KR20150078329A - Using electromagnet belt for cyclone dust collector - Google Patents

Abstract

The present invention relates to a cyclone dust collector using an electromagnet and, more specifically, to a cyclone dust collector using an electromagnet, capable of enhancing dust collection efficiency as metal dust of dusts generated in an industrial field allows a radius rotated in a dust collector to be optimized by a magnetic force of electromagnets. The cyclone dust collector using electromagnets according to the present invention comprises: a dust housing (100) having an inlet hole (110) through which dust (10) containing metals flows from the outside, an outlet hole (120) which allows the dust (10) to be collected and discharged, and an exhaust hole (130) which allows air filtered from the dust (10) to be discharged to the outside; an electromagnet unit (200) which generates a magnetic force through a plurality of coil plates (210) placed on the outer surface of the dust housing (100), and enables the metals contained in the dust (10) to be moved along the inner side of the dust housing (100) while forming a vortex; and a connection unit (300) which mutually connects the coil plates (210, 210′) by being arranged between the coil plate (210) and a different coil plate (210′) and allows the coil plates (210, 210′) to be detachable from the outer side of the dust housing (100).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cyclone collecting apparatus using an electromagnet,

The present invention relates to a cyclone collecting apparatus using an electromagnet, and more particularly, to a dust collecting apparatus capable of improving the dust collection efficiency by optimizing the radius of rotation of the metal dust in the dust collector through the magnetic force of the electromagnet To a cyclone collecting apparatus using an electromagnet.

The dust collector was first used to remove ash particles contained in the flue gas of the boiler and is now being used to prevent soot and other particulates from the chimney of the plant from being discharged into the atmosphere and causing air pollution.

Such fine particles are as fine as 1 mm to 1 μm or less, and relatively large ones are easy to remove, but it is difficult to remove fine particles having such an adverse effect on the human body.

The dust collecting method using dust collectors has various kinds such as gravity and filtration, inertial centrifugal force, acoustic wave, and washing, and there are mechanical and electric type largely, and dry type Wet is used.

In the dust collector, the dust collecting device is called a scrubber. The dust collecting device is called a scrubber. In addition to a chemical factory, it is also used for cleaning air in general factories and theaters. The scrubber includes a jet scrubber for jetting and cleaning a cleaning liquid as a jet, Cyclone scrubbers and various scrubbers are used.

The most efficient of these dust collectors is an electric type, and a representative example of the electric dust collectors is cotrel, and a high voltage is applied to a dust collecting electrode such as a pipe, a plate, and a rod wire, and a gas containing particulates is passed between them, .

Such cotrel is not influenced by particle size property and temperature pressure, and the collection rate is as high as 98%, but there is a problem that installation and operation cost of the facility is high.

Particularly, in the case of fine particles or dust containing a metal in various dusts, metal dust is not smoothly collected depending on the weight or size of the metal.

In the case of a general mechanical dust collector, it is difficult to filter the dust of the metal, and since the dust collecting efficiency is remarkably lowered, there is a problem that the dust is smoothly collected and discharged to the atmosphere without being processed.

Patent Document Patent Registration No. 10-0584737 Patent Document Patent No. 20-0269959

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above problems, and it is an object of the present invention to provide a cyclone dust collecting apparatus using an electromagnet according to the present invention, which is capable of efficiently collecting metal dust by smoothly installing or separating electromagnets, And to provide a cyclone dust collecting apparatus using the electromagnet.

The cyclone collecting apparatus using the electromagnet according to the present invention is intended to provide a cyclone collecting apparatus using an electromagnet which can be installed and used smoothly while minimizing cost due to small installation, maintenance, and installation area.

A cyclone collecting apparatus using an electromagnet according to the present invention provides a cyclone dust collecting apparatus using an electromagnet which can minimize the influence of temperature and improve the dust collecting efficiency of metal dust having a relatively large particle diameter while having a low pressure loss .

An object of the present invention is to provide a cyclone dust collecting apparatus using an electromagnet capable of minimizing environmental pollution by minimizing dust exhaust into the atmosphere by smoothly collecting and treating metal dust.

