KR101474822B1 - Local exhaust hood suction device for industry and exhaust system comprising thereof - Google Patents

Abstract

Disclosed are a local exhaust hood suction device for industry and an exhaust system including a plurality of local exhaust hood suction devices for industry. The local exhaust hood suction device for industry comprises: an exhaust hood body; a hood exhaust part which exhausts air passing the exhaust hood body to the outside; a hood suction part which absorbs air and sends the absorbed air to the exhaust hood body; a blower arranged along the edge of the hood suction part, and sends air around the hood suction part to the exhaust hood body; and a mixed flow prevention member which includes a mixed flow prevention body and a mixed flow prevention flange. Therefore, the present invention prevents contaminated air from spreading to the indoor space by absorbing the contaminated air around the local exhaust hood suction device using the blower, and exhausts the absorbed air to the outside of the local exhaust hood suction device.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an industrial exhaust hood suction apparatus and an industrial exhaust hood suction apparatus,

The present invention relates to an industrial exhaust hood aspiration apparatus and an exhaust system to which a plurality of industrial exhaust hood aspiration apparatuses are applied.

An industrial local exhaust hood aspirator is a system that surrounds and surrounds a pollutant source and directs the air flow of the pollutant to the outside toward the hood.

Such industrial top exhaust hood aspiration apparatuses often generate a large amount of pollutants and are highly toxic to the pollutants generated, and the working position of the workers is close to the origin of the pollutants and the generation cycle is not uniform, The installation thereof is mandatory.

In case that the opening speed of the laboratory hood and the painting spray hood can not be maintained sufficiently, the lateral force of the hood is long and the suction force is decreased due to the lateral length of the hood from the side hood or the slot hood which is the collecting hood Various problems arise in a field where a conventional industrial exhaust hood suction apparatus is applied such as a case where the angle of incline is small in the canopy hood which is a canopy hood and the hood is spread widely so that the pollutant exhaust can not be smoothly performed and diffused into the room , The essence of the problems is that as the position of the pollutant and the suction port of the hood become farther away, the suction ability of the pollutant decreases sharply, and a structure for fundamentally solving these problems is required .

Registered Utility Model No. 20-0138678, Date of Registration: December 10, 1998, Design Name: Hood lamp automatic switching device of hood combination microwave oven Open Patent No. 10-2012-0055925, Publication date: Jun. 01, 2012, Title of the invention: Variable emission air pollutant source application Multi-hood local exhaust method and local exhaust system used therefor

An object of the present invention is to provide an industrial local exhaust hood aspiration apparatus capable of smoothly sucking pollutants and an exhaust system to which a plurality of industrial local exhaust hood aspiration apparatuses are applied.

An industrial partial exhaust hood aspirating apparatus according to one aspect of the present invention includes an exhaust hood body; A hood exhaust unit through which the air passed through the exhaust hood body is discharged to the outside; A hood suction unit into which air flows into the exhaust hood body; A blower disposed along an edge of the hood suction unit to form an air flow at both the center and the edge of the hood suction unit so that air around the hood suction unit flows into the exhaust hood body; A hood suction unit and a mixing hood body protruding in the form of a partition wall from the hood suction unit to the hood exhaust unit along an inner side of an edge of the exhaust hood body; And an anti-mixture prevention flange for covering the end of the blower installed at the lower portion and preventing the confluence between adjacent blowers.

