided with a net or an opening formed of a semi-insulating resin on the lee side of the electret filter, and the net or the opening of the discharge electrode and the metal. A predetermined voltage is applied between the flat plate provided with the net and the flat plate provided with the net or opening of the semi-insulating resin and the flat plate provided with the net of metal or the opening. To do.

[0014]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiment 1. 1 is an exploded perspective view of a dust collecting element according to a first embodiment of the present invention. In the figure, the same or corresponding parts as those in the conventional example are designated by the same reference numerals. 1 is a front cover, 2 is a discharge electrode, 3 is a counter electrode, 4 is a dust collecting electret filter, 5 is a semi-insulating resin, and a resin net disposed on the windward side and the leeward side of the dust collecting electret filter 4, 6 is a case that supports the discharge electrode 2 and the counter electrode 3, and 7 is a back case that supports the dust collecting electret filter 4 and the resin net 5.

Here, the discharge electrode 2 and the counter electrode 3 are made of metal, such as stainless steel, and a DC voltage of several kV is applied between both electrodes by a voltage circuit (not shown). Although the shape of the discharge electrode 2 is a flat plate protrusion, it may be another shape, for example, a wire wire. As the dust collecting electret filter 4, a electret material produced by the melt blown manufacturing method is formed into a non-woven fabric and pleated (folded), processed into a honeycomb shape, a charged film honeycomb, or the like is used.

The resin net 5 is formed of a semi-insulating resin having a volume resistivity of 10 ^{8 to} 10 ¹³ Ωcm, and is arranged on the windward side and the leeward side of the dust collecting electret filter 4, and the resin net 5 and the dust collecting electret filter are arranged. During this period, a DC voltage of several kV, which is the same as the voltage applied between the discharge electrode 2 and the counter electrode 3, is applied. This semi-insulating resin is
It is molded from an antistatic resin formed by alloying a hydrophilic polymer containing a polyethylene oxide (PEG) -based polymer electrolyte as a main component. Although the resin net 5 has a mesh shape, it may have a shape having an opening through which air can pass, for example, a flat plate with holes. Here, the opening ratio of the holes formed in the mesh of the net or the flat plate is determined based on the capability of a fan (not shown) installed in the rear portion of the dust collecting element.

Next, the operation will be described. The dust in the air sucked into the dust collecting element by the rotation of the fan is positive or negative due to the corona discharge generated between the discharge electrode 2 and the counter electrode 3 when passing between the discharge electrode 2 and the counter electrode 3. To be charged. The charged dust is collected on the surface of the dust collecting electret filter 4 by the Coulomb force of the dust collecting electret filter 4. By the principle of such operation, the air passing through the dust collecting element is cleaned.

Here, the dust collecting electret filter 4
Since the electric charge generated by the direct current voltage of several kV applied to the dust collecting electret filter 4 and the resin net 5 makes it possible to maintain the held charge at a high potential, the dust collected on the surface of the dust collecting electret filter 4 is large. Even if accumulated, the high charge state can be maintained for a long period of time, new dust can be captured, and the dust collecting capability can be kept high for a long period of time. Although not shown, similar to the prior art,
Large dust and gas components in the air are removed by a prefilter and a deodorizing filter, respectively.

As described above, in the dust collecting element, the resin net 5 formed of the semi-insulating resin is arranged on the windward side and the leeward side, so that the dust collecting electret filter 4 is provided.
Since it is possible to maintain the electric charge held by the high potential, it is possible to maintain the dust collection capability high for a long period of time. In addition, the provision of the power supply unit on the leeward side semi-insulating resin does not affect the discharge electrode in the preceding stage. Further, since the resin net 5 is formed of the semi-insulating resin, even if the conductive particles are contained in the dust, it is possible to prevent sparks and suppress the generation of unpleasant sounds and light, and at the same time, Since a current does not flow, a conductive member made of other metal,
For example, it is possible to reduce the distance to a fan, a motor, etc. installed in the subsequent stage, there is no need for insulation, and a cheaper and simpler configuration is possible.

Embodiment 2. 2A and 2B are views showing a resin net of a dust collecting element according to Embodiment 2 of the present invention. FIG. 2A is a front view and FIG. 2B is an enlarged cross-sectional view of a portion bb of FIG. FIG. 3 is a relationship diagram between the surface potential distribution when a high voltage is applied to the resin net and the passing wind velocity distribution.

