KR101765703B1 - Wind power generator to be connected to an exhaust port of a dust collecting facility - Google Patents

Abstract

The present invention relates to a wind power generation apparatus fastened with an exhaust port of a dust collection apparatus, which uses wind discharged at a high pressure through the exhaust port of the dust collection apparatus to generate electric energy. According to the present invention, the wind power generation apparatus comprises: an exhaust port fastening unit combined with an end unit of the exhaust port; an outer shell unit combined with the other side of the exhaust port fastening unit to have a fastening groove; a frame unit which comprises: a circular ring; a fastening bar inserted into the fastening groove of the outer shell unit; and a rotary shaft fixing unit; a rotary wing unit formed at regular intervals and at a regular angle; a power generation tank unit which forms an internal space extended of the outer shell unit; a gear unit placed in the internal space of the power generation tank unit; a power generation unit placed on an external side surface of the power generation tank unit; a protective case combined with an external side surface of the power generation tank unit to protect the power generation unit; and a protective cover. The present invention is able to install the wind power generation apparatus on the exhaust port, where waste wind pressure is generated, without changing the structure of dust collection facilities, thereby recovering energy. In addition, since the apparatus can be installed also on an exhaust port, whose end is horizontal, the apparatus is capable of recovering energy without being influenced by the direction of the exhaust port of dust collection facilities. Since each component of the apparatus is formed in a module type, the assembly and disassembly are simple, leading to easy maintenance and low maintenance costs. The present invention is able to recover energy discarded from dust collection facilities at a relatively low cost, and to recover energy through waste wind pressure discarded at a relatively high efficiency while keeping active exhaust.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wind power generator for a dust collector,

The present invention relates to a device installed in a large facility such as a large building or a factory and attached to a dust collecting facility for collecting dust or harmful substances contained in air discharged to the atmosphere, The present invention relates to a wind turbine generator for generating electric energy by using wind generated by a wind turbine.

In a large facility such as a building or a factory, air is introduced from the outside to purify the inside air of a large facility, and the inside air is discharged to the outside.

At this time, when the internal air of a large facility is discharged, it is purified according to the regulations and discharged to the atmosphere.

Therefore, a large facility is equipped with a dust collecting device to purify the inside air of a large facility with a relatively high pollution degree, and then discharge it to the atmosphere.

1, the dust collector sucks contaminated air introduced from a large facility and purifies the air, and then discharges purified air to the atmosphere.

Such a dust collecting apparatus 1 includes a large-capacity blower 2 for sucking contaminated air and discharging purified air.

The blower 2 may be installed in the exhaust port 3, but it may be installed in various positions in various positions depending on the dust collecting system and structure of the dust collecting apparatus.

Meanwhile, the dust collector 1 sucks and purifies the internal air of the large facility by using the blower 2, and then discharges the air into the air, so that a considerable flow of wind is always generated in the air outlet 3.

Therefore, the prior art has been disclosed for recovering the wind pressure by generating electricity using the wind exhausted through the exhaust port 3 of the dust collector 1.

Background Art [0002] Conventional technology 1 discloses a power generation system using wind power, which is disclosed in Japanese Patent Application No. 10-2002-0000225, entitled " Power generation system using exhaust wind power. &Quot; The present invention relates to a power generation system using an exhaust wind power capable of producing and using electric power using wind power discharged from an air conditioning system for purifying or harmonizing air of an electric power generating system An air passage is provided in the air passage, and one end of the air passage is connected to an outlet connection part connected to an exhaust port of an air conditioning system which takes in indoor air and discharges the air to the outside, A hollow body connected to the outlet connection, and a hollow body disposed within the air passage, An air conditioner comprising: a power generation unit including a power generation device for generating electricity using wind power; and an air passage inside, wherein one end of the air passage is connected to the power generation unit, And a power supply device for regulating and rectifying and storing the voltage generated in the power generation unit.

However, in the prior art 1, as shown in Fig. 2 (a) for explaining the prior art using the conventional wind pressure, there is a problem that the power generation unit is formed in a multi-layered structure, There is a problem in that the structure of the antenna must be changed.

A conventional wind power generation apparatus for chimney installation has been disclosed in the prior art 2 application No. 10-2011-0062617, which solves the above-described problems of the prior art 1.