The cyclone collecting apparatus using the electromagnet according to the present invention comprises an inlet hole 110 through which dust 10 containing metal is introduced from the outside to the inside thereof and a discharge hole 120 through which the dust 10 is collected and discharged, And an exhaust hole (130) for allowing the air filtered by the dust (10) to be exhausted to the outside; A plurality of metal plates are disposed on the outer surface of the dust housing 100 to generate magnetic force through the coil plate 210 so that the metal contained in the dust 10 forms a vortex along the inner surface of the dust housing 100, An electromagnet portion 200 for guiding the electromagnet 200 to be able to rotate; And between the coil plate 210 and the other coil plate 210 'to interconnect the coil plates 210 and 210', and the coil plates 210 and 210 ' And a connecting portion 300 for detachable from the outer surface of the housing.

The electromagnetic coil 200 has a plurality of coil plates 210 and 210 'connected to each other in a horizontal direction to form a ring-shaped band. The coil plates 210 and 210' 100, and a plurality of the spacers are stacked.

The electromagnet part 200 is provided with a plurality of switches 220 capable of supplying and disconnecting electricity to the respective coil plates 210 and 210 '.

The connection unit 300 includes a connection bundle 310 disposed between the coil plates 210 and 210 'and a connection bundle 310 extending from the connection bundle 310 in the direction in which the coil plate 210 is disposed. A single connecting piece 320 extending from one side of the connecting plate 310 to form a single connecting hole 322 formed in a direction perpendicular to the extending direction of the coil plate 210; A pair of connecting pieces 330 extending to the other side of the connecting bundle 310 in a direction perpendicular to the extending direction and forming a pair of connecting holes 332 perforated in a direction perpendicular to the extending direction, A pair of fastening pieces 340 extended from the coil plate 210 to surround the single connecting piece 320 while having a pair of fastening holes 342 to be drilled so as to be pierced by the pair of connecting holes 332, (352) having a corresponding perforated hole (352), and is extended from the coil plate (210 ' A single connecting piece 320 and a pair of connecting pieces 340 and a pair of connecting pieces 330 and a single connecting piece 350 are fixed to each other while being inserted into the pair connecting piece 330, Or a fastening pin 360 that is detachably detached.

The single connection piece 320 includes an interval adjusting bolt 370 formed to be reciprocally movable in the connection bundle 310 so as to adjust the interval between the coil plates 210 and 210 ' The bundle 310 includes a thread groove 380 that allows the short adjustment bolt 370 to flow therein.

The dust housing 100 is provided on the inner surface of the dust housing 100 so that a metal contained in the dust 10 forms a vortex and is collected and discharged through the discharge hole 120. Inside the dust housing 100, And a discharge spiral protrusion 140 protruding in a spiral shape in the direction of the discharge spiral.

The dust 10 flowing into the dust housing 100 through the inflow hole 110 is formed in the dust housing 100 in which the inflow hole 110 is formed, And a collision plate 150 for guiding the collision plate 150 to flow downward while being collided.

The cyclone collecting apparatus using the electromagnet according to the present invention can electromagnetically smoothly install or separate the electromagnets in the dust collector to collect the metal dust. Therefore, by changing the position of the electromagnet used in correspondence with the particle state of the metal dust, There is a technical effect that dust collection efficiency of dust can be optimized.

The cyclone dust collecting apparatus using the electromagnet according to the present invention has an economical effect that the dust collector for collecting metal dust can be installed and used smoothly and the cost for installation and maintenance can be minimized.

The cyclone collecting apparatus using the electromagnet according to the present invention has a technical effect that the dust collection efficiency of the metal dust can be improved while the pressure loss is low without being affected by the temperature.

The cyclone dust collecting apparatus using the electromagnet according to the present invention has an effect of being used in which environmental pollution can be minimized by smoothly collecting and treating metal dust.