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According to an exhaust system in which a plurality of industrial local exhaust hood aspiration apparatuses and industrial industrial exhaust hood aspiration apparatuses according to one aspect of the present invention are applied, a blower constituting an industrial local exhaust hood aspiration apparatus is installed along the edge of the hood aspiration unit Air is sucked by the blower at both the central portion and the edge of the hood suction portion so that air around the hood suction portion can be sucked toward the exhaust hood body and the suctioned air is lifted along the inner surface of the exhaust hood body And can be discharged to the outside through the hood exhaust part. Therefore, the stagnant contaminated air around the periphery of the industrial local exhaust hood aspiration apparatus is sucked by the blower to prevent the indoor air diffusion of the contaminated air, and the air sucked by the blower can be discharged to the outside of the industrial local exhaust hood aspiration apparatus, The suction of the contaminants can be smoothly performed, so that a pleasant environment is created for workers in a working environment such as a kitchen, a factory, and a laboratory where contaminated air is generated, thereby improving work efficiency.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic exploded view of a blower applied to an industrial exhaust hood aspiration apparatus according to an embodiment of the present invention; FIG.
2 is a schematic bottom view of an industrial exhaust hood aspirator according to a first embodiment of the present invention.
3 is a schematic view of an industrial exhaust hood suction apparatus according to a second embodiment of the present invention.
Fig. 4 (a) schematically shows an industrial exhaust hood suction apparatus according to a third embodiment of the present invention; Fig.
FIG. 4 (b) schematically shows an air conveying pipe applied to an industrial partial exhaust hood aspirating apparatus according to a third embodiment of the present invention. FIG.
5 is a cross-sectional view schematically showing an air delivery pipe applied to an industrial partial exhaust hood suction apparatus according to a third embodiment of the present invention.
6 is a schematic view of an industrial exhaust hood suction apparatus according to a fourth embodiment of the present invention.
7 is a cross-sectional view schematically showing an inner hood body and a partition applied to an industrial exhaust hood suction apparatus according to a fourth embodiment of the present invention.
8 is a schematic view of an industrial exhaust hood suction apparatus according to a fifth embodiment of the present invention.
9 is a schematic view of an industrial exhaust hood suction apparatus according to a sixth embodiment of the present invention.
10 is a schematic view of an industrial exhaust hood suction apparatus according to a seventh embodiment of the present invention.
11 is a schematic view of an industrial exhaust hood suction apparatus according to an eighth embodiment of the present invention.
12 is a schematic view of an exhaust system in which a plurality of industrial exhaust hood suction apparatuses according to a ninth embodiment of the present invention are applied.

Hereinafter, an exhaust system in which a plurality of industrial exhaust hood suction apparatuses according to embodiments of the present invention and a plurality of industrial exhaust hood suction apparatuses according to embodiments of the present invention are applied will be described with reference to the drawings.

FIG. 1 is a schematic exploded view of a blower applied to an industrial exhaust hood suction apparatus according to an embodiment of the present invention. FIG. 2 schematically shows an industrial exhaust hood suction apparatus according to a first embodiment of the present invention. Fig.

Hereinafter, the blower 3 and the industrial exhaust hood aspirator 10 according to the present embodiment will be described with reference to Figs. 1 and 2, of course, in the following embodiments.

The blower 3 includes a case 6, an intake port 7, a discharge port 8, an impeller 11, a motor M and a filter 9, and the industrial top exhaust hood aspirator 10, So that the contaminated air outside the industrial local exhaust hood aspirator 10 is sucked and the sucked contaminated air is pushed into the industrial local exhaust hood aspirator 10, And then flows along the inside of the hood suction apparatus 10 to be discharged to the outside.

The case 6 is formed in a substantially rectangular box shape and the one side of the case 6 is provided with the air intake port 7 through which air is sucked, 7 through which the air sucked is discharged.

The impeller 11 is integrally formed with the motor M in the center of the case 6 and one end and both ends of the impeller 11 are fixed to both sides of the case 6 to be rotatable.

The impeller 11 is provided with a motor M on one side of the impeller 11 when the impeller 11 is of a horizontally long type and the impeller 11 is disposed on the center of the impeller 11 when the impeller 11 is relatively long. And a cross flow fan in which a motor M is installed.

When the motor M is rotated, a blowing force is formed, and then the contaminated air is sucked through the suction port 7 and then discharged to the discharge port 8, whereby the blower 3 is driven.

When the blower 3 is installed at the various hood openings below, the blower 3 is positioned at any position suitable for the use of the use place of the case 6, for example, at a position close to the hood inlet or the hood inner bottom, Respectively.

The filter 9 removes foreign matter such as dust of the air sucked through the inlet 7 to purify the air. The filter 9 is replaceably installed in the case 6. The filter 9 is selected to be suitable for the pollutant to which the industrial-purpose exhaust hood suction apparatus 10 is applied, and various gases, dusts, odors, etc. can be selectively removed.