The conventional art 2 includes a venturi tube which is a bottleneck tube having a long shape; A wind turbine in which a blade of a wind turbine is directed to an induction plate and the wind turbine is installed as two upper and lower wind turbine support rods in an inner circumference of an exhaust port, A tail blade vertically assembled at the center of the vent hole at the center of the grill rib type tail blade support grille; A rotary shaft outer cylinder having a predetermined length integrally formed with the bearing block; Venturi tube Rotary shaft height and chimney stack Inside the inlet of the cylinder, the cylinder has three dimensions on the upper and lower inner circumference of the cylinder. A rotary shaft support tube integrally provided with a circular flange on the lower side and a stopper b mounted on the upper side of the cylindrical body at intervals of 180 °; Wherein a circular flange is formed on an upper surface and a circular socket is assembled to a lower end of the circular flange. The venturi tube is provided with a ventilation pipe A technical feature is disclosed in which a more accelerated airflow rate is applied to the blades of the wind turbine generator to reduce the driving force of the air conditioner that discharges to the chimney while improving the power generation efficiency as compared with a general wind turbine generator.

However, the conventional art 2 has an advantage that it can be installed directly on the exhaust port of the dust collecting facility, compared to the conventional art 1, but the conventional art 2 can also be installed only vertically.

In summary, the conventional art 1 has a problem that the exhaust part of the dust collecting facility must be newly changed or changed, so that it is difficult to apply it universally and thus it is difficult to apply it to existing dust collecting facilities. Or the conventional art 2 can be applied to an exhaust pipe formed in a vertical direction, but it can not be applied to an exhaust pipe formed in a horizontal direction as shown in Fig. 1, which is the most form of exhaust pipes. There is a problem that recovery capacity and efficiency are limited in recovering energy.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a wind power generator capable of recovering energy by directly installing the dust collector without changing the structure of the dust collector.

It is another object of the present invention to provide a wind power generator which can be installed also in an exhaust port whose end of the exhaust port is in the horizontal direction.

It is another object of the present invention to provide a wind turbine generator in which each component is configured in a module form, thereby facilitating maintenance.

It is another object of the present invention to provide a wind power generator which can be installed at a relatively low cost.

Furthermore, it is an object of the present invention to provide a relatively high-efficiency wind turbine generator that generates energy through abandoned wind pressure while maintaining smooth exhaust.

Other objects, features and advantages of the present invention will become apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.

In order to achieve the above object, the present invention has the following technical features.

An exhaust-entrainment type wind turbine generator of a dust collecting apparatus installed in an exhaust port of a dust collecting apparatus having a blower means is provided with an exhaust port which is fixedly connected to a distal end portion of the exhaust port in a cylindrical shape, Fastening portion; An outer tube portion having a cylindrical shape and one side inserted and fastened to the other side of the exhaust hole fastening portion and having a fastening groove formed in an inner side surface thereof in the longitudinal direction; A plurality of circular rings inserted in the inner side surface of the outer tube and formed at equal intervals in the longitudinal direction and a coupling bar longitudinally coupled to the outer side of the plurality of circular rings and inserted into the coupling groove of the outer tube, And a rotation shaft fixing part for fixing the rotation shaft; A rotating blade having a rotating shaft connected to the rotating shaft fixing part of the skeleton part and rotating at a longitudinal center of the skeleton part, and a plurality of rotating blades formed at equal intervals and an equal angle along the rotating shaft; A power generating cylinder coupled to the other end of the outer cylinder in a cylindrical shape to form an extended inner space of the outer cylinder; A first rotating shaft which is located in an inner space of the power generating tube and is coupled to a rotating shaft end of the rotating blade and a second rotating shaft which is formed perpendicularly to the first rotating shaft, A coaxial shaft having a gear portion connected by a gear at a predetermined gear ratio; A power generation unit located on an outer surface of the power generation tube and connected to a second rotation axis of the gear unit to generate electricity; A protective case that includes the power generation portion and is coupled to an outer surface of the power generation tube portion to protect the power generation portion; And a protective cover fastened and secured to the power generation tube in the longitudinal direction and protecting the power generation tube with smooth air circulation.

Further, the exhaust-entrainment-type wind power generator of the dust collector of the present invention is characterized by further comprising a masking portion formed inside the skeleton portion and covering an empty space between the circular rings.