1 is a view showing a cyclone dust collecting apparatus using an electromagnet according to the present invention.
FIG. 2 is a view showing the use state of the cyclone dust collecting apparatus using the electromagnet according to the present invention.
3 is a plan view of a cyclone dust collecting apparatus using an electromagnet according to the present invention.
4 is a view showing a main part of a cyclone dust collecting apparatus using an electromagnet according to the present invention.
5 is a view showing the use state according to Fig.
6 is a view showing an embodiment of a cyclone dust collecting apparatus using an electromagnet according to the present invention.
7 is a view showing the use state according to Fig.
8 is a view showing another embodiment of a cyclone collecting apparatus using an electromagnet according to the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It is also to be understood that the position or arrangement of the individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views, and length and area, thickness, and the like may be exaggerated for convenience.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

In the following detailed description, for example, a cyclone collecting apparatus using an electromagnet, which improves the dust collecting efficiency by optimizing the radius of rotation of the metal dust in the dust collector through the magnetic force of the electromagnet, , An electromagnetic part, a connection part] can be equally applied.

1 is a view showing a cyclone dust collecting apparatus using an electromagnet according to the present invention.

FIG. 2 is a view showing the use state of the cyclone dust collecting apparatus using the electromagnet according to the present invention.

3 is a plan view of a cyclone dust collecting apparatus using an electromagnet according to the present invention.

1 to 3, a cyclone collecting apparatus using an electromagnet according to the present invention includes a dust housing 100 in which dust 10 containing metal is introduced into the dust collecting chamber 100, dust and dirt accumulated in the dust housing 100, And a connection part 300 connecting the plurality of electromagnetic parts 200 to each other.

The dust housing 100 includes an inlet hole 110 through which dust 10 containing a metal flows from the outside to the inside thereof, a discharge hole 120 through which the dust 10 is collected and discharged, And an exhaust hole (130) for exhausting the air filtered by the dust (10) to the outside.

The inlet hole 110 is formed at an upper portion of the dust housing 100 so that external dust 10 can be introduced into the dust housing 100 through the inlet hole 110. [ to be.

The exhaust hole 120 is formed in the lower part of the dust housing 100 so that the dust 10 introduced into the dust housing 100 forms a vortex and collects the dust in the dust housing 100. And can be discharged to the outside.

In addition, the exhaust hole 130 is formed in the upper part of the dust housing 100 so that the dust 10 introduced into the dust housing 100 is filtered through a filter (not shown) or the like, So that the air can be exhausted to the outside of the dust housing 100.

When electricity is supplied to the electromagnetic housing 200, the dust housing 100 may be made of a metal that reacts with magnetic force so as to be firmly fixed to the outer surface of the dust housing 100 while being magnetized .

The electromagnet part 200 is fixed to the outer surface of the dust housing 100 securely even when the electromagnet part 200 is not supplied with electricity by the connection part 300 .

The electromagnetic portion 200 generates magnetic force through a plurality of coil plates 210 disposed on the outer surface of the dust housing 100 so that the metal contained in the dust 10 is discharged to the dust housing 100 To form a vortex along the inner surface of the inner tube (not shown).

A plurality of electromagnetic coil 200 and a plurality of coil plates 210 'other than the coil plate 210 are disposed while surrounding the outer surface of the dust housing 100 in a band shape.

Here, the coil plates 210 and 210 'may be formed by winding a coil 214 made of a conductor through which current can flow in the drum 212 made of iron.

The electromagnetic coil 200 has a plurality of coil plates 210 and 210 'connected to each other in a horizontal direction to form a ring-shaped band. The coil plates 210 and 210' A plurality of spaced apart spaced apart spacers are arranged according to the height of the housing (100).

In an exemplary embodiment, the electromagnetic coil 200 may include a plurality of coil plates 210 and 210 'which are horizontally connected to each other to form a ring-shaped band while surrounding the outer surface of the dust housing 100. have.

In addition, a plurality of circular strips of a plurality of the coil plates 210 and 210 'may be spaced apart from each other according to the vertical height of the dust housing 100, and the ring- And can be spaced apart.

It is a matter of course that the circular band formed of the coil plates 210 and 210 'can be formed in multiple stages as long as the dust 10 flowing into the dust housing 100 can be smoothly collected.