The description of the blower 3 shown here applies equally to the following embodiments.

The industrial exhaust hood aspiration apparatus 10 according to the present embodiment shown in Fig. 2 has a rectangular canopy hood shape and includes an exhaust hood body 11, a hood exhaust unit 13, a hood suction unit 12, And the blower (3).

The exhaust hood body 11 is a hood body having a predetermined height and formed in a rectangular canopy shape, that is, a rectangular cross section that becomes narrower toward the upper part.

The hood exhaust unit 13 communicates with an upper portion of the exhaust hood body 11 so that air passing through the exhaust hood body 11 is exhausted to the outside through a hole connected to an exhaust duct will be.

The hood suction unit 12 is connected to a lower portion of the exhaust hood body 11 so that air flows into the exhaust hood body 11.

The blower 3 is disposed along the edge of the hood suction unit 12 to form an air flow at both the center and the edge of the hood suction unit 12, The suction airflow of the blower 3 is discharged so as to flow into the exhaust hood body 11.

As shown in FIG. 2, a canopy hood is used in the present embodiment. The canopy hood is a hood for use in hot heat. The air in the blower 3 is contaminated by hot rising air coming from the lower end of the hood. Is inhaled and pulled up. A total of four blowers 3 are installed along the inner edge of the hood suction unit 12, one on each inner surface of the hood suction unit 12.

Each of the air outlets (7) of each of the blowers (3) is formed to face downward with contaminants, and each of the outlets (8) of the respective blowers (3) Lt; / RTI > Air in both the center portion and the edge of the hood suction portion 12 which is the air around the respective blowers 3 is sucked by the respective blowers 3 during operation of the respective blowers 3, And the discharged air is lifted along the inner surface of the exhaust hood body 11 and discharged to the outside through a hole connected to the exhaust duct communicated with the hood exhaust unit 13. [

The blower 3 may be a centrifugal blower that forms an air flow so that air around the edge of the hood suction unit 12 flows toward the exhaust hood body 11. [

Reference numeral 15 is a switch for controlling the operation of the blower 3, such as turning on or off all or a part of each of the blowers 3.

Meanwhile, the industrial local exhaust hood suction apparatus 10 may further include a sensing member 10a and a control member 10b.

The sensing member 10a is capable of sensing contaminants of the air sucked by the hood suction unit 12. As the sensing member 10a, a sensor suitable for sensing the contaminant, for example, a sensor such as a heat sensor, a gas sensor, a gas sensor, and an odor sensor may be applied.

The control member 10b controls the operation of the blower 3 according to a sensed value sensed by the sensing member 10a.

The recording of the various sensed values is recorded in a memory disk, which is a storage member incorporated in a control panel (not shown) in which the control member 10b is formed. In the case of applying to the multiple hoods, the detection value is detected by a sensor provided in the outside air discharge unit, and the detected value of the respective sensing member 10a, which is the hood sensor, Can be written to the memory disk.

The control member 10b includes a transmission / reception unit (not shown), and can control the operation of each of the blowers 3 according to a command signal received from an external remote site such as a central control room. It is possible to send an abnormal signal to an external remote place or send a corresponding abnormal signal to a smartphone of a specific person such as a manager.

In addition, the industrial local exhaust hood suction apparatus 10 includes a mixed prevention member 18 that can prevent a mixed phenomenon in which air introduced by a plurality of blowers 3 is mixed with each other.

The confluence prevention member 18 includes a hood suction unit 12 and an exhaust hood body 11. The hood suction unit 12 and the hood exhaust unit 13 are formed in the shape of a partition wall in such a manner as to protrude from the hood suction unit 12 to the hood exhaust unit 13 along the inside edge of the exhaust hood body 11. [ And a plurality of air blowing openings (18a) extending between the respective blowers (3) adjacent to each other so as to cover the side end portions of the respective blowers (3) provided on the hood suction portion (12) Preventing flange 18b to prevent the mixed flow of the fuel and the lubricant.

Both end portions of the respective blowers 3 are covered with the respective confluence prevention flanges 18b at regular intervals.

