KR20150008294A - Roof Type Industrial Dust Filtering System - Google Patents

Abstract

The present invention provides a roof type industrial dust filtering system comprising: a housing (110) fixed to and installed in the upper part of a roof (11) of an industrial building (10), having an inner space for purifying contaminated air inside, having an inlet (111) connected with an inlet hole (12) formed in the roof (11) to allow contaminated air inside the industrial building (10) to flow into the inner space in a lower part, and having an outlet (112) to discharge filtered and purified air into an outside in an upper part; a dust filter unit (130) arranged inside the inner space to filter dust (D) of contaminated air flowing through the inlet (111); and a plurality of dust collecting units (100) arranged in one side of the housing (11), and including a suction impeller (140) to form a flowing stream toward the outlet (112) from the inlet hole (12) while rotating by a driving force of a rotary motor (141). Moreover, a plurality of the dust collecting units (100) are installed at a constant distance away from the roof (11) of the industrial building (10).

Description

Roof Type Industrial Dust Filtering System {

The present invention relates to a roof type industrial dust filtration system, and more particularly, to an industrial dust collecting system for industrial use such as a product production and processing factory, which purifies dust generated inevitably according to production activities and discharges the dust to the outside, And more particularly, to a roof type industrial dust filtration system in which a plurality of dust collecting units are spaced apart from each other on a roof of an industrial building and a dust collecting function is exercised to minimize the manufacturing cost and installation cost of the filtration system.

Generally, industrial buildings such as factories that produce and process products inevitably generate dust containing foreign matter such as dust or gas depending on industrial activities. Accordingly, in a conventional industrial building, a large number of ventilating fans are installed and operated so that polluted air containing dust can be discharged to the outside to purify internal air.

However, recently, as a measure to cope with environmental pollution, the Air Quality Conservation Act was amended, and the standard concentration value of air pollutants that can be discharged according to the type of industry (facility) of each industrial building was drastically lowered. The air purifying means for discharging air to the outside has been legally sanctioned.

Here, FIG. 1 discloses an external configuration of a conventional dust collecting apparatus improved to comply with the revised atmospheric environment preservation method.

1, a conventional dust collecting facility is provided with a dust collecting facility 20 provided with filtration means capable of collecting dust contained in contaminated air on one side of an industrial building 10, A plurality of ducts 21 are formed in the upper part of the roof 11 to form a plurality of inflow holes for discharging contaminated air inside the building and to transfer contaminated air discharged through the inflow holes to the dust collecting facility 20 . Since the dust collector 20 operates in such a manner that dust air fed from a plurality of duct tubes 21 is collected and the dust D is collectively filtered through one filtering means, Since the size of the dust collecting apparatus 20 has to be increased in proportion to the size of the internal space, the cost (100 million to 350 million KRW per factory) for manufacturing and installing the dust collecting apparatus 20 and a large amount of contaminated air There is a problem in that the power consumption required for driving the suction motor to be sucked into the suction port becomes excessive.

In addition, since a large number of duct pipes 21 having a large diameter are exposed to the outside from the top of the roof 11 to the dust collecting facility 201 installed on the ground, they are not only not good in appearance, (21) is easily aged, the maintenance cost is increased and the life of the equipment is shortened.

Further, since the dust collecting facility 20 is disposed on the ground close to the industrial building 10, the vibration and noise generated while the dust collecting facility 20 is driven can be easily propagated to the inside and outside the building, ) There was a problem that the surroundings were loud.

Korean Patent Laid-Open Publication No. 2004-0005752 (Jan. 16, 2004), air-

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and an object of the present invention is to provide a dust collecting apparatus, which is relatively small in size, And to provide a roof type industrial dust filtration system capable of minimizing manufacturing and installation costs of dust collection facilities and reducing noise generation and maintenance costs.

It is another object of the present invention to provide a dust collecting system and a dust collecting method capable of centrally controlling a plurality of dust collecting units individually or collectively according to the amount of dust or operation state of each dust collecting unit, And to provide a filtration system.

According to an aspect of the present invention, an interior space for purifying contaminated air is formed in an upper portion of a roof 11 of an industrial building 10, and an inflow hole And an outlet port 112 communicating with the inlet port 12 and communicating with the inlet port 111 for introducing polluted air into the interior space of the industrial building 10 and having an outlet 112 through which filtered purified air is discharged to the outside, A dust filter unit 130 disposed in the inner space for filtering the dust D of polluted air flowing through the inlet 111 and a dust filter unit 130 disposed at one side of the housing 110, And a plurality of dust collecting units (100) including a suction wing (140) that rotates by a driving force of the suction holes (141) and forms a flow air flow from the inlet holes (12) to the outlet holes (112) The dust collecting units 100 are connected to the industrial building ( 10 is installed at a predetermined interval on a roof 11 of the roof type industrial dust filtration system.