At this time, in order to completely form the circular band shape in which the electromagnetic part 200 is formed continuously through the plurality of coil plates 210 and 210 ', the coil plate 210 and the other coil plate 210' And the connection unit 300 is connected to the connection unit.

The circular band layers constituted by the coil plates 210 and 210 'disposed on the outer surface of the dust housing 100 are formed in such a manner that the dust 10 entering into the dust housing 100 is separated from the inner surface of the dust housing 100 And the discharge holes 120 from the lower portion of the inflow hole 110 so as to be able to flow through the centrifugal force.

The electromagnet unit 200 may be provided with a plurality of switches 220 capable of supplying and disconnecting electricity to the respective coil plates 210 and 210 '.

Since the switch 220 can turn on and off the coil plates 210 and 210 'separately, the user can smoothly move the coil plates 210 and 210' according to the load of the dust 10, It is possible to control the number of used units.

When the amount of the electromagnet is changed according to the user's need, the switch 220 can be used safely by adjusting the number of the electromagnet.

In particular, the switch 220 may be a case made of a magnetic material so as to be firmly disposed on the dust housing 100 made of a metal to which the magnetic material adheres.

Here, the switch 220 is connected to a power supply (not shown) to supply or cut off power supplied from the outside to the coil plates 210 and 210 '.

The connection part 300 is disposed between the coil plate 210 and the other coil plate 210 'to interconnect the coil plates 210 and 210' and the coil plates 210 and 210 ' Are smoothly detachable from the outer surface of the dust housing 100.

Here, the connection unit 300 is disposed between the coil plate 210 and the other coil plate 210 'so that the power supplied to the coil plate 210' and the coil plate 210 ' Conductor.

In addition, the connection unit 300 may be formed of a magnetic material so that the coil plate 210 and the coil plate 210 'are mutually connected and firmly fixed to the outer surface of the dust housing 100.

That is, the coil plate 210 and the other coil plate 210 'are firmly connected to each other through the connection part 300, and the power supplied by the control of the switch 220 is different from the coil plate 210 The electromagnetic coil 200 is supplied to the coil plate 210 'so that magnetism can be generated while being firmly disposed on the outer surface of the dust housing 100.

An external dust may be introduced into the dust housing 100 through the inflow hole 110 of the dust housing 100 and the dust 10 may be introduced into the dust housing 100 through the dust housing 100. In the cyclone dust collecting apparatus using the electromagnet according to the present invention, The powder is rotated in the dust housing 100 by different centrifugal force depending on the particle size and weight of the dust housing 100.

At this time, the dust 10 having a heavy weight is collected while being moved to a state adjacent to the inner surface of the dust housing 100 while having a centrifugal force and a turning radius larger than that of the dust 10 having a small weight.

The lightweight dust 10 rotates inside the dust housing 100 while having a smaller centrifugal force and a smaller turning radius than the heavy dust 10.

In this case, the dust 10, which is rotated inside the dust housing 100 while having a centrifugal force and a turning radius smaller than that of the heavy dust 10, is discharged to the exhaust hole 130 formed in the center of the dust housing 100, As shown in FIG.

That is, the dust 10 is collected while being moved along the inner surface of the dust housing 100. In case of the particles 10 or the dust having a small weight, the dust 10 flows over the center of the dust housing 100 and is not collected And is exhausted to the outside through the exhaust hole 130. [

In order to minimize dust particles 10 or small-sized particles 10 from being collected on the center of the dust housing 100, an electromagnetic part 200 is disposed on the outer surface of the dust housing 100 to generate magnetism, Is used.

When the magnet 200 receives power from the outside and generates magnetism, dust 10, which is small in weight and small in weight, is discharged from the center of the dust housing 100 to the outside of the dust housing 100, So that it can be collected.

The collected dust 10 is discharged to the outside of the dust housing 100 through the discharge hole 120 and is treated.

As a result, the electromagnetic part 200 generates the eddy current which is introduced into the dust housing 100 using the magnetic force of the electromagnet, thereby optimizing the dust collecting efficiency of the dust 10 It will be possible to do.