The mixture preventing protector 18a protrudes in the form of a partition wall along the inner side of the edge of the hood suction unit 12 and the exhaust hood body 11, The air sucked by each of the blowers 3 flows into the spaces formed by the adjacent mixing preventing members 18a and the mixing preventing flanges 18b, The air can be raised along the body 11, so that the air introduced by each of the blowers 3 is not mixed with each other, and the mixed flow thereof can be prevented.

The blower 3 constituting the industrial local exhaust hood suction apparatus 10 is installed along the edge of the hood so that both the central portion and the edge of the hood suction portion 12 are connected to the blower 3 So that the air around the hood suction unit 12 can be sucked toward the exhaust hood body 11 and the suctioned air rises along the inner surface of the exhaust hood body 11 And can be connected to the exhaust duct through the hood exhaust unit 13 and discharged to the outside. Therefore, the stagnant contaminated air around the periphery of the industrial top exhaust hood suction apparatus 10 is sucked by the blower 3 to prevent the indoor diffusion of the contaminated air, and the air sucked by the blower 3 is discharged to the industrial Since the air can be discharged to the outside of the local exhaust hood suction apparatus 10, the suction of the contaminants can be smoothly performed, so that a pleasant environment can be provided to a worker in a work environment in which polluted air is generated, and the work efficiency can be improved.

Hereinafter, an industrial exhaust hood suction apparatus according to another embodiment of the present invention will be described with reference to the drawings. In carrying out these explanations, the description overlapping with the content already described in the first embodiment of the present invention described above will be omitted and omitted here.

3 is a schematic view of an industrial exhaust hood suction apparatus according to a second embodiment of the present invention.

Referring to FIG. 3, the industrial partial exhaust hood suction apparatus 20 according to the present embodiment is formed in the shape of a circular canopy hood, and includes a mold release portion 26.

The modified ejection portion 26 connects different cross sections of the hood suction portion 22 of the rectangular box shape and the exhaust hood body 21 of the circular canopy type to each other to allow the air sucked into the hood suction portion 22 So as to be moved to the exhaust hood body 21 without leaking.

Here, the circular canopy shape has the shape of a certain height formed by a circular cross section that becomes narrower toward the upper part.

The shape of the mold releasing portion 26 is different from that of the mold releasing portion 26 so that the mold releasing portion 26, that is, the hood suction portion 22 and the exhaust hood body 21 of another type can be connected to each other.

The mold release portion 26 is formed of a bending portion 26a on the side of the hood suction portion 22 and a straight pipe portion 26b on the side of the exhaust hood body 21 and has an inner hollow donut- , The outer side of the ring shaped annular discharge portion 26 is a narrow axial discharge portion, and the air discharged from the blower 3 at the lower end of the hood is passed quickly, and the relatively wide central portion of the release discharge portion 26, Is the portion through which the upward ascending air current passes.

In the mold release portion 26, the straight pipe portion 26b, which is at least two to four times longer than the radius of the bending portion 26a, should be formed. When the straight pipe portion 26b is formed in this way, Can be rectified through the straight pipe portion 26b.

The upper end of the hood suction unit 22 may have a rectangular box sectional shape and the upper end of the exhaust hood body 21 may be connected to the upper end of the exhaust hood body 21. In the case where the sectional shapes of the hood suction unit 22 and the exhaust hood body 21 are different, In the case of a circular cross-sectional shape, the lower end of the one end of the modified dispensing portion 26 is formed in a rectangular box cross-sectional shape of the hood suction portion 22 and connected to the hood suction portion 22 And the upper end of the other end of the modified injection part 26 is formed in a circular cross-sectional shape of the exhaust hood body 21 and connected to the exhaust hood body 21.

FIG. 4A is a schematic view of an industrial exhaust hood suction apparatus according to a third embodiment of the present invention, and FIG. 4B is a sectional view of an industrial exhaust hood suction apparatus according to a third embodiment of the present invention. FIG. 5 is a cross-sectional view schematically showing an air transfer pipe applied to an industrial partial exhaust hood suction apparatus according to a third embodiment of the present invention. FIG.

4 (a) to 5, the industrial top exhaust hood suction apparatus 30 according to the present embodiment further includes an air transfer pipe 40.