According to another aspect of the present invention, the upper and lower openings are formed in a single pipe shape, the upper circumference is formed horizontally and fastened to the lower portion of the housing 110, and the lower end surrounds the respective dust collecting units 100 The horizontal installation part 210 is inclined at an inclination angle? Corresponding to the inclined surface of the roof 11 and is fastened on the roof 11, Is installed on an upper portion of the roof (11) and is fixed on the roof (11) while being held on the roof (11) in a state where the roof (11) .

According to another aspect of the present invention, each dust collecting unit 100 of the plurality of dust collecting units 100 installed on the roof 11 of the industrial building 10 includes: And a dust filtration performance of 1 / n of the total dust filtration amount required for the roof type industrial dust filtration system.

According to another aspect of the present invention, in the dust collecting unit 100, a dust sensing unit 150 for sensing the amount of dust in the internal space, or a pressure sensing unit 160 for sensing a pressure change in the internal space, The dust collecting system according to claim 1, wherein at least one of the plurality of dust collectors is installed in the dust collecting part. The dust collecting part comprises a rotary motor driving part (220) for supplying driving power to the rotary motor (141) A central control unit 230 for outputting a control signal for actively controlling the output size of the rotation motor 141 according to the measured dust amount or the pressure change in the internal space measured by the pressure sensing unit 160; And a control unit 240 having a display unit 241 for displaying the operation state of each dust collecting unit 100 and input means 242 for selectively setting and operating the operation of each dust collecting unit 100 A dust collecting device for dust collecting dust, and a dust collecting device for dust collecting dust.

As described above, according to the present invention,

First, a plurality of relatively small dust collecting units designed to have a dust filtration performance of 1 / n with respect to the total dust filtration amount required of the dust filtration system are disposed on the roof of the industrial building at regular intervals, The dust collecting function is implemented as it is, while minimizing the manufacturing and installation cost of the dust collecting facility, and the power consumption required for driving the driving motor to implement the dust collecting function can be relatively reduced.

Second, since the dust collecting unit is disposed on the roof of the industrial building so that noise generated when the driving motor is operated diffuses to a wide space on the roof, noise transmitted to the ground (work site) is reduced, This can solve the problem of being noisy.

Third, since a plurality of duct pipes are not required to be exposed to the outside so as to transfer contaminated air as in the conventional dust collecting equipment, the appearance is good and the installation and maintenance cost is reduced.

Fourth, since each dust collecting unit is installed on an inclined roof of an industrial building, the lower end of the dust collecting unit is installed on the roof while the upper portion of the dust collecting unit is fastened to a horizontal mounting portion formed inclined at a corresponding inclination angle with respect to the inclined surface of the roof. The manufacturing and transportation of the dust collecting unit is easy and the work for installing the dust collecting unit on the roof is simplified.

Fifth, it is possible to centrally control a plurality of dust collecting units individually or collectively according to the amount of dust or operation state to be inputted for each dust collecting unit, and the operator can easily confirm the operation state, It is possible to reduce the amount of power consumed as compared with the conventional method, and there is an effect that the maintenance by the manager becomes convenient.

Sixth, maintenance of the filter material is facilitated through the vibration driving frame for automatically removing the filter material to be filtered in the dust collecting unit and the dust drawer for collecting the removed dust from the bottom, and the dust removing operation is simplified. In addition, since the weight of the dust collected in the dust drawer can be sensed and displayed to the outside, only when the manager is full of dust, the dust collector is lifted up to the roof provided with the dust collecting unit.

Seventh, a plurality of dust collecting units can be individually or integrally controlled centrally through a control terminal provided with a display section for displaying the operating states of the respective dust collecting units and input means for selectively setting and operating the operations of the respective dust collecting units Therefore, it is possible to save time and manpower required for maintenance of the roof type industrial dust filtration system.