In the figure, the same or corresponding parts as those in the conventional example or the above-mentioned embodiment are designated by the same reference numerals. The structure of the dust collecting element other than the resin net 5 is the same as that shown in FIG. Reference numeral 8 denotes a rod-shaped power supply bar for supplying a high voltage to the resin net 5, which is made of a conductive metal such as copper, stainless steel, or zinc, and is embedded in the resin net 5 substantially in the center thereof. The high voltage power supply to the power supply bar 8 is performed from the end of the power supply bar 8 exposed from the resin net 5. In addition, although one power supply bar 8 is embedded in the substantially central portion of the resin net 5 in the vertical direction, it may be embedded in the substantially central portion in the horizontal direction, or a plurality of the bar may be provided.

Next, the operation will be described. Since the configuration other than the embedding of the power feeding bar 8 in the resin net 5 is the same as that of the first embodiment, the description will be given by diverting FIG. Due to the rotation of the fan, the dust in the air sucked into the dust collecting element, when passing between the discharge electrode 2 and the counter electrode 3,
Corona discharge generated between the discharge electrode 2 and the counter electrode 3 charges the battery positively or negatively. The charged dust is collected on the surface of the dust collecting electret filter 4 by the Coulomb force of the dust collecting electret filter 4. By such a principle, the air that has passed through the dust collecting element is cleaned.

Here, the dust collecting electret filter 4
The electric charge generated by the direct current voltage of several kV applied to the dust collecting electret filter 4 and the power feeding bar 8 of the resin net 5 makes it possible to maintain the held charge at a high potential, so that the captured dust collects the dust. It is possible to maintain a high charge state for a long period of time, capture new dust, and maintain a high dust collecting capability for a long period of time even if a large amount is accumulated on the surface of the.

Next, the surface potential distribution when a high voltage is applied to the resin net 5 through the power feeding bar 8 and the wind velocity distribution passing through the resin net 5 will be described with reference to FIG. In FIG. 3, the vertical axis represents the surface potential and the wind speed distribution, and the horizontal axis represents the distance of the resin net 5.

Since the resin net 5 is formed of a semi-insulating resin, the surface potential decreases as it moves away from the power feeding bar 8 which directly supplies a DC voltage due to the semi-insulating property. Therefore, when the feeding bar 8 is provided at the center of the resin net 5, the surface potential is highest at the center of the resin net 5 as shown in FIG. It becomes the surface potential. Regarding the wind speed, in general, the central portion where the pressure loss of case 6 has the least influence has the highest wind speed, and the amount of dust passing through in a unit time is also the largest.

Regarding the relationship between the dust collection efficiency, the surface potential and the wind speed,
When the surface potential is low, the electric field strength also becomes weak, so the effect on the dust collecting electret filter 4 becomes weak and the dust collecting efficiency becomes low. The amount of dust passing per unit time is large even at a high wind speed, and the passing speed is high, so that the dust collection efficiency is low. Therefore, in the second embodiment, the surface potential of the portion where the wind speed is high is maximized and the surface potential distribution of the resin net 5 as a whole is substantially matched with the wind speed distribution. The dust collection efficiency as a whole can be improved.

As described above, in the dust collecting element, since the distribution of the electric field strength of the resin net 5 substantially matches the wind velocity distribution, the dust collecting efficiency can be maintained substantially evenly and there is no dust collecting unevenness. A dust collection element can be provided.
Moreover, since the electric charge held by the dust collecting electret filter 4 can be maintained at a high potential, the dust collecting ability can be maintained high for a long period of time. Furthermore, since the resin net 5 is formed of a semi-insulating resin, even when conductive particles are contained in the dust, it is possible to prevent sparks and suppress the generation of unpleasant sounds and light, and at the same time, Since no current flows, it is possible to reduce the distance to a conductive member made of other metal, such as a fan or motor installed in the subsequent stage, which does not require insulation and is cheaper and easier. It is possible to have various configurations.

Embodiment 3. Fourth Embodiment FIG. 4 is an exploded perspective view of a dust collecting element showing a third embodiment of the present invention. In the figure, the same or corresponding parts as those in the conventional example or the above-described embodiment are designated by the same reference numerals. The third embodiment has a structure in which the counter electrode 3 and the resin net 5 on the windward side (left side with respect to the paper surface of FIG. 1) in the first embodiment are integrated, and have the functions of the discharge electrode 2 and the resin net. The counter electrode 3 is made of metal, and a direct current voltage of several kV is applied between both electrodes. The counter electrode 3 side is GND. Similarly, a DC voltage of several kV is applied between the resin net 5 and the counter electrode 3.