4 is a view showing a main part of a cyclone dust collecting apparatus using an electromagnet according to the present invention.

5 is a view showing the use state according to Fig.

4 and 5, a cyclone collecting apparatus using an electromagnet according to the present invention includes a dust housing 100 in which a dust 10 containing a metal is introduced from outside to the inside and collected, An electromagnetic part 200 disposed on the outer surface of the dust housing 100 and a connection part 300 connecting the plurality of electromagnetic parts 200 to each other.

The connection unit 300 includes a connection bundle 310 disposed between the coil plates 210 and 210 'and a connection unit 310 connecting the connection plate 310 and the coil plate 210, And may include a single connecting piece 320 extending to one side of the bundle 310 and forming a single connecting hole 322 perforated in a direction perpendicular to the extending direction.

The connection unit 300 extends from the connection bundle 310 to the other side of the connection bundle 310 in a direction in which the coil plate 210 'is disposed and is punched in a direction perpendicular to the extending direction And may include a pair of connecting pieces 330 forming a pair of connection holes 332.

In addition, the connection unit 300 may include a pair of coupling holes 342 formed in the coil plate 210 so as to correspond to the single connection hole 322, and may extend from the coil plate 210 to surround the single connection piece 320 And may include a pair of coupling pieces 340 connected thereto.

The coupling portion 300 may include a single coupling hole 352 formed in the coupling hole 330 to correspond to the pair of coupling holes 332 and may extend from the coil plate 210 ' And may include a single fastener piece 350 which is connected while being inserted into the first fastener piece 350.

The coupling pin 360 may be detachably connected to the single coupling piece 320, the pair of coupling pieces 340, and the single coupling piece 350 and the single coupling piece 350.

The single connecting piece 320 and the single connecting piece 330 may be disposed so that the positions of the single connecting piece 320 and the single connecting piece 330 are mutually exchanged, It is natural that it is disposed corresponding to the connecting piece 330.

Any one of the single connection hole 322 and the pair of connection pieces 332 may be elongated in the longitudinal direction of the single connection piece 320 and the pair of connection pieces 330, 300 can smoothly connect between the coil plates 210, 210 '.

Likewise, any one of the pair of fastening holes 342 and the single fastening hole 352 may be formed long in the longitudinal direction of the pair of fastening pieces 340 and the single fastening piece 350, The connecting portion 300 can smoothly connect the coil plates 210 and 210 '.

A screw groove (not shown) may be formed in the inner diameter of the single connection hole 322 and the single fastening hole 352. A bolt surface (not shown) which can be fastened to the screw groove may be formed on the outer surface of the fastening pin 360. [ (Not shown) may be formed.

The single connection piece 320 is disposed between a pair of fastening pieces 340 extending from the coil plate 210. The single coupling piece 320 is inserted into the coil plate 210, The single connection hole 322 and the pair of coupling holes 342 are disposed at corresponding positions.

In this state, the coupling pin 360 passes through the pair of coupling holes 342 and the single coupling hole 322, and then passes through the other pair of coupling holes 342, So that it can be firmly connected to the coil plate 210.

The pair of coupling holes 330 and the single coupling hole 352 are arranged so as to surround the single coupling piece 350 extended from the coil plate 210 ' As shown in FIG.

In this state, the coupling pin 360 passes through the pair of coupling holes 332 and the single coupling hole 352, and then passes through the other pair of coupling holes 332, So that it can be firmly connected to the coil plate 210 '.

In order to separate the connecting portion 300 from the coil plates 210 and 210 ', the pair of coupling holes 342, the single coupling hole 322, the pair of coupling holes 332, The connecting pin 300 and the coil plates 210 and 210 'can be separated from each other by allowing the coupling pin 360 to be detached from each of the holes 352.

Particularly, the switch 220 also has the configuration of the single connection piece 320 and the pair of connection pieces 330 so that the switch 220 can be easily fastened or separated to the coil plates 210 and 210 ' .

The connection part 300 and the coil plates 210 and 210 'are added or removed regardless of the diameter of the dust housing 100 so that the electromagnet part 200 is inserted into the dust housing 100 So that it can be connected and separated easily and firmly on the outer surface.

