KR920009015Y1 - Dust collector - Google Patents

Abstract

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Description

Electric dust collector without blower

1 is a block diagram of a conventional electrostatic precipitator.

Figure 2 (a) is a schematic diagram of the ventilation holes formed in the dust collector case in the blower-less electrostatic precipitator of the present invention, (b) the coupling of the dust collector case and the high voltage generator, (c) is the blowerless electric of the present invention The structural diagram of the dust collector and discharge electrode in a dust collector, (d) is sectional drawing with respect to B-B 'of (b), (e) is sectional drawing with reference to A-A' of (d).

3 is a coupling diagram between the blower-less electrostatic precipitator and the electrode according to the present invention.

* Explanation of symbols for main parts of the drawings

1, 1 ': discharge electrode 2, 2': dust collector

3: blower 4,4 ': high voltage generator

5: dust collector case 6: electrode

7: underlay 8: fixing screw

9 vent hole 10 discharge needle

The present invention collects the dust particles contained in the air sucked by the ion wind phenomenon through a plurality of ventilation holes formed in the dust collector case, and the clean air is naturally discharged to the upper part of the dust collector by the ion wind. It relates to an electrostatic precipitator without a blower.

In the conventional electrostatic precipitator, as shown in FIG. 1, a discharge electrode 1 for ionizing dust particles and a dust collecting electrode 2 for collecting dust particles ionized positively by the discharge electrode 1 And a blower (3) for discharging clean air to the outside, and a high voltage generator (4) for connecting different electrodes to the dust collecting electrode (2) and the discharge electrode (1) to perform the function of the dust collector. .

In the operation of the conventional electrostatic precipitator configured as described above, first, when the DC power supply 4 is applied to the dust collector, the positive potential of the DC power supply 4 is applied to the discharge electrode 1, and the negative potential is Since the dust collector 2 and the discharge electrode 1 are opposed to each other by being applied to the dust collector 2, an ionization field is formed between the discharge electrode 1 and the dust collector 2.

Subsequently, air is sucked into the dust collector through the suction port A by the operation of the blower 3, and dust particles contained in the sucked air are formed between the discharge electrode 1 and the dust collecting electrode 2. When the ionizing field is reached, the dust particles are ionized with electrical properties by the discharge electrode 1 having a positive potential to be charged to the anode, and the dust particles charged to the anode are charged to the negative potential according to suction force. While the dust collector 2 is collected, the clean air excluding the dust particles performs the function of the dust collector in such a manner that the operation of discharging the clean air to the outside through the discharge port B by the blower 3 is repeated.

However, the conventional electrostatic precipitator consumes a lot of power to drive the blower 3 used to discharge clean air to the outside through the discharge port B, except for the dust particles collected in the dust collecting electrode 2. Noise is generated by the wind generated by the driving of the blower 3, and as the blower 3 is mounted in the dust collector, the weight of the overall dust collector becomes heavy and the size of the dust collector increases, thereby increasing the installation space of the dust collector. There are many problems such as complicated manufacturing process.

Accordingly, the present invention has been made in view of the various problems as described above, and an object of the present invention is to inhale air by an ion wind phenomenon through a plurality of ventilation holes formed outside of the dust collector case, and ionized by the discharge electrode. Particles are collected in the dust collecting pole, and the clean air is provided with a blower-less electrostatic precipitator that discharges naturally to the outside by the ion wind generated from the discharge electrode toward the dust collecting pole.

Another object of the present invention, by not installing a blower in the dust collector, to reduce the weight of the entire dust collector, to reduce the installation space, to reduce the waste of power consumed by the blower, to provide a blower-less electric dust collector to reduce the manufacturing cost It is.

In order to achieve the above object, the electric dust collector without the blower according to the present invention has a plurality of vents formed on the outside to allow air to be sucked into the dust collector, and a dust collector to supply power by embedding an electrode in a hanging jaw inside. The upper part of the upper part of the case, a cylindrical inverse fallopian tube shape and a dust collecting electrode in which the air collected through the air vents collects dust particles, and the ion wind is directed upward. Forming a sharp discharge needle to ionize the dust particles, characterized in that it consists of a discharge electrode for generating an ion wind by the action of the dust collector, and a high voltage generator for applying a voltage to the dust collector to exhibit the performance of the dust collector.

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

FIG. 2 (a) is a schematic diagram of the ventilation holes formed in the dust collector case of the blower-less electric dust collector of the present invention, and FIG. 2 (b) is the dust collector case and the high voltage generator of the blower-free electric dust collector of the present invention. FIG. 2 (c) is a structural diagram of the dust collecting electrode and the discharge electrode in the blowerless electric dust collector of the present invention, and FIG. 2 (d) is the B-B 'of FIG. 2 (b). FIG. 2E is a cross sectional view taken along line AA ′ of FIG. 2D.

2 (a) to 2 (e), (5) is provided with a latching jaw 11 for fixing the discharge electrode 1 'and the dust collecting electrode 2' which will be described later. On the left, right, upper and lower locking jaws 11, the electrode 6 is embedded to supply power, and the dust collector case is provided with a plurality of vent holes 9 on the outside thereof, and 4 'is an underlay 7. It is supported by the high voltage generator fixed to the dust collector case (5) by using a tool such as a screw (8) to apply the DC voltage of different potentials to the dust collector and the discharge electrode to exhibit the performance of the dust collector, ( 9) is a vent hole, a plurality of is formed on the outer side of the dust collector case (5) and the DC voltage is applied to the dust collector to suck air when the dust collector is operated, (1 ') has a cylindrical inverse fallopian tube shape and sharp It is a discharge electrode in which several discharge needles 10 of a shape are formed.