In addition, the masking portion of the exhaust-entrainment-type wind power generator of the dust collector of the present invention has a cylindrical shape having an outer diameter coinciding with an inner diameter of the skeleton portion, and is inserted and fixed to the skeleton portion.

In addition, in the dust collecting apparatus of the present invention, the power generation tube portion has a plurality of rod fastening portions formed on its outer surface in the longitudinal direction, and the protective cover includes a plurality of fastening rods fixedly inserted into the rod fastening portion, The cover is fastened and fixed to the fastening rod, and the center of the cover is open, and the center of the cover is closed.

In addition, the final cover of the exhaust-trap-type wind power generator of the dust collector of the present invention further includes an inverted-conical vortex prevention part downward at an inner central part.

According to another aspect of the present invention, there is provided a dust collecting apparatus, comprising: a safety post having a columnar shape, one side of which is engaged with the outer cylinder, and the other side of which is coupled to a support surface;

Further, the outlet coupling portion of the exhaust port fastening type wind turbine generator of the dust collector of the present invention has a cylindrical shape having an inner diameter relatively larger than the outer diameter of the outer tube portion, and an insertion groove is formed in the inner side surface, And the insertion protrusions are formed on the outer surface and inserted into the exhaust port fastening portion to be fitted to each other.

The present invention has the effect of being able to be installed in the exhaust port where the wind pressure is generated without changing the structure of the dust collector through the solution of the above-mentioned problems, and there is an effect that the energy can be recovered through this.

In addition, the present invention is also applicable to an exhaust port having a horizontally oriented exhaust port so that energy can be recovered without being influenced by the exhaust port direction of the dust collecting facility.

In addition, the present invention is relatively simple in assembly and disassembly because each component is formed in a module form, so that an effect of easy maintenance and maintenance and a maintenance cost are relatively inexpensive.

In addition, the present invention has the effect of recovering energy that is dumped from the dust collecting facility at a relatively low cost.

Furthermore, the present invention has the effect of recovering energy through the waste wind pressure that is discharged at a relatively high efficiency while maintaining smooth exhaust.

Other advantages of the present invention will become apparent from the following description of exemplary embodiments with reference to the attached drawings. BRIEF DESCRIPTION OF THE DRAWINGS

1 is a view showing an example of a dust collecting apparatus,
2 is a view for explaining a conventional technique using a conventional wind pressure,
3 is a view showing an installation example of an exhaust-entrainment type wind power generator of the dust collector of the present invention,
4 is a view showing a configuration of an exhaust-entrainment-type wind turbine generator of the dust collector of the present invention,
5 is a view for explaining an air outlet coupling part and an outer tube part of an exhaust-trap-type wind power generator of the dust collector of the present invention,
6 is a view for explaining a skeleton part of an exhaust-trap-type wind power generator of the dust collector of the present invention,
7 is a view for explaining a masking portion of an exhaust-trap-type wind power generator of the dust collector of the present invention,
8 is a view for explaining a rotary blade of an exhaust-entrainment-type wind power generator of the dust collector of the present invention,
9 is a view for explaining a power generation cylinder, a gear portion, and a power generation portion of an exhaust-entrainment type wind power generator of the dust collector of the present invention,
10 is a view for explaining a protective case of an exhaust-trap-type wind power generator of the dust collector of the present invention,
11 is a view for explaining a protective cover of an exhaust-trap-type wind power generator of the dust collector of the present invention,
12 is a view for explaining a safety post of an exhaust-trap-type wind power generator of the dust collector of 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 should also be understood that the position or arrangement of individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

As shown in Fig. 3 (a), an exhaust-entrainment type wind turbine generator of the dust collector of the present invention is an example of an exhaust-entrainment type wind turbine generator of the dust collector of the present invention. 3 can be formed as shown in Fig. 1 (b), as well as the exhaust pipe 3-1 formed in the horizontal direction.

That is, the present invention has a technical feature that it is assembled and installed in a stacked manner with a technical feature that it is coupled to the exhaust pipe (3) without energy change of the dust collecting facility (1).

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an exhaust-entrainment-type wind turbine generator of the dust collector of the present invention will be described in detail with reference to embodiments.

