KR101029330B1 - Pollutant absorption and exhaust device - Google Patents

Abstract

PURPOSE: A pollutant intake-exhaust device is provided to improve the intake-exhaust efficiency through the selection of intake area and enhance the intake force by generating vortex. CONSTITUTION: A pollutant intake-exhaust device comprises a suction part(10) and an intake-exhaust pipe part(30). The suction part comprises a setting hole(11), a suction body(12), a closing plate(15), and an internal space. The closing plate comprises a plurality of vent holes(13) and a through hole(14). The internal space is formed by inserting the closing plate to an opening of the suction body and welding the edges of the closing plate. The intake-exhaust pipe part comprises a first perforated pipe(20), a bellows exhaust pipe(31), a second perforated pipe(33), and a suction pipe(34) that are successively connected. The polluted air that successively passes through the through hole, the first and the second perforated pipe and the polluted air that is drawn in through the suction pipe are discharged through the bellows exhaust pipe.

Description

Pollutant absorption and exhaust device

The present invention relates to a contaminant intake and exhaust device, in particular, it is possible to select a suction area of the pollutant that is concentrated or widely distributed, so that the efficiency of intake and exhaust is increased, and a vortex generates a contaminant that can improve suction power. It relates to an intake and exhaust device.

In general, a pollutant exhaust device is widely used in various fields for a device for sucking contaminated air mixed with pollutants such as gas, steam, mist, dust and the like.

For example, in the work space where work such as painting, soldering, smelting, etc. is performed, a discharge system is installed for sucking various pollutants generated during the work and discharging them out of the work space. In addition, ventilation and exhaust systems are provided in the tunnels and buildings for ventilating and evacuating the interior of the tunnel or the interior of the building. In the kitchen and smoking rooms, hoods are used to remove food smells and tobacco smoke.

On the other hand, the conventional suction device for sucking contaminants is configured to include a hollow duct, and a fan installed inside the duct to suck the outside air of the duct into the duct. Therefore, when the fan is driven, air outside the duct is sucked into the duct and contaminants are sucked into the duct together with the air during the suction process.

However, the conventional inhalation device as described above has a problem that the suction force does not reach a long distance when the pollutants are distributed in a concentrated manner in a portion, so that the smooth suction is not achieved.

In addition, the conventional inhalation apparatus as described above has a problem that the location where the pollutants are generated and the distance to inhale are always fixed at a constant, so that when the pollutants are concentrated or scattered, smooth inhalation cannot be achieved.

Accordingly, an object of the present invention is to provide a contaminant intake / exhaust device that can be inhaled intensively and widely through the intake and exhaust pipe part and the ventilation hole by making the suction part wider in view of the problems of the prior art as described above.

In addition, another object of the present invention is to prevent the scattering of contaminants to the periphery of the end of the suction body when inhaling the pollutants through the vent hole and to increase the suction efficiency by the vortex generated by the suction force.

In addition, another object of the present invention is to spirally fasten the suction pipe with the second punching pipe to adjust the suction distance of the pollutant.

In order to achieve the above object, the present invention is a contaminant intake and exhaust device for forcibly exhausting the polluted air mixed with air, dust, harmful gas, mist, etc., the installation hole penetrates vertically in the center Is formed in the tubular suction body, a plurality of vent holes are formed along the inside of the rim, and the center is inserted through the open space of the suction body through the open space of the suction body in the center to weld the rim A suction part is formed in the inner space, and the first perforated pipe in which the plurality of first flow holes are formed is installed upright on the top of the closing plate in the inner space so as to surround the periphery of the through hole of the suction part. Connect the upper end of the second perforated tube formed with a plurality of second flow holes at the lower end of the connection, and connect the upper end of the suction pipe to the lower end of the second perforated tube The intake and exhaust pipes are formed through the installation hole and the through hole of the intake part, and the contaminated air sucked into the intake pipe of the intake and exhaust pipe part and the contaminated air that has passed through the ventilation hole, the first and second hole pipes sequentially. It provides a pollutant intake and exhaust device, characterized in that configured to suck the polluted air over a large area while being exhausted through the exhaust pipe.

As described above, the present invention has the effect of making the suction part wider and intensively and widely inhaling it through the intake and exhaust pipe part and the ventilation hole.

In addition, when the pollutants are inhaled through the ventilation holes, the pollutants are prevented from scattering around the ends of the suction bodies, and vortices are generated by the suction force, thereby increasing the suction efficiency.

In addition, it is possible to adjust the suction distance of the pollutant by spirally fastening the suction pipe with the second punching hole, thereby preventing the pollutant from scattering to the outside.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG.