The shape of the cross section of the air transfer pipe 40 may be circular, square, ellipse, triangle, or the like.

In the present embodiment, the air transfer pipe 40 selects one of circular, square, elliptical, and triangular pipes with a double pipe structure as described below on the inner surface of the canopy hood for collecting the polluted air, And each of the pipes is fixed by welding so as to be installed on the inner side surface of the exhaust hood body 31. The air transfer pipe 40 is disposed between the exhaust hood body 31 and the hood suction portion 32 The air sucked through the hood suction unit 32 can be discharged to the outside through the hood body 31 and the hood exhaust unit 33 via the air transfer pipe 40 .

A plurality of air delivery pipes 40 are arranged on the inner surface of the exhaust hood body 31 in the direction in which the hood suction unit 32 and the hood exhaust unit 33 communicate with each other, And includes a conveying pipe body 43 and an expanding portion 44.

The air conveying pipe body 43 is elongated in a predetermined length and extends in the direction in which the hood suction unit 32 and the hood exhaust unit 33 communicate with each other, Respectively.

The expanded portion 44 is formed at the lower end of the air transfer pipe body 43 and has a relatively wider shape than the air transfer pipe body 43. The air pushed up by the blower 3 can be introduced into the air conveying pipe body 43 through the expanding portion 44. [

An overhanging double pipe body 41 may be formed on the upper portion of the air transfer pipe body 43 and an inclined discharge hole 42 of an inclined shape may be formed on the upper end of the double pipe body 41. The sloping end of the sloping outlet 42 is smoothly connected to the inner surface of the hood exhausting part 33 so that the air discharged through the sloping outlet 42 smoothly flows into the hood exhausting part 33, Lt; / RTI >

5, the air transfer pipe 40 is installed on the inner surface of the exhaust hood body 31 and the hood suction part 32, and the blower 3 is disposed outside the air transfer pipe 40 Respectively. Then, the contaminated air drawn up by the blower 3 is lifted along the outside of the air transfer pipe 40 and then discharged to the outside through the hood exhaust unit 33.

At this time, the inclined end of the inclined discharge port (42) is smoothly connected to the inner surface of the hood exhaust part (33), so that the external contaminated air raised by the blower (3) The slope discharge port 42 is also passed through the hood exhaust port 42 relatively narrower than the hood exhaust port 33 and forms a negative pressure in the slope discharge port 42 by the venturi effect, A negative pressure is applied to the inside of the air transfer pipe 40 as a result of the principle of buoyancy rise in the inside of the pipe 40 and the stack effect. Therefore, the air at the inlet of the air transfer pipe 40 can be sucked smoothly into the air transfer pipe 40.

As described above, as the air transfer pipe 40 is applied, the air transfer pipe 40 serves as a guide vane for the blower 3 air sucked through the hood suction unit 32, The air introduced into the expanded portion 44 of the air transfer pipe 40 can be flowed through the air transfer pipe 40 and then introduced into the hood exhaust portion 33, The air passing through the body 31 and the air passing through the air transfer pipe 40 can be more smoothly discharged.

FIG. 6 is a schematic view of an industrial exhaust hood suction apparatus according to a fourth embodiment of the present invention. FIG. 7 is a sectional view of the industrial exhaust hood suction apparatus according to the fourth embodiment of the present invention, showing an inner hood body and a partition Sectional view schematically showing an applied state.

6 and 7, the industrial exhaust hood suction apparatus 50 according to the present embodiment includes an inner hood body 51a and a partition 51b.

The inner hood body 51a is disposed inside the exhaust hood body 51 at a predetermined distance from the exhaust hood body 51 to form an air flow path with the exhaust hood body 51. [

The partition 51b is formed in the inner hood body 51a and the exhaust hood body 51 so as to communicate with the hood suction unit 52 and the hood exhaust unit 53, And the exhaust hood body (51). The partition 51b is formed in a vertically long panel shape so that the hood suction unit 52 and the hood exhaust unit 53 are installed so that the lower end and the upper end thereof are in contact with each other. A plurality of the partition 51b are spaced apart from each other to divide a space between the inner hood body 51a and the exhaust hood body 51 into a plurality of passages.