As the dust collecting electret filter 4, a electret material produced by the melt blown method is formed into a non-woven fabric and pleated, processed into a honeycomb shape, or a charged film honeycomb is used.
The resin net 5 has a volume resistivity of 10 ^{8 to} 10 ¹³ Ω.
The semi-insulating resin is formed of an antistatic resin obtained by alloying a hydrophilic polymer containing a polyethylene oxide (PEG) -based polyelectrolyte as a main component.

The counter electrode 3 and the resin net 5 have a mesh shape, but may be any shape having an opening through which air can pass, for example, a flat plate with holes. Then, the aperture ratio of the holes formed in the mesh of the net or the flat plate is determined by the capacity of the fan (not shown) installed behind it. Further, the shape of the discharge electrode 2 is shown as a flat plate projection, but it may be a wire wire.

Next, the operation will be described. Corona discharge generated between the discharge electrode 2 and the counter electrode 3 when the dust in the air sucked into the dust collecting element by the rotation of the fan (not shown) passes between the discharge electrode 2 and the counter electrode 3. Is charged positively or negatively. The charged dust is collected on the surface of the dust collecting electret filter 4 by the Coulomb force of the dust collecting electret filter 4. By such a principle, the air that has passed through the dust collecting element is cleaned.

Here, the dust collecting electret filter 4
Is several kV applied to the counter electrode 3 and the resin net 5.
Since the electric charge generated by the DC voltage of the electric charge can maintain the held electric charge at a high potential, even if a large amount of trapped dust is collected on the surface of the dust collecting electret filter 4, the high electric charge state can be maintained for a long period of time, and new dust is generated. It can be captured and the dust collection ability can be maintained high for a long period of time. Although not shown, large dust and gas components in the air are removed by a prefilter and a deodorizing filter, respectively, as in the prior art.

As described above, in the dust collecting element, the resin net 5 formed of semi-insulating resin is arranged, and the windward resin net and the counter electrode are integrated, so that the dust collecting element has a simple structure. Since the electric charge possessed by the electret filter 4 can be maintained at a high potential, it is possible to maintain the dust collecting capability high for a long period of time. Further, since the resin net 5 is formed of the semi-insulating resin, even if the conductive particles are contained in the dust, it is possible to prevent sparks and suppress the generation of unpleasant sounds and light, and at the same time, Since no current flows, it is possible to reduce the distance to a conductive member made of other metal, such as a fan or motor installed in the subsequent stage, which does not require insulation and is cheaper and easier. It is possible to have various configurations.

[0034]

Since the present invention is constructed as described above, it has the following effects.

The dust collecting element according to the present invention has the discharge electrode and the counter electrode arranged in the air passage, and is arranged on the leeward side of the discharge electrode and the counter electrode, and collects the dust charged by the discharge electrode and the counter electrode. With an electret filter, on the windward side and leeward side of the electret filter, a resin net made of semi-insulating resin having openings respectively is arranged, and a predetermined direct current is provided between the semi-insulating resin and the electret filter. By applying a voltage, the charge held by the electret filter can be maintained at a high potential, and the dust collection capability can be maintained high for a long period of time. In addition, since the resin net is molded with semi-insulating resin, even if conductive particles are contained in the dust, it is possible to prevent sparks and suppress the generation of unpleasant sounds and light to improve safety. At the same time, since no current flows, it is possible to reduce the distance to a conductive member made of other metal, such as a fan or motor installed in the subsequent stage, and there is no need for insulation. A cheaper and simpler configuration is possible.

The resin net has a volume resistivity of 10
^{Since it is 8 to} 10 ¹³ Ωcm, a high electric potential can be applied to the resin net for a long time, and the electric charge held by the electret filter can be maintained at a high electric potential, so that the dust collecting ability can be maintained high for a long period of time. It is possible to

Further, the resin net is formed of an antistatic resin formed by alloying a hydrophilic polymer containing a polyethylene oxide-based polymer electrolyte as a component, so that the conductive particles are contained in the dust. In this case, it is possible to prevent sparks and suppress the generation of unpleasant sounds and light, and at the same time, since no current flows, a conductive member made of another metal or the like, for example, a fan installed in the subsequent stage. It is possible to reduce the distance to a motor or the like, and there is no need for insulation, so that a cheaper and simpler configuration can be achieved.

Further, by providing a power feeding portion for supplying a voltage to the resin net at the portion of the electret filter where the flow of air passing through the dust collecting element is maximum, the dust collecting efficiency can be maintained substantially evenly. Therefore, it is possible to provide a dust collecting element having no dust collecting unevenness.

Further, since the power feeding portion is provided in the central portion of the resin net, the distribution of the electric field strength of the resin net can be substantially matched with the wind velocity distribution, and the dust collection efficiency can be maintained substantially evenly. It is possible to provide a dust collecting element having no dust collecting unevenness.

Further, a discharge electrode is arranged in the air passage, is arranged on the leeward side of the discharge electrode, has an electret filter for collecting charged dust, and is a mesh formed of metal on the windward side of the electret filter. Alternatively, a flat plate provided with an opening is provided, and a net formed of a semi-insulating resin or a flat plate provided with an opening is provided on the leeward side of the electret filter,
A predetermined voltage is applied between the discharge electrode and a metal net or a flat plate provided with openings, and a flat plate provided with a net or openings made of semi-insulating resin and a flat plate provided with a net or openings made of metal By applying the same voltage during the period, the electric charge held in the electret filter can be maintained at a high potential with a simple structure, so that the dust collecting capability can be maintained high for a long period of time. In addition, since the net is molded from semi-insulating resin, even if conductive particles are contained in the dust, it is possible to prevent sparks and suppress the generation of unpleasant sounds and light, thus improving safety. At the same time as possible, because no current flows,
It is possible to reduce the distance to a conductive member composed of other metal, such as a fan or a motor installed in the subsequent stage, does not require insulation, and a cheaper and simpler structure can be achieved. It is possible.

[Brief description of drawings]

FIG. 1 is an exploded perspective view of a dust collecting element showing a first embodiment of the present invention.

FIG. 2 is a view showing a resin net of a dust collecting element showing Embodiment 2 of the present invention.

FIG. 3 is a relationship diagram between a surface potential distribution when a high voltage is applied to the resin net of the dust collecting element according to the second embodiment of the present invention and a passing wind velocity distribution.

FIG. 4 is an exploded perspective view of a dust collecting element showing Embodiment 3 of the present invention.

FIG. 5 is a vertical sectional view of a main part of a conventional air cleaner.

[Explanation of symbols]

1 front cover, 2 discharge electrodes, 3 counter electrodes,
4 dust collecting electret filter, 5 resin net,
6 cases, 7 rear case, 8 power supply bar.

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) B03C 3/64 B03C 3/64 A 3/66 3/66

Claims (6)

[Claims] 1. An electret filter having a discharge electrode and a counter electrode arranged in an air passage, and arranged on the lee side of the discharge electrode and the counter electrode, for collecting dust charged by the discharge electrode and the counter electrode. In the dust collecting element having, a resin net made of a semi-insulating resin having an opening is disposed on the windward side and the leeward side of the electret filter, and a predetermined amount is provided between the semi-insulating resin and the electret filter. A dust collecting element characterized by applying the DC voltage of. 2. The resin net has a volume resistivity of 10 ⁸
The dust collecting element according to claim 1, wherein the dust collecting element has a thickness of 10 to 10 ¹³ Ωcm. 3. The resin net according to claim 1, wherein the resin net is formed of an antistatic resin formed by alloying a hydrophilic polymer containing a polyethylene oxide-based polymer electrolyte as a component. Dust collection element. 4. A power supply unit for supplying a voltage to the resin net is provided at a portion of the electret filter where the flow of air passing through the dust collecting element is maximum. Dust collection element. 5. The dust collecting element according to claim 3, wherein the power feeding portion is provided in a central portion of the resin net. 6. A dust collecting element having a discharge electrode arranged in an air passage, arranged on the lee side of the discharge electrode, and having an electret filter for collecting charged dust, wherein a metal is provided on the windward side of the electret filter. A flat plate provided with a net or an opening formed by the above, and a net formed of a semi-insulating resin or a flat plate provided with an opening is provided on the lee side of the electret filter, and the net of the discharge electrode and the metal Alternatively, a predetermined voltage is applied between the flat plate provided with the opening and the net of the semi-insulating resin or the flat plate provided with the opening and the plate of the metal or the flat plate provided with the opening. Dust collection element characterized by applying voltage.