1 is a perspective view showing an external configuration of a conventional dust collecting facility installed in an industrial building,
FIG. 2 is a perspective view illustrating an external configuration of a roof type industrial dust filtration system according to a first preferred embodiment of the present invention,
FIG. 3 is a perspective view showing the external configuration of the dust collecting unit according to the first preferred embodiment of the present invention,
4 is a front sectional view showing the internal structure of the dust collecting unit according to the first preferred embodiment of the present invention,
FIG. 5 is a side cross-sectional view showing an operation principle of purifying polluted air inside an industrial building by the dust collecting unit according to the first preferred embodiment of the present invention, FIG.
FIG. 6 is a side cross-sectional view illustrating a structure in which an inlet formed on a roof by a connecting pipe according to a first preferred embodiment of the present invention and an inlet of the housing are communicated with each other,
7 and 8 are side cross-sectional views showing a structure in which the suction wing portion according to the first preferred embodiment of the present invention is disposed on the upper portion of the housing,
FIG. 9 is a side sectional view showing a structure in which the suction wing portion according to the first preferred embodiment of the present invention is disposed at the lower portion of the housing,
10 is a perspective view showing a configuration in which a housing according to a first preferred embodiment of the present invention is formed in a cylindrical shape,
11 is an exploded perspective view showing a structure in which a housing according to a first preferred embodiment of the present invention is installed at a corner portion of a roof by a horizontally installed portion whose lower portion is inclined to both sides,
12 is a perspective view showing a state in which the dust collecting unit according to the first preferred embodiment of the present invention is divided and disposed on both sides of a roof of an industrial building;
13 is a block diagram showing a functional configuration of a roof type industrial dust filtration system according to a second preferred embodiment of the present invention.
14 is a side sectional view for explaining the operation principle of the dust collecting unit according to the second preferred embodiment of the present invention,
15 is a schematic view showing a configuration of a control terminal according to a second preferred embodiment of the present invention.

The objects, features and advantages of the present invention will become more apparent from the following detailed description. Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

First, the construction and function of the roof type industrial dust filtration system according to the first preferred embodiment of the present invention will be described with reference to FIG. 2 to FIG.

The roof type industrial dust filtration system according to the present invention is characterized in that the dust filtration system according to the present invention has a dust filtration reference value required for the industrial building 10, that is, 1 / n (where n is the number of A plurality of dust collecting units 100 designed to have a dust filtration performance of a relatively small size and installed in a spaced manner on the roof 11 of the industrial building 10 as shown in FIG. 2 and FIG. 12 A dust filtration system capable of minimizing the manufacturing and installation cost of a filtration system and reducing power consumption for implementing a dust collection function while implementing a required dust collection function as before, A plurality of dust collecting units 100 disposed at predetermined intervals on the roof 11 of the industrial building 10 and a horizontal mounting unit 210 for fixing the dust collecting units 100 on the roof 11 of the industrial building 10 .

3 to 5, the dust collecting unit 100 includes a housing 110, a partition wall 120, a dust filter unit 130, and a suction vane unit 140.

The housing 110 is a case which forms the outside of the dust collecting unit 100 according to the first preferred embodiment of the present invention and is fixed to the upper part of the roof 11 of the industrial building 10, An inlet space 111 through which the contaminated air inside the industrial building 10 flows into the internal space is communicated with the inflow hole 12 formed in the roof 11, And an outlet 112 through which the purified air filtered by the dust D through the dust filter unit 130 is discharged to the outside.

 A pressure gauge 115 (see FIG. 3) may be mounted on the outer surface of the housing 110 to indicate the measured pressure in the inner space. The pressure gauge 115 may change the pressure The adsorption amount of the dust D adsorbed by the filter unit 130 can be estimated.

3, the upper end of the housing 110 is vertically extended in a predetermined length and the lower end thereof is connected to the discharge port 112 and connected to the housing 110 through a discharge pipe 113 And a discharge pipe cover 114 covering the upper portion of the discharge pipe 113 is provided at the upper end of the discharge pipe 113 so as to prevent rainwater or foreign matter from flowing into the discharge pipe 113. Since the purified air can be discharged from the higher to the outside through the discharge pipe 113, the unfiltered fine dust in the purified air can be minimized from spreading to the periphery of the industrial building 10.

In addition, the housing 110 may be formed in a rectangular box shape as shown in FIG. 3, and may be formed in a cylindrical shape as shown in FIG. 10, or may be formed in a triangular box, There are no restrictions on the shape, such as shape.

4 and 5, the partition wall 120 includes a filter space 121, which is a space through which the dust D is filtered, and a discharge space, through which the purified air is discharged, A suction hole 123 for communicating the filtration space 121 and the exhaust space 122 with each other is formed at the center of the housing 110, .