The end of the partition 51b is cut at a proper inclination so as to be smoothly connected to the hood exhaust part 53. [

7, the inner hood body 51a is formed to be spaced apart from the exhaust hood body 51 by a predetermined distance inside the hood suction portion 52, and the blower body 51a is formed outside the inner hood body 51a. (3) is installed. Then, the contaminated air drawn up by the blower 3 is lifted along the outer side of the inner hood body 51a and then discharged to the outside through the hood exhaust portion 53. [

At this time, the inner hood body 51a and the upper end of the partition 51b are smoothly connected to the inner surface of the hood exhaust unit 53, so that the external pollution The outlet of the air flow path formed by the inner hood body 51a and the partition 51b passes while the air is directed toward the hood exhaust unit 53 which is narrower than the exhaust hood body 51 A negative pressure is formed at the outlet of the air passage formed by the inner hood body 51a and the partition 51b by the venturi effect and the air formed by the inner hood body 51a and the partition 51b A negative pressure is applied to the inside of the air flow path formed by the inner hood body 51a and the partition 51b, so that the inner hood body 51a, A (51a) and the inlet in the external dirty air inlet of the air passage formed by the partition (51b) is generated. Therefore, the air flow can be smoothly performed even in the air flow path formed by the inner hood body 51a and the partition 51b.

As described above, the air introduced through the blower 3 flows through the respective passages through the plurality of passages formed by the inner hood body 51a and the plurality of the partition 51b, And may be discharged to the outside through an exhaust duct (not shown) connected to the base 53.

8 is a schematic view showing an industrial exhaust hood suction apparatus according to a fifth embodiment of the present invention.

8, the industrial local exhaust hood suction apparatus 60 according to the present embodiment is formed in a slot-hood shape having a length larger than that of the longitudinal side, and the blower 3 is formed in a slot-shaped hood suction section 62, So that air can be sucked in.

9 is a schematic view showing an industrial exhaust hood suction apparatus according to a sixth embodiment of the present invention.

9, the industrial local exhaust hood aspirator 70 according to the present embodiment is formed as a side suction type hood, and the blower 3 is installed in the hood suction portion 72 of the side suction type, Can be inhaled.

In the present embodiment, the blower 3 may be arranged in the hood suction portion 72 in a stacked manner in two or more stages.

10 is a schematic view of an industrial exhaust hood suction apparatus according to a seventh embodiment of the present invention.

Referring to FIG. 10, the industrial local exhaust hood suction apparatus 80 according to the present embodiment is formed as a push-pull type hood.

In order to achieve this, the industrial local exhaust hood suction apparatus 80 includes an air injection member 87 for spraying air from the contaminated source separated from the hood suction unit 82 toward the hood suction unit 82 .

The air injection member 87 injects pneumatic pressure supplied from an external air compressor or the like through the nozzle 87a so that the air injected by the air injection member 87 is supplied to the hood suction unit And the blower 3 installed in the hood suction unit 82 pulls the air so that air can be sucked more smoothly.

The industrial local exhaust hood aspirator 60 in the form of the slot hood shown in Fig. 8, the industrial local exhaust hood aspirator 70 of the lateral intake hood type shown in Fig. 9, and the push- The suction force of the hood lateral end portion decreases as the aspect ratio of the industrial partial exhaust hood suction apparatus 80 is large and the connecting angle between the exhaust port and the hood inlet is small and the lateral length of the hood becomes long. 3), it is possible to block the phenomenon of such a decrease in suction power, prevent the indoor diffusion of polluted air, and increase the suction effect.

It goes without saying that the application of such an air injection member 87 may be applied to other embodiments than this embodiment.

11 is a schematic view showing an industrial exhaust hood suction apparatus according to an eighth embodiment of the present invention.

11, the industrial local exhaust hood aspirator 90 according to the present embodiment is in the form of a paint spray painting hood, and the blower 3 is provided on the upper face of the hood aspirator 82, And air suction is performed in the hood suction unit 82 by the blowers 3, respectively.

On the other hand, it is also possible to perform the combined operation by spraying the air jet stream from each hood pollutant source where polluted air is generated and being sucked into each blower 3 installed at each hood inlet.