As shown in Figures 1 to 4, the pollutant intake and exhaust device of the present invention relates to a pollutant intake and exhaust device for forcibly exhausting the polluted air mixed with air, dust, harmful gas, mist, etc. to the outside. , A suction part 10 formed by coupling the closing plate 15 to the inside so that the internal space 16 is generated inside the cylindrical suction body 12, and the internal space 16 of the suction part 10. ) The first perforated pipe 20 installed in the pipe, the exhaust pipe 31, the second perforated pipe 33, the suction pipe 34 in order to sequentially connect the suction pipe 34, and the first perforated pipe 20 The support part 50 is formed by the opening and closing member 40 installed in the inner space 16 and the screw shaft 53 supporting the outer circumferential surface of the suction pipe 34 while spirally moving through the bracket 52 so as to surround the inner space 16. The intake / exhaust device 100 is configured.

The suction part 10 forms a tubular suction body 12 having a cylindrical shape through which an installation hole 11 penetrates in a vertical direction and a lower portion thereof is opened.

At this time, the suction body 12 may be configured in a rectangular cylindrical shape, a cylindrical shape, a polygonal cylindrical shape, in the present invention will be described by illustrating as being manufactured in a rectangular cylindrical shape.

In addition, a plurality of venting holes 13 are formed along the inner side of the edge, and a closing plate 15 through which the through hole 14 penetrates in the longitudinal direction is formed at the center thereof.

Here, the closing plate 15 is made of a plate of the same shape as when the inner space 16 of the suction body 12 is projected from the bottom.

Such, the closing plate 15 is configured to generate the internal space 16 by welding the rim after inserting through the open space of the suction body 12.

In addition, the closing plate 15 of the suction unit 10 is inserted into the open space of the suction body 12 so that the open end 12a and the vent hole 13 of the suction body 12 are spaced apart from each other. It is configured to improve the suction force while the vortex is generated inside the open space of the suction body 12 during the suction.

That is, when the contaminants are sucked through the vent hole 13, vortices are generated by the suction force starting from the outer side of the end portion 12a to the inner side.

As shown in FIG. 4, in another embodiment, the end 12a of the suction body 12 may be formed as an arc-shaped end 12b in which a central portion is raised from the inside to the outside.

As shown in FIG. 5, as another embodiment, the end 12a of the suction body 12 may be formed as a bent end 12c in which a part is horizontally bent inward.

That is, the ends 12a and 12b are configured to prevent contaminants remaining inside the suction body 12 from overflowing to the outside and to generate vortices to improve suction power.

In addition, the first perforated pipe 20 in which the plurality of first flow holes 21 are formed is installed upright in the inner space 16 to surround the through hole 14 of the suction part 10.

At this time, the first punching pipe 20 is seated on the closing plate (15).

The intake and exhaust pipe part 30 connects the upper end of the second perforated pipe 33 in which a plurality of second flow holes 32 are formed at the lower end of the corrugated exhaust pipe 31 located above.

And, it is formed by connecting the upper end of the suction pipe 34 to the lower end of the second perforated pipe (33).

The intake and exhaust pipe part 30 is positioned through the installation hole 11 and the through hole 14 of the suction part 10.

In addition, the opening and closing member 40 inserted into and coupled to the installation hole 11 of the suction part 10 has a plurality of opening and closing holes 41 penetrating the outer circumferential surface, and forms an exhaust pipe hole 42 in the upper center thereof. The tubular shape is inserted through the installation hole 11 of the suction part 10.

At this time, the opening and closing hole 41 is configured to minimize the open area to increase the pressure around the suction force occurs.

In addition, a male spiral 33a is formed on the outer circumferential surface of the second perforated tube 33, and a female spiral 34a is formed on the inner circumferential surface of the suction pipe 34, and the suction tube 34 is rotated to form an image. The suction distance can be adjusted by moving downward.

At this time, the opening and closing member 40 is installed so as to be placed in the closing plate 15 at the same time the intake and exhaust pipe portion 30 passes through the exhaust pipe hole 42, then the corrugated exhaust pipe 31 is fixed to the opening and closing member 40.

On the other hand, the opening and closing plate 18 is inserted into and removed from the hole 17 formed at a position coinciding with the opening and closing hole 41 of the opening and closing member 40 around the installation hole 11 formed in the suction body 12. By blocking the intake and exhaust of the polluted air through the opening and closing hole 41 can be configured to be made.

In addition, the bracket 52 having the spiral hole 51 formed around the through hole 14 formed in the closing plate 15 of the suction part 10 is fixedly attached.

In addition, the support part 50 is formed by a screw shaft 53 which is helically fastened to the spiral hole 51 and moves forward and backward.

That is, the screw shaft 53 is configured to support the outer circumferential surface of the suction pipe 34.

Referring to the operation and effects of the present invention configured as described above are as follows.