The dust filter unit 130 is a component disposed in the inner space of the housing 110 and sucking and filtering the dust D contained in the polluted air flowing through the inlet 111, A vibration motor 131 that is vertically disposed in a state where the upper portion is fixed in the filtration space 121 and a vibration motor 132 that generates vibration by reciprocating in the horizontal direction, And a vibration driving frame 133 which vibrates in the horizontal direction by the driving force of the vibration motor 132 to remove the dust D adsorbed to the filter medium 131. [

The vibration driving frame 133 is a frame which is horizontally inserted into the entire lower portion of the filter medium 131 and is connected to the link member 135 fastened to the rotating shaft 134 of the vibration motor 132, And receives the driving force of the vibration motor 132 to swing the lower portion of the filter medium 131 in the horizontal direction.

4 and 5, the dust collecting unit 100 collects the dust D that has been removed from the filter medium 131 and is disposed at a lower portion of the filtering space 121, And a dust drawer 170 to be fastened to the main body 110. The collection and processing of the dust D collected through the structure of the dust drawer 170 becomes easier. In the filtration space part 121, the dust drawer 170 is supported so as to support the periphery of the dust drawer 170 so as to be detached, and at the same time, the removed dust D is discharged through the inlet port 111 It is preferable that a separating wall 116 (see FIG. 5) is installed so as to cover the inside of the industrial building 10 through the inflow hole 12 of the roof 11 so as to flow back into the interior of the industrial building 10.

The suction wing 140 is disposed at one side of the housing 110 and forms a flow stream flowing from the inlet 12 to the outlet 112 while being rotated by the driving force of the rotary motor 141. [ The rotation motor 141 is fixedly installed in the exhaust space 122 such that a rotation shaft (not shown) is directed downward. Around the suction wing 140, A guide frame 142 for guiding the airflow may be installed.

4 and 5, the suction fan unit 140 may be disposed at various positions according to the designing method of the dust collecting unit 100. First, as shown in FIGS. 4 and 5, May be disposed in the exhaust space portion 122 formed by partitioning the internal space of the housing 110 and may be disposed on the upper portion of the housing 110 as shown in FIG. As shown in FIG.

In this case, when the suction wing 140 is disposed in the exhaust space 122, the purified air passing through the filtration space 121 may be introduced into the exhaust space 122 with a stronger pressure. And is disposed above the suction hole 123 formed in the partition 120. 8, the discharge pipe 113 may be directly connected to the upper portion of the filtration space 121 without forming the exhaust gas space 122, and the suction fan unit 140 may be connected to the discharge pipe 113 The entire size of the dust collecting unit 100 can be made smaller.

In addition, when disposed in the lower portion of the housing 110, the polluted air in the industrial building 10 can be introduced into the filtration space 121 through the inflow hole 12, 12).

3 and 5, the horizontal mounting part 210 is formed as a single pipe having open upper and lower parts, and the upper end is horizontally formed and fastened to the lower part of the housing 110 And the lower end thereof is inclined at an inclination angle &thetas; corresponding to the inclined surface of the roof 11 on which the dust collecting unit 100 is installed, and is fastened on the roof 11. Therefore, the dust collecting unit 100 may be fixed to the upper portion of the roof 11 by being spaced apart from the roof 11 at a predetermined interval in a state where the dust collecting unit 100 is fastened to the upper portion of the horizontal mounting portion 210 and maintained in a horizontal state will be.

Since the lower part of the dust collecting unit 100 is not inclined to be inclined with respect to the inclined angle of the roof 11 through the construction of the horizontal mounting part 210, it is easy to manufacture and transport the dust collecting unit 100, It is possible to realize the effect of simplifying the work for installing the roof panel 100 on the roof 11. As shown in FIG. 2, the dust collecting unit 100 may be arranged in a line only on one sloped side of the roof 11 by a horizontal installation part 210, And may be spaced apart on both side slopes of the roof 11.

In addition, when the inflow hole 12 formed in the roof 11 of the industrial building 10 is formed at a corner center portion of the roof 11, as shown in FIG. 11, the horizontal installation portion 210 The dust collecting unit 100 can be arranged in a line in the center portion of the roof 11 in a horizontal state while the dust collecting unit 100 is horizontally disposed.

As shown in FIG. 10, the horizontal installation part 210 is formed in a shape corresponding to the shape of the housing 110. For example, as shown in FIG. 3, When the housing 110 is formed in a cylindrical shape as shown in FIG. 10, the horizontal installation part 210 is formed in a cylindrical shape, And may be formed in a columnar shape.