As shown in FIG. 4, the exhaust-entrained wind turbine generator 10 of the dust collecting apparatus according to the present invention includes an exhaust-port coupling unit 110, And includes a main body 120, a skeleton part 130, a rotating blade part 140, a power generation cylinder part 150, a gear part 160, a power generation part 170, a protective case 180, and a protective cover 190 .

The exhaust coupling part 110 is configured to be coupled to the exhaust port 3 of the dust collecting facility 1 in such a manner that the exhaust coupling type wind power generator 10 of the dust collecting device is coupled to the exhaust port 3 of the dust collecting facility 1, As shown in the drawings for explaining the exhaust-port fastening portion and the outer cylinder portion, and is fixedly connected to the end portion of the exhaust port in a cylindrical shape.

It is preferable that the exhaust coupling part 110 is fixed to the exhaust port 3 in the form of a fastening bolt or a welding method in a state in which a distal end portion of the exhaust port 3 is inserted into a cylindrical shape of a metal material.

As shown in FIG. 5, the outer tube 120 has a cylindrical shape, and one side of the outer tube 120 is inserted into the other side of the exhaust coupling 110 to be fastened.

The outer tube 120 is preferably made of a metal material and serves to provide an inner space extending to the vent 3.

 On the other hand, on the inner surface of the outer tube 120, a fastening groove 122 is formed in the longitudinal direction as shown in FIG.

The number of the coupling grooves 122 is one to four, preferably four, at intervals of 90 degrees.

In order to prevent the exhaust coupling part 110 and the outer cylinder part 120 from turning in the rotational direction when engaged with each other, the exhaust coupling part 110 has a cylindrical shape having an inner diameter relatively larger than the outer diameter of the outer cylinder part 120, And an insertion groove 112 is formed in an inner side surface portion where the outer tube 120 is inserted and facing. The outer tube 120 has an insertion protrusion 124 inserted into the insertion groove 112, In the longitudinal direction.

Therefore, the outer tube 120 inserted into the outlet coupling part 110 is engaged with the insertion groove 112 and the insertion projection 124, and is also fixed in the lateral direction.

Meanwhile, the portion where the outlet coupling part 110 and the outer tube 120 are in contact with each other is fastened using a fastening bolt or the like so that they can be separated when necessary.

As shown in FIG. 6, the skeleton part 130 includes a rotating blade part 140 and a rotating blade part 140, as shown in FIG. 6 to explain a skeleton part of the exhaust- In order to attenuate the vibration caused by the rotation of the motor.

The skeleton portion 130 includes a plurality of circular rings 132 formed at regular intervals in the longitudinal direction and a plurality of circular rings 132 which are coupled to each other in the longitudinal direction outside the plurality of circular rings 132 and in the coupling grooves 122 of the outer tube portion 120 And a rotary shaft fixing part 136 connected to the circular ring 132 and fixing the rotary shaft 144. The rotary shaft fixing part 136 is inserted into the inner surface of the outer cylinder part 120 and installed therein.

The circular ring 132, the fastening bar 134, and the rotary shaft fixing part 136 are made of a metal material and can be coupled with each other by fastening means such as a rivet, or by welding.

It is preferable that the upper rotation shaft fixing part 136-1 is fastened so as to be able to be engaged and separated for installing the rotary wing part 140 and the joint part of the rotation shaft 144 of the rotation shaft fixing part 136 And frictional damping means such as bearings.

The skeleton 130 is fixed inside the outer tube 120 through the fastening bar 134 and provides a relatively strong frame through the plurality of the circular rings 132 and the fastening bar 134, 140, and also serves to disperse and attenuate the generated vibration.

7, the skeleton portion 130 is formed on the inner side of the skeleton portion 130 to form a circular ring 132, as shown in FIG. 7, for illustrating the masking portion of the exhaust- And a masking portion 138 covering an empty space between the masking portion 138 and the masking portion 138.

This is because when the vortex is generated in the space where the rotary vane part 140 is provided as a means for preventing vortex from occurring in the non-space between the circular rings 132, the vortex acts as a resistance, The vortex that may occur due to the structure is solved through the masking portion 138.

The masking part 138 may be made of a synthetic resin material and may have a cylindrical shape having an outer diameter that matches the inner diameter of the skeleton part 130, and may be inserted and fixed to the skeleton part 130.