6 and 7, the assembly process of the intake / exhaust device 100 is shown. The closing plate 15 is inserted through the open space of the suction body 12, and then the edge of the closing plate 15. The end and the suction body 12 may be welded or sealed to prevent air from flowing, but the present invention uses a welding method.

Thereafter, the first perforated tube 20 is inserted through the installation hole 11 of the suction body 12 and seated on the upper portion of the closing plate 15 to surround the through hole 14.

Then, the opening and closing member 40 is inserted to surround the first perforated tube 20 through the installation hole 11 of the suction body 12 to be seated on the top of the closing plate (15).

Next, the exhaust pipe hole 42 of the opening / closing member 40 of the opening and closing member 40 is connected to the intake and exhaust pipe part 30 in which the corrugated exhaust pipe 31, the second perforating pipe 33, and the suction pipe 34 are sequentially connected. ) Through the through-hole 14 of the installation hole 11-> closing plate 15 in order.

At this time, a portion of the corrugated exhaust pipe 31 that contacts the outer circumferential surface and the exhaust pipe hole 42 of the opening and closing member 40 is sealed to prevent air from flowing.

In addition, the suction pipe 34 is positioned to be exposed downward through the through hole 14 of the closing plate 15.

In order to support the suction pipe 34, the suction pipe 34 is rotated by rotating the screw shaft 53 spirally fastened to a bracket 52 attached and fixed around the lower surface of the closing plate 15 through holes 14 formed therein. Support the outer peripheral surface of the

In addition, the hole 17 of the suction body 12 is inserted into the opening and closing plate 18 for opening or closing the opening and closing hole 41 of the opening and closing member 40 to be fastened to complete the assembly.

On the other hand, the upper portion of the pleated exhaust pipe 31 is provided with a blowing fan or blower 200 for generating a suction force.

As such, when the assembly is completed, the suction and exhaust device 100 is operated by applying power to the blower fan or the blower 200 to generate suction force.

At this time, the suction operation of the intake / exhaust device 100 can be sucked at the same time through a method that can be sucked using only the intake and exhaust pipe unit 30 and through the vent hole 13 of the intake and exhaust pipe unit 30 and the closing plate 15. Can be distinguished in any way.

First, the suction method using only the intake and exhaust pipe unit 30 is a contaminant flows in the order of the intake pipe 34-> second perforated pipe 33-> corrugated exhaust pipe 31 is forced to the outside of the building will be.

At this time, the opening and closing plate 18 closes the opening and closing hole 41 of the opening and closing member 40 to prevent the suction force of the blower fan or blower 200 from acting on the ventilation hole 13.

On the other hand, the way to suck at the same time through the vent hole 13 of the intake and exhaust pipe 30 and the closing plate 15 by removing the opening and closing plate 18 to open the opening and closing hole 41 of the opening and closing member 40 The suction force of the blowing fan or blower 200 is acted on the vent hole (13).

Such contaminants flow in the order of the suction pipe 34 of the intake and exhaust pipe part 30-> the second perforated pipe 33-> the pleated exhaust pipe 31, and at the same time, the ventilation hole 13-> the opening and closing hole 41. -> The first flow hole 21 of the first perforated pipe 20-> the second flow hole 32 of the second perforated pipe 33-> is sucked into the pleated exhaust pipe (31).

At this time, the pollutant introduced into the internal space 16 through the vent hole 13 is increased by the suction force of the blower fan or blower 200 around the opening and closing hole 41 to increase the exhaust efficiency.

That is, the air introduced into the suction pipe 34 and the ventilation hole 13 is combined to be forced to the outside of the building through the corrugated exhaust pipe 31.

Thus, the suction method using only the intake and exhaust pipe part 30 may be useful when the distribution area of the pollutant is narrow and intensively sucked and exhausted.

On the other hand, the method that can be sucked simultaneously through the vent hole 13 of the intake and exhaust pipe part 30 and the closing plate 15 is useful when a wide area of distribution of contaminants is widely inhaled and exhausted.

At this time, when the suction force is generated in the vent hole 13, vortices are generated at the end portion 12a of the suction body 12 to increase the suction efficiency, thereby preventing a wide range of inhalation of contaminants.

As shown in Figures 4 and 5, the end (12a) (12b) is such that the contaminants remaining inside the suction body 12 does not overflow to the outside and the vortex is generated to improve the suction force.

In common, the suction pipe 34 is fastened to the second perforated pipe 33 in a spiral position, and when the suction pipe 34 is rotated, the suction pipe 34 is moved up and down, where contaminants are concentrated in a dense state. It can be installed close to the suction.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments and is not limited to the spirit of the present invention. Various changes and modifications can be made by those who have

1 is an exploded perspective view of a pollutant intake and exhaust device according to the present invention;

2 is a perspective view of the combination of FIG.