If the coil plates 210 and 210 'can be smoothly connected or separated from each other, the connection part 300 may be formed in various shapes and structures Of course.

6 is a view showing an embodiment of a cyclone dust collecting apparatus using an electromagnet according to the present invention.

7 is a view showing the use state according to Fig.

6 and 7, the cyclone collecting apparatus using the electromagnet according to the present invention includes a dust housing 100 in which metal-containing dust 10 is introduced into the inside and collected, An electromagnetic part 200 disposed on the outer surface of the dust housing 100 and a connection part 300 connecting the plurality of electromagnetic parts 200 to each other.

The single connection piece 320 may include an interval adjusting bolt 370 formed to be reciprocally movable within the connection bundle 310 so as to adjust the distance between the coil plates 210 and 210 '.

The connection bundle 310 may include a screw groove 380 for allowing the short adjustment bolt 370 to flow therein.

That is, a bolt surface that can be fastened to the screw groove 380 is formed on the outer surface of the gap adjusting bolt 370, so that the gap adjusting bolt 370 can be inserted into the screw groove 380 The interval between the connection bundle 310 and the coil plates 210 and 210 'can be changed.

The gap adjusting bolts 370 are elongated in a direction in which the connection bundle 310 and the coil plates 210 and 210 'are arranged side by side.

As a result, when the gap adjusting bolt 370 is fully inserted into the thread groove 380 and fixed, the interval between the connection bundle 310 and the coil plates 210 and 210 ' Is shorter than an interval between the coupling bundle 310 and the coil plates 210 and 210 'when the coupling plate 310 partially enters the screw groove 380 and is fixed.

In contrast, when the gap adjusting bolt 370 partially penetrates into the thread groove 380 and is fixed, the gap adjusting bolt 370 is inserted into the thread groove 380, The gap between the coil plate 310 and the coil plates 210 and 210 'becomes longer.

The gap between the connection bundle 310 and the coil plates 210 and 210 'can be easily adjusted through the configuration of the gap adjusting bolt 370 and the screw groove 380 formed in the connection bundle 310 .

8 is a view showing another embodiment of a cyclone collecting apparatus using an electromagnet according to the present invention.

Referring to FIG. 2, a metal contained in the dust 10 forms a vortex on the inner surface of the dust housing 100 and is guided so as to be collected and discharged through the discharge hole 120 A discharge spiral protrusion 140 protruding in a spiral shape inward from the inner surface of the dust housing 100 may be included.

The dust 10 introduced into the dust housing 100 through the inflow hole 110 is introduced into the dust housing 100 through the inflow hole 110. [ 100), and a collision plate (150) for guiding the collision plate (150) to flow downward while colliding with the collision plate (150).

The impingement plate 150 may be formed in such a way that the dust 10 containing the metal flowing into the dust housing 100 collides with the discharge spiral protrusion 140 while being guided by the impingement plate 150, Thereby helping the dust 10 form a vortex.

The discharge spiral protrusion 140 may be formed in the dust housing 10 so that the metal contained in the dust 10 can be discharged through the dust discharge unit 100 by the air volume and wind speed of a blowing fan (not shown) And flows through the spiral protrusion 140 to generate a vortex.

That is, when wind is supplied from the blowing fan to the inside of the dust housing 100, a vortex is generated in the wind by the discharge spiral protrusion 140, so that the dust separated from the harmful gases 30, Is guided along the vortex and is collected at a high speed and can be discharged to the outside of the dust housing (100) through the discharge hole (120).

With this configuration, since the electromagnets can be installed or separated smoothly in the dust collector to collect the metal dust, it is possible to optimize the dust collecting efficiency of the metal dust by changing the position of the electromagnet used in correspondence with the state of the metal dust It is possible to obtain a technical effect.

In addition, it is possible to obtain an economical effect that a dust collector for collecting metal dust can be smoothly installed and used, and the cost of installation and maintenance can be minimized.

In addition, it is possible to obtain a technical effect that the dust collection efficiency of the metal dust can be improved while the pressure loss is low without being influenced by the temperature.

