KR20200141597A - An apparatus for exhausting air - Google Patents

Abstract

The present invention relates to an apparatus for exhausting air. The apparatus for exhausting air comprises: a main body unit having a hollow cylinder body having an airfoil cross-section, having an air discharge passage formed on one side of a side surface thereof, and allowing compressed air introduced into the cylinder body to flow along an inner wall surface thereof to be discharged to the outside through the air discharge passage; an inlet pipe provided on one side of the main body unit and allowing the compressed air supplied from an external air supply means into the main body unit; and a pressure reduction unit provided to an outlet side of the inlet pipe inside the main body unit to reduce pressure of the compressed air introduced to the inside of the main body unit through the inlet pipe.

Description

Ventilation system {AN APPARATUS FOR EXHAUSTING AIR}

The present invention relates to a ventilation device.

In general, a ventilation device is a device used for the purpose of ventilating by forcibly blowing air in a closed room or work space to discharge contaminated air to the outside, or to dry the room by circulating air inside and outside the room.

In particular, in the field of manufacturing ships or offshore structures, fast drying is performed when external air flows well for paint drying inside ships and blocks. For this purpose, paint drying using a ventilation system suitable for the purpose of explosion-proof and vibration-proof Ventilation devices are widely used for ventilation purposes or to protect workers due to painting or welding work in a closed space.

In general, a single nozzle method or a multi-nozzle method is used as an exhaust ventilation device used for drying or ventilation of painting in a workplace, and a blowing or exhaust function is performed by spraying compressed air through a nozzle.

The one nozzle method is a method of injecting compressed air supplied from the air hose as it is by installing a nipple with an ON/Off valve at the front end of the air hose.

However, since the one-nozzle type exhaust ventilation system injects compressed air as it is, a lot of noise is generated, requiring installation of a silencer, and there is a disadvantage in that the consumption of compressed air increases.

In addition, the multi-nozzle method is a method of increasing the amount of air blown by using a pressure difference generated when compressed air is injected at high speed and high pressure by arranging a nozzle with a small hole at the edge or center of a cylindrical pipe.

Such a multi-nozzle exhaust ventilation device also has a disadvantage in that a lot of noise is generated due to a pressure difference generated when compressed air is injected at high speed and high pressure from a plurality of nozzles.

The high-decibel noise generated by the ventilation system in the workplace deteriorates the quality of the work environment and adversely affects the worker, thereby deteriorating the work efficiency of the worker.

In the present invention, the pressure of the ventilating device, specifically the compressed air supplied through the air hose, is attenuated and introduced into the interior of the ventilating device, and the introduced air is flowed along the inner wall surface of the body of the airfoil structure to the outside through the air discharge passage. It is intended to provide a ventilating device capable of blowing or ventilating while suppressing noise to the maximum by discharging it.

The technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems that are not mentioned will be clearly understood by those of ordinary skill in the technical field to which the present invention belongs from the following description. I will be able to.

In order to solve the problems as described above, the present invention is a hollow cylinder having an airfoil cross section, and an air discharge passage is formed on one side thereof, and the compressed air flowing into the cylinder flows along the inner wall surface to form the air discharge passage. An inlet pipe is provided on one side of the main body and discharged to the outside through the main body, and is provided on the outlet side of the inlet pipe from the inside of the main body and the inlet pipe for introducing compressed air supplied from the external air supply means into the main body. It provides a ventilating device including a pressure attenuating unit for attenuating the pressure of compressed air flowing into the body through the inside.

In addition, the main body portion is provided with an air guideway for introducing compressed air flowing along the inner wall surface into the air discharge passage, and the air discharge passage is formed as a narrow passage compared to the air guideway.

In addition, there is provided a ventilating device having a circular cross-section and provided on one side of the air guideway, further comprising a bulb portion for suppressing the occurrence of vortex of compressed air introduced into the air guideway.