3 is a bottom view of FIG. 2;

4 and 5 is a cross-sectional view showing the shape of the end of the suction body according to another embodiment,

6 is a cross-sectional view taken along the line A-A of FIG.

7 is an operation diagram for simultaneously intake and exhaust air using the intake and exhaust pipe portion and the vent hole.

<Description of Symbols for Main Parts of Drawings>

10 suction part 11 mounting hole

12: suction body 13: ventilation hole

14: through hole 15: closing plate

16: inside space 17: hall

18: opening and closing plate 20: the first hole

21: first flow hole 30: intake and exhaust pipe

31: corrugated exhaust pipe 32: second flow hole

33: second punched pipe 34: suction pipe

40: opening and closing member 41: opening and closing hole

42: exhaust pipe hole 50: support

51: spiral hole 52: bracket

53: screw shaft 100: intake and exhaust device

Claims (6)

In the pollutant intake and exhaust device for forcibly exhausting the polluted air mixed with air, dust, harmful gas, mist, etc., In the center, the installation hole 11 penetrates in the longitudinal direction and forms a cylindrical suction body 12 having an open lower portion, and a plurality of ventilation holes 13 are formed along the inner side of the rim, and in the center, the through hole in the longitudinal direction. Inserting the closing plate 15 through which the 14 is penetrated through the open space of the suction body 12, and welds the rim to form the suction part 10 in which the internal space 16 is generated. The first perforated pipe 20 in which the plurality of first flow holes 21 are formed is erected on the upper part of the closing plate 15 in the inner space 16 to surround the periphery of the through hole 14 of the suction part 10. Install it, The upper end of the second perforated tube 33 having a plurality of second flow holes 32 is formed at the lower end of the pleated exhaust pipe 31 located in the upper portion, and the lower end of the second perforated tube 33 The intake and exhaust pipe part 30 formed by connecting the upper end of the suction pipe 34 to the installation hole 11 and the through hole 14 of the suction part 10, The contaminated air that has passed through the vent hole 13, the first perforated pipe 20, and the second perforated pipe 33 sequentially and the contaminated air sucked into the suction pipe 34 of the intake and exhaust pipe part 30 are wrinkled exhaust pipes 31. Pollutant intake and exhaust device, characterized in that configured to suck the contaminated air over a large area while being exhausted through. The method of claim 1, wherein the closing plate 15 of the suction unit 10 is inserted into the open space of the suction body 12 so that the open end 12a of the suction body 12 and the vent hole 13 are spaced apart from each other. The contaminant intake and exhaust device, characterized in that configured to improve the suction power while the vortex is generated inside the open space of the suction body 12 during the suction of the polluted air. According to claim 1, The opening and closing member 40 is inserted into and coupled to the installation hole 11 of the suction unit 10 has a plurality of opening and closing holes 41 penetrating the outer peripheral surface is formed, the exhaust pipe hole 42 in the upper center ) Is formed into a tubular shape, which is inserted through the installation hole 11 of the suction part 10 so as to be settled in the closing plate 15 and at the same time the intake and exhaust pipe part 30 passes through the exhaust pipe hole 42. Wrinkle exhaust pipe 31 is fixed, Opening and closing the opening and closing plate 18 by inserting and removing the opening and closing plate 18 into a hole 17 formed at a position coinciding with the opening and closing hole 41 of the opening and closing member 40 around the installation hole 11 formed in the suction body 12. A contaminant intake and exhaust device, characterized in that configured to block the intake and exhaust of contaminated air and to intake and exhaust through the hole (41). According to claim 1, wherein the outer circumferential surface of the second perforated tube 33 is formed with a male thread (33a), the inner circumferential surface of the suction pipe 34 is formed by tightening the female thread (34a) and the suction pipe 34 Contaminant intake and exhaust device characterized in that configured to adjust the suction distance by moving up and down by rotating. The method of claim 1, wherein the bracket 52, the spiral hole 51 is formed in the periphery of the through-hole 14 formed in the closing plate 15 of the suction unit 10, the spiral hole 51 The screw shaft 53 is formed to support the outer circumferential surface of the suction pipe 34 by forming the support part 50 with the screw shaft 53 moving in the forward / backward direction when helix is fastened to Intake and exhaust device. According to claim 2, wherein the end (12a) of the suction body 12 is formed as an arcuate end (12b) in which the central portion is raised from the inside to the outside, The end 12a of the suction body 12 is formed as a bent end 12c of which a part is horizontally bent inward, so that the contaminants remaining inside the suction body 12 do not overflow to the outside. The pollutant intake and exhaust device characterized in that.

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