In addition, the metal dust can be smoothly collected and treated to minimize the environmental pollution.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is to be understood that the invention may be embodied in many other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

10: Dust
100: dust housing 110: inflow hole
120: Exhaust hole 130: Exhaust hole
140: Discharge spiral projection 150: Collision plate
200: electromagnetic part 210, 210 ': coil plate
212: drum 214: coil
220: Switch
300: connection 310: connection bundle
320: single connection piece 322: single connection hole
330: pair connection piece 332: pair connection hole
340: a pair of fastening pieces 342: a pair of fastening holes
350: single fastening piece 352: single fastening hole
360: fastening pin 370: gap adjusting bolt
380: screw groove

Claims (7)

1. A dust collecting apparatus comprising: an inlet hole (110) through which dust (10) containing a metal from the outside to the inside flows; an exhaust hole (120) A dust housing (100) including an exhaust hole (130) allowing the exhaust gas to be exhausted to the exhaust port
A plurality of metal plates are disposed on the outer surface of the dust housing 100 to generate magnetic force through the coil plate 210 so that the metal contained in the dust 10 forms a vortex along the inner surface of the dust housing 100, An electromagnet portion 200 for guiding the electromagnet 200 to be able to rotate; And
The coil plates 210 and 210 'are disposed between the coil plate 210 and the other coil plate 210' to interconnect the coil plates 210 and 210 ' And a connecting part (300) which is detachable from the outer surface of the cyclone collecting device.
The method according to claim 1,
The electromagnet part (200)
A plurality of coil plates 210 and 210 'are connected to each other in a horizontal direction to form a ring-shaped band. The coil plates 210 and 210', which are in the form of strips, are spaced apart from each other by a height of the dust housing 100 And a plurality of the electromagnets are stacked and arranged.
The method according to claim 1,
The electromagnet part (200)
Wherein a plurality of switches (220) capable of supplying and disconnecting electricity are disposed in each of the coil plates (210, 210 ').
The method according to claim 1,
The connection unit 300 includes:
A connection bundle 310 disposed between the coil plates 210 and 210 '
A single connection hole 322 extending from one side of the connection bundle 310 in a direction in which the coil plate 210 is disposed in the connection bundle 310 and forming a single connection hole 322 in a direction perpendicular to the extending direction, A connecting piece 320,
A pair of connection holes 332 extending from one side of the connection bundle 310 in a direction in which the coil plate 210 'is disposed in the connection bundle 310 and perforated in a direction perpendicular to the extending direction A pair of connecting pieces 330,
A pair of fastening pieces 340 extending from the coil plate 210 and enclosing the single connection piece 320 and having a pair of fastening holes 342 formed to be punched in correspondence with the single connection holes 322, ,
A single fastening piece 352 extending from the coil plate 210 'and being inserted into the pair of connecting pieces 330 while having a single fastening hole 352 formed to be punched in correspondence with the pair of connecting holes 332, 350,
And a coupling pin 360 that is detachably attached to the single coupling piece 320 and the pair of coupling pieces 340 and the single coupling piece 330 and the single coupling piece 350 so as to be mutually fixed or separated.
5. The method of claim 4,
The single connection piece (320)
And an interval adjusting bolt (370) formed to be able to reciprocate in the connection bundle (310) so as to adjust the interval between the coil plates (210, 210 '),
The connection bundle (310)
And a screw groove (380) for allowing the short adjustment bolt (370) to flow therein.
The method according to claim 1,
On the inner surface of the dust housing 100,
The metal dust contained in the dust 10 forms a vortex and is collected and discharged through the discharge hole 120. In order to guide the metal to be discharged through the discharge hole 120, A cyclone collecting apparatus using an electromagnet including a spiral protrusion (140).
The method according to claim 1,
In the dust housing 100 in which the inflow hole 110 is formed,
A collision plate 150 for guiding the dust 10 flowing into the dust housing 100 through the inflow hole 110 to flow downward while colliding with the dust housing 100 when the dust 10 flows into the dust housing 100, A cyclone collecting device using an electromagnet.

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