8, the rotating blade unit 140 includes a bearing 130 and a bearing 130. The rotating shaft unit 140 includes a bearing (not shown) for supporting the rotating shaft fixing unit 136 of the skeleton unit 130, Is rotated by the same means so as to be rotatable and rotated by the force of wind which is discharged from the exhaust port 3 at the longitudinal center of the skeleton portion 130.

7, the rotating blade unit 150 includes a rotating shaft 142 coupled to the rotating shaft fixing unit 136 and a plurality of rotations 142 formed equidistantly and equiangularly along the rotating shaft 142, And a wing 144.

The number of stacks of the rotary blades 144 and the number of blades of the rotary blades 144 can be changed according to the general wind pressure of the air outlet 3. Preferably, And they are coupled to the rotary shaft 142 so as to be twisted by 22,5 degrees with respect to each other so that the surface discharged by the rotary vane 144 is obscured in the wind blowing direction so that the air can be smoothly discharged So that the rotary vane 144 can receive sufficient force from the wind exhausted from the exhaust port 3.

As shown in the figure for explaining the power generation section, the gear section, and the power generation section of the exhaust-entrainment type wind turbine generator of the dust collector of the present invention, the power generation cylinder section 150 is cylindrical and is formed on the other side of the outer cylinder section 110 Thereby forming an extended inner space of the outer tube 110.

The gear portion 160 which is engaged with the rotation shaft 142 of the rotary vane portion 140 and changes the axial direction of the rotation shaft 142 by 90 degrees is located in the inner space extended by the power generation cylinder portion 150. [

9, the gear portion 160 is located in the inner space of the power generation cylinder 150 and is connected to the first rotating shaft 140, which is engaged with the rotating shaft 142 of the rotating blade 140, And a second pivot shaft 164 formed perpendicularly to the first pivot shaft 162. The first pivot shaft 162 and the second pivot shaft 164 are coupled to each other at a predetermined gear ratio, Lt; / RTI >

That is, the gear portion 160 of the present invention improves the energy recovery efficiency by preventing the generator portion 170 serving as a resistor from being located on the flow path through which the air is discharged.

The gear portion 160 may be any one of constant speed, deceleration, and acceleration gear ratios. Therefore, the gear portion 160 can be selected as a desired gear ratio according to the flow velocity of the air discharged from the exhaust port 3 of the dust collector to which the present invention is applied, The recovery efficiency is relatively increased.

9, the power generating unit 170 is located on the outer surface of the power generating cylinder 150 and the second turning shaft 164 of the gear unit 160 is connected to the power generating shaft 172 It produces electricity.

The power generation unit 170 may be various power generation means commonly used in wind power generation and is not limited to any specific power generation means.

In addition, the power generating unit 170 is connected to the separately provided charging means through a power transmission line.

10, the protection case 180 includes the power generation unit 170 and the power generation unit 150, as shown in FIG. 10, for explaining a protective case of the exhaust- To protect the power generating unit 170. The power generating unit 170 is a unit that protects the power generating unit 170. [

That is, the protective case 180 is formed on the outside of the power generation cylinder 150 and has a waterproof function and has an opening / closing door 182.

11, the protection cover 190 is fastened and fixed in the longitudinal direction to the power generation cylinder 150, and is fixed to the air cylinder 150 through the air And serves to protect the power generation cylinder 150 while smoothly circulating the power generation cylinder 150.

That is, by covering the exposed portion of the power generation cylinder 150, rainwater, snow, etc. can be prevented from entering from the outside, and other contaminants can be prevented from entering, and the discharged air can flow smoothly.

11, the power generating cylinder 150 has a plurality of rod fastening portions 152 formed on its outer surface in the longitudinal direction, and the protective cover 190 A plurality of fastening rods 192 inserted and fixed to the rod fastening portions 152 and a cover 194 fastened and fixed to the fastening rods 192 and opened at the center are formed in multiple stages, The cover 194-1 is characterized in that the open center is closed.

The protective cover 190 having the above-described structure covers the power generation cylinder 150 while ensuring a sufficient open surface.

On the other hand, the last cover 194-1 of the protective cover 190 further includes an inverted conical vortex prevention part 196 downward at an inner central part.

As shown in FIG. 11, the vortex prevention part 196 prevents the vortex from being generated when the wind blows on the last cover 194-1 in the shape of an inverted cone, So that the air can be smoothly discharged.