12, the dust filtration system according to the first preferred embodiment of the present invention includes a ladder (not shown) connected to the roof 11 from the ground to maintain the dust collecting unit 100 installed on the roof 11, And a safety railing 14 installed to surround the periphery of each of the dust collecting units 100 may be further provided.

5 shows an operation principle in which the contaminated air flowing through the inflow hole 12 formed in the roof 11 of the industrial building 10 according to the first preferred embodiment of the present invention is cleaned by the dust collecting unit 100 Respectively. An arrow mark in Fig. 5 indicates air flow of contaminated air or purified air.

5, when the suction fan unit 140 is rotated by the driving force of the rotation motor 141 to generate airflow of the air sucked through the suction hole 123 in the filtration space unit 121, The flow of the indoor air of the industrial building 10 into the inlet 111 is generated through the inflow hole 12 of the roof 11 according to the pressure change of the air, The dust D contained in the air is sucked into the suction hole 123 while being filtered through the filter member 131 of the dust filter unit 130 by the air flow sucked through the filter member 130. [ The airflow of the air sucked into the suction hole 123 is guided by the guide frame 142 to be laterally discharged, then flows into the discharge tube 113 from the discharge space 122 and is discharged to the outside.

The dust filtration system according to the first embodiment of the present invention as described above has the following features and functions: dust filtration of 1 / n to the total dust filtration amount required for the dust filtration system installed in the industrial building 10; By arranging a plurality of relatively small dust collecting units designed to have performance, the dust collecting function can be implemented as it is by disposing the dust collecting units on the roof of the industrial building at regular intervals, minimizing the manufacturing and installation cost of the dust collecting facility, It is possible to relatively reduce the power consumption required to drive the drive motor to implement the drive motor.

Since the dust collecting unit 100 is disposed above the roof 11 of the industrial building 10 so that noise generated when the rotating motor 141 is operated diffuses into a wide space on the roof 11, The noise transmitted to the building can be reduced and the surrounding of the building can be solved. Also, since a plurality of duct pipes 21 are not required to be exposed to the outside so as to transfer polluted air like a conventional dust collecting facility, And the management cost can be reduced.

Next, the construction and function of the roof type industrial dust filtration system according to the second preferred embodiment of the present invention will be described with reference to FIG. 13 to FIG.

The dust filtration system according to the second preferred embodiment of the present invention includes all the structures of the dust filtration system according to the first preferred embodiment of the present invention and includes a plurality of dust collecting units A central control unit 230, a control terminal 240, a dust weight sensing unit 180, a vibration sensing unit 150, a vibration sensing unit 160, The motor driving unit 250, and the like. Therefore, a detailed description of the configuration overlapping with the first embodiment will be omitted.

The dust collecting unit 100 according to the second preferred embodiment of the present invention may be equipped with a dust sensing unit 150 for sensing the amount of dust in the internal space or a pressure sensing unit 160 for sensing a pressure change in the internal space .

The dust filtration system according to the second preferred embodiment of the present invention further includes a rotation motor driving unit 220 for supplying driving power to the rotation motor 141 in accordance with the control signal of the central control unit 230, A central control unit 230 for outputting a control signal for actively controlling the output size of the rotary motor 141 according to the dust amount measured by the dust sensing unit 150 or the pressure change in the internal space, A control unit 240 having a display unit 241 for displaying an operation state of the dust collecting unit 100 and input means 242 for selectively setting and operating the operation of each dust collecting unit 100 are provided.

Here, the dust sensing unit 150 is a sensing sensor for measuring the concentration of the dust D contained in the air, and the pressure sensing unit 160 is a sensing sensor for measuring a pressure change in the internal space, The concentration of the dust D contained in the contaminated air can be measured or the pressure of the polluted air can be sensed by being installed in the filtration space 121 in the internal space as shown in FIG. And may be provided to measure the concentration of the dust D contained in the air or to sense the pressure of the purified air. In addition, reference data for actively adjusting the output size of the rotation motor 141 is stored in the central control unit 230 according to the measured pressure change or dust concentration measurement amount.

Accordingly, when the pressure is increased in the internal space or the density of the dust D is increased by receiving the sensing signal from the sensing units 150 and 160, the central control unit 230 increases the output size of the rotation motor 141 So that the filtration performance is improved. When the pressure decreases or the concentration of the dust D decreases, the output magnitude of the rotation motor 141 is reduced to control the filtering performance to be relatively weak.