In addition, the pressure attenuating unit provides a ventilation device including a support bar disposed inside the main body to face the outlet of the inlet pipe, and a damping member disposed at an upper end of the support bar to be inserted into the outlet of the inlet pipe.

In addition, the inlet pipe is formed in the shape of a fallopian tube at the outlet side, and a damping member disposed to be inserted into the outlet of the inlet pipe provides a ventilating device formed in a conical shape.

In addition, it provides a ventilation device further comprising a handle provided on one side of the body portion and a magnet member provided below the body portion.

The exhaust ventilation apparatus according to an embodiment of the present invention can effectively reduce noise generated by a pressure difference in air by attenuating the pressure of compressed air supplied from the air supply means through the air hose and introducing it into the body part. , By flowing the introduced air along the inner wall of the airfoil structure and discharging it to the outside by increasing the flow velocity through the air discharge passage, it is possible to perform ventilation or ventilation while suppressing noise generation, thereby dramatically reducing the noise during ventilation or ventilation. Can be reduced to improve the working environment.

In addition, since it can be used by being attached to a wall or ceiling in a workplace, it can be conveniently installed adjacent to a portion requiring ventilation or ventilation, thereby increasing ventilation and ventilation efficiency.

The effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned can be clearly understood by those of ordinary skill in the art from the following description. will be.

1 shows the overall appearance of a ventilation apparatus according to an embodiment of the present invention.
2 is a side cross-sectional view of a ventilation apparatus according to an embodiment of the present invention.
3 is a top cross-sectional view of the exhaust ventilation apparatus according to an embodiment of the present invention.
4 is a diagram illustrating an operation process of the exhaust ventilation apparatus according to an embodiment of the present invention.
5 is a diagram showing an installation state of the exhaust ventilation apparatus according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The detailed description to be disclosed hereinafter together with the accompanying drawings is intended to describe exemplary embodiments of the present invention, and is not intended to represent the only embodiments in which the present invention may be practiced.

In the drawings, parts irrelevant to the description may be omitted in order to clearly describe the present invention, and the same reference numerals may be used for the same or similar components throughout the specification.

In an embodiment of the present invention, expressions such as “or” and “at least one” may represent one of words listed together, or a combination of two or more.

1 is a view showing the overall appearance of a ventilation device 100 according to an embodiment of the present invention, Figure 2 is a side cross-sectional view of a ventilation device 100 according to an embodiment of the present invention, Figure 3 Is a top cross-sectional view of the ventilation device 100 according to an embodiment of the present invention.

The ventilation device 100 according to the present embodiment is a device that blows or exhausts air to ventilate a closed workplace, and is particularly easy to ventilate indoor air during welding or painting work in a sealed area within a ship or offshore structure. It can be used to improve the working environment by drastically reducing the noise during blowing or exhaust.

1 to 3, the exhaust ventilation apparatus 100 according to an embodiment of the present invention may include a main body 110, an inlet pipe 120, and a pressure reducing unit 130.

The body portion 110 may be formed as a hollow cylindrical body having an airfoil cross section.

In addition, an inlet pipe 120 for introducing compressed air from an external air supply means (not shown) may be provided on the upper surface of the main body 110, and an air discharge passage 115 through which compressed air is discharged is provided on the side surface. Can be formed.

Specifically, the main body 110 has a wall portion 111 having an airfoil cross-section in which one side is rounded and the other side is angled, and an upper plate portion 112 and a lower plate portion respectively closing the upper and lower portions of the wall portion 111 (113) may be included.

At this time, the wall part 111 is formed into an airfoil shape by bending the plate body, extending from the front end of the plate body to form an airfoil, and arranging the rear end of the plate body to face the front end of the plate body at a predetermined distance to guide air between the front end and the rear end of the plate body. 114 and an air discharge passage 115 may be formed.

In this case, an air guideway 114 may be formed inside the rounded side of the wall part 111, and an air discharge passage 115 communicating with the air guideway 114 may be formed at the side.