Finally, the exhaust-entrained wind turbine generator 10 of the dust collector according to the present invention includes a safety post 126 as shown in the figure for explaining the safety post of the exhaust- ).

The safety post 126 may cause excessive load on the exhaust port 3 when the exhaust-trap-type wind power generator 10 of the dust collector according to the present invention is installed in the exhaust port 3 formed horizontally, .

Accordingly, the outer tube 120 may include a safety post 126 having a columnar shape, one side of which is coupled to the outer tube 120, and the other side of which is coupled to the supporting surface, and the air- (10).

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, And such variations and modifications are intended to fall within the scope of the appended claims.

1: Dust collector
2: blower
3: Exhaust
10: Exhaust coupling type wind power generator of dust collector
110: Exhaust hole fastener
112: insertion groove
120: Foreign Ministry
122: fastening groove
124: insertion protrusion
126: Safety post
130:
132: Circular ring
134: fastening bar
136:
140:
142:
144:
150:
152:
160: gear portion
162: first coaxial
164: second coaxial
170:
180: Protective case
182: opening / closing door
190: protective cover
192:
194: cover
196: Whirlpool District

Claims (7)

An exhaust-trap-type wind turbine generator of a dust collector installed in an exhaust port of a dust collector having a blower means,
An exhaust port fastening part formed in a cylindrical shape so as to be fixedly coupled with a distal end part of the exhaust port;
An outer tube portion having a cylindrical shape and one side inserted and fastened to the other side of the exhaust hole fastening portion and having a fastening groove formed in an inner side surface thereof in the longitudinal direction;
A plurality of circular rings inserted in the inner side surface of the outer tube and formed at equal intervals in the longitudinal direction and a coupling bar longitudinally coupled to the outer side of the plurality of circular rings and inserted into the coupling groove of the outer tube, And a rotation shaft fixing part for fixing the rotation shaft;
A rotating blade having a rotating shaft connected to the rotating shaft fixing part of the skeleton part and rotating at a longitudinal center of the skeleton part, and a plurality of rotating blades formed at equal intervals and an equal angle along the rotating shaft;
A power generating cylinder coupled to the other end of the outer cylinder in a cylindrical shape to form an extended inner space of the outer cylinder;
A first rotating shaft which is located in an inner space of the power generating tube and is coupled to a rotating shaft end of the rotating blade and a second rotating shaft which is formed perpendicularly to the first rotating shaft, A coaxial shaft having a gear portion connected by a gear at a predetermined gear ratio;
A power generation unit located on an outer surface of the power generation tube and connected to a second rotation axis of the gear unit to generate electricity;
A protective case that includes the power generation portion and is coupled to an outer surface of the power generation tube portion to protect the power generation portion; And
And a protection cover which is fixedly coupled to the power generation tube in a longitudinal direction and protects the power generation tube while smoothly circulating the air. The method according to claim 1,
And a masking portion formed on the inner side of the skeleton portion and covering an empty space between the circular rings. The apparatus of claim 2, wherein the masking portion
And a cylindrical shape having an outer diameter coinciding with an inner diameter of the skeleton portion and inserted and fixed to the skeleton portion. The method according to claim 1,
Wherein the power generation cylinder has a plurality of rod fastening portions formed on its outer surface in the longitudinal direction,
The protective cover may include a plurality of fastening rods inserted into and fixed to the rod fastening portion, a multi-stepped cover formed by fastening the fastening rods to the center of the fastening rod, Wherein the dust collecting device is an exhaust-trap-type wind power generating device. 5. The apparatus of claim 4, wherein the last cover
And an inverted conical vortex prevention part downward at an inner central part of the vortex prevention wind turbine. 2. The apparatus according to claim 1, wherein the outer tube
And a safety post which is pillar-shaped, one side of which is engaged with the outer tube, and the other side of which is coupled to the support surface. The method according to claim 1,
Wherein the exhaust port fastening portion has a cylindrical shape having an inner diameter relatively larger than an outer diameter of the outer tube portion,
Wherein the outer tube is formed with an insertion protrusion inserted into the insertion groove on an outer surface of the outer tube and inserted into the outlet coupling part to be fitted into the coupling part of the outlet coupling part of the dust collector.

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