The dust filtration system further includes a vibration motor driving unit 250 for supplying driving power to the vibration motor 132 in accordance with a control signal of the central control unit 230 to control the operation of the input unit 242 The automatic removal operation by the vibration driving frame 133 can be automatically performed through the control terminal 240 in accordance with the operation of the vibration driving frame 133.

14, the dust collecting unit 100 further includes a dust weight sensing unit 180 for sensing the weight of the dust D removed by the dust drawer 170, and the central control unit 230 The controller outputs a control signal so that the weight of the dust D measured by the dust weight sensing unit 180 is displayed through the display unit 241, , It is possible to easily identify whether the dust D is full or not. Therefore, the manager can ascend to the roof 11 where the dust collecting unit 100 is installed only when the dust D is filled in the dust drawer 170, so that the convenience is increased.

15, the information sensed by the sensing units 150, 160 and 180 is displayed on the display unit 241 according to the control signal of the central control unit 230 for each dust collecting unit 100. Therefore, Since the plurality of dust collecting units 100 can be individually or integrally controlled centrally by operating the input means 242 according to the operation state of the unit 100, it is possible to reduce the time and manpower required for maintenance and maintenance of the dust filtration system .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

10 ... industrial building 11 ... roof
12 ... inlet ball 100 ... dust collector
110 ... housing 111 ... inlet
112 ... Outlet 120 ... Bulkhead
121 ... filtration space part 122 ... exhaust space part
123 ... suction hole 130 ... dust filter section
131 ... filter medium 132 ... vibration motor
133 ... Vibration drive frame 140 ... Suction vane
141 ... rotation motor 150 ... dust detection unit
160 ... Pressure sensing part 180 ... Dust weight sensing part
210 ... horizontal mounting part 220 ... rotational motor driving part
230 ... central control unit 240 ... control terminal
241 ... input means 242 ... display
250 ... Vibration motor drive

Claims (4)

An interior space for purifying contaminated air is formed in the interior of the roof 11 of the industrial building 10 and an inlet space 12 formed in the roof 11 is formed in the interior of the roof 11, A housing 110 having an inlet 111 into which the polluted air in the building 10 flows into the internal space and an outlet 112 through which the filtered purified air is discharged to the outside,
A dust filter unit 130 disposed in the inner space for filtering the dust D of the polluted air flowing through the inlet 111,
And a suction wing portion 140 disposed at one side of the housing 110 and forming a flow air stream from the inlet hole 12 to the outlet hole 112 while being rotated by the driving force of the rotary motor 141 And a plurality of dust collecting units (100)
Wherein the plurality of dust collecting units (100) are installed at a predetermined interval on a roof (11) of the industrial building (10).
The method according to claim 1,
The upper end and the lower end are formed horizontally and connected to the lower portion of the housing 110. The lower end of the lower end is connected to an inclined surface of the roof 11 on which the dust collecting unit 100 is installed, And a horizontal installation part 210 formed to be inclined at a corresponding inclination angle &thetas; and fastened on the roof 11,
The dust collecting unit 100 is fixed to the upper part of the roof 11 by being spaced apart from the roof 11 at a predetermined interval in a state where the dust collecting unit 100 is fastened to the upper part of the horizontal mounting part 210 and is maintained in a horizontal state Features a roof-type industrial dust filtration system.
3. The method according to claim 1 or 2,
Each of the dust collecting units (100) of the plurality of dust collecting units (100) installed on the roof (11) of the industrial building (10) Wherein the dust filter has a dust filtration performance of 1 / n with respect to the total dust filtration required for the roof type industrial dust filtration system.
(Where n is the installation quantity of the dust collecting unit 100)
3. The method according to claim 1 or 2,
The dust collecting unit 100 is equipped with at least one of a dust sensing unit 150 for sensing a dust amount in the internal space or a pressure sensing unit 160 for sensing a pressure change in the internal space,
The roof type industrial dust filtration system includes a rotary motor driving unit 220 for supplying driving power to the rotary motor 141 according to a control signal to drive and control the rotary motor 141, A central control unit 230 for outputting a control signal for actively controlling an output size of the rotation motor 141 according to a pressure change in the internal space measured by the sensing unit 160; And a control unit 240 having a display unit 241 for displaying the operation state of each dust collecting unit 100 and input means 242 for selectively setting and operating the operation of each dust collecting unit 100 Wherein the dust collecting system is a dust collecting system.

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