12 is a schematic view of an exhaust system in which a plurality of industrial exhaust hood suction apparatuses according to a ninth embodiment of the present invention are applied.

Referring to Fig. 12, the exhaust system 100 according to the present embodiment is applied with a plurality of industrial partial exhaust hood aspiration apparatuses 10 being spaced apart from each other.

Here, the industrial exhaust hood suction apparatus 10 according to the first embodiment described above is exemplarily shown to be applied, but the industrial exhaust hood suction apparatus according to another embodiment is also applicable. to be.

In general, a multi-hood system having two or more hoods generates a suction force in one blower, and in a multi-branch flow system, air is introduced along a flow path having a minimum resistance, and a hood of a plurality of hoods is sucked Performance is too good, and some hoods of several hoods have a low suction ability or a backward flow phenomenon in severe cases, and the suction force imbalance between the hoods is severe.

In the present embodiment, since a plurality of the above-mentioned respective industrial partial exhaust hood aspiration apparatuses 10 are applied to the exhaust duct 101 connected to the blower (not shown) by the exhaust system 100, the suction force in each hood Homogenized, and the problems such as backflow phenomenon can be solved at the source.

Reference numeral 102 denotes a back draft damper (BDD) installed at an exhaust duct connection portion communicating with each of the industrial local exhaust hood aspiration apparatuses 10. The back-flow preventing damper 102 is a non-dynamic opening / closing damper. The back-flow preventing damper 102 is opened by the force of air blown by each blower 3 of each industrial top exhaust hood aspirator 10, (3), the backward-flow preventing damper (102) is closed.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the following claims And can be changed. However, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

Industrial Applicability According to an exhaust system in which a plurality of industrial exhaust hood aspiration apparatuses and an industrial exhaust hood aspiration apparatus according to one aspect of the present invention are applied, contaminants can be sucked smoothly, .

3: Blower 10: Industrial local exhaust hood suction device
11: Exhaust hood body 12: Hood suction section
13:

Claims (8)

An exhaust hood body;
A hood exhaust unit through which the air passed through the exhaust hood body is discharged to the outside;
A hood suction unit into which air flows into the exhaust hood body;
A blower disposed along an edge of the hood suction unit to form an air flow at both the center and the edge of the hood suction unit so that air around the hood suction unit flows into the exhaust hood body; And
A hood suction unit and a mixing prevention member protruding from the hood suction unit to the hood exhaust unit in the form of a partition wall along an inner side of a corner of the exhaust hood body,
And an anti-mixture preventing flange extending from the end of the mixed-up preventing member to both sides to cover the end of the blower installed in the hood suction unit and preventing the confluence between adjacent blowers. An industrial exhaust hood suction device. delete The method according to claim 1,
The industrial top exhaust hood suction apparatus
And a mold releasing part formed on the both side ends in different shapes,
Wherein the one end of the modified ejection portion is formed in the shape of a sectional shape of the hood aspiration portion and connected to the hood suction portion when the hood suction portion and the exhaust hood body have different sectional shapes, Wherein the exhaust hood body is formed as a sectional shape of the exhaust hood body and connected to the exhaust hood body. The method according to claim 1,
The industrial top exhaust hood suction apparatus
And an air transfer pipe disposed over the exhaust hood body and the hood suction unit,
The air transfer pipe
An air conveying pipe body,
And an expansion part formed at the end of the air transfer pipe body at the end of the blower and having a relatively widened shape as compared with the air transfer pipe body. The method according to claim 1,
The industrial top exhaust hood suction apparatus
An inner hood body disposed inside the exhaust hood body at a predetermined distance from the exhaust hood body; And
And a partition for partitioning between the inner hood body and the exhaust hood body such that the hood suction part and the hood exhaust part communicate with each other. The method according to claim 1,
The industrial top exhaust hood suction apparatus
And an air injection member for injecting air from the contaminated source separated from the hood suction unit toward the hood suction unit. The method according to claim 1,
The industrial top exhaust hood suction apparatus
A sensing member capable of sensing contaminants of air sucked into the hood suction unit; And
And a control member for controlling the operation of the blower according to a sensed value sensed by the sensing member and recorded on the memory disk. delete

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