In addition, (2 ') is a dust collecting pole for collecting the ionized dust particles in the shape of a cylindrical inverted fallopian tube like the discharge electrode (1'), (6) is a left side placed inside the dust collector case (5) Buried in the upper and lower locking jaws 11, the DC voltage of the high voltage generator 4 ′ is applied to the dust collecting electrode 2 ′ and the discharge electrode 1 ′.

In the dust collector having the structure as described above, ionization of the dust particles is performed by the discharge electrode 1 ', and a plurality of sharp discharge needles 10 are formed in the shape of the inverted fallopian tube of the win tube type, so that the shape of the local electric field is reduced. Easy, ionization is performed more effectively.

That is, due to the plurality of sharp discharge needles 10, dust particles are not collected on the surface of the discharge electrode 1 ', and as a result, the discharge electrode 1' can always maintain a sharp state, and thus ionization efficiency for the dust particles. The advantage is that it can be kept constant without deteriorating.

On the other hand, the shape of the collecting electrode 2 'is in the form of a cylindrical inverted fallopian tube, which maintains a uniform thickness of the dust particles ionized by the ionizing action of the discharge electrode 1' on the collecting electrode 2 '. While the dust can be collected and the number of cleanings is reduced accordingly, dust particles are collected in a uniform thickness on the dust collecting pole 2 ', and sparks are generated due to the unevenness of the dust collecting layer. It can be prevented beforehand.

In addition, it also serves to naturally discharge the ionic wind generated by the high voltage applied to the cylindrical discharge electrode 1 'from the discharge electrode 1' toward the dust collecting electrode 2 '.

Next, FIG. 3 is explained.

3 shows the connection relationship between the blower-less electric dust collector and the electrode according to the present invention. First, when the direct current power generated by the high voltage generator 4 'is applied to the dust collector to operate the electric dust collector, the dust is ionized. The dust collecting electrode 2 'for collecting the particles is placed at a negative potential, and the discharge electrode 1' for ionizing the dust particles becomes a potential to form an ionization field between the dust collecting electrode 2 'and the discharge electrode 1'.

In the state in which an ionization field is formed between the dust collecting electrode 2 'and the discharge electrode 1', ion air is introduced into the dust collector through a plurality of ventilation holes 9 formed in the outer portion of the dust collector case 5. When the air sucked by the A reaches the ionization field, the dust particles having a constant specific resistance contained in the air are ionized by the discharge electrode 1 ′ having a static potential to be charged to the anode.

With the anode, the charged dust particles are pushed out by the discharge electrode 1 'having the same polarity and are collected by the dust collecting electrode 2' placed at the opposite polarity, that is, the negative potential, while the dust collecting electrode 2 'is collected. Clean air excluding dust particles collected by) is repeatedly discharged upward by the ion wind generated from the discharge electrode 1 'toward the dust collecting electrode 2'.

For reference, the ion wind is a neutral gas that moves as a large amount of ions generated in a corona discharge electric field transfers momentum to a neutral gas molecule when it moves to an action force of an electric field, and is moved from a discharge electrode to a counter electrode regardless of the polarity of the discharge electrode. The wind velocity of the ion wind at the average field strength of 5.7 [kv / cm] for the mesh steel electrode relative to the needle electrode is 2.2 [m / sec].

Thus, according to the blower-less electrostatic precipitator of the present invention, the blower is driven because the clean air except the ionized dust particles collected by the dust collector is discharged to the outside by the ion wind generated from the discharge electrode toward the dust collector, so that the blower is driven. It is possible to reduce the consumption of power, and because the weight and size of the entire dust collector is reduced, there is also an economic effect that can reduce the installation space and reduce the manufacturing cost of the dust collector.

Claims (3)

A plurality of vent holes 9 are formed at the outside to allow the air to be sucked into the dust collector, and a dust collector case 5 for embedding the electrodes 6 in the latching jaw 11 provided therein to supply power; It has a cylindrical inverse fallopian tube shape and collects dust particles contained in the air sucked through the air vent 9 by the ion wind phenomenon, and at the same time the dust collecting pole 2 'having the ion wind directed upward. A high voltage generator that forms a sharp fallopian tube and forms a sharp discharge needle 10 thereon to ionize dust particles, and apply a voltage to the dust collector so as to exhibit the performance of the discharge electrode 1 'and the dust collector that generate ion wind. 7) Blowerless electric dust collector, characterized in that consisting of. 2. The blowerless electricity according to claim 1, wherein the ion wind is generated by a high voltage applied to the cylindrical discharge electrode 1 'and is discharged to the outside from the discharge electrode 1' toward the dust collecting electrode 2 '. Dust Collector. The blower (1) according to claim 1, wherein the discharge electrode (1 ') and the collecting electrode (2') are alternately installed so that the electrode (6) is embedded in the catching jaw (11) so that the positive electrode and the negative electrode are applied. Electrostatic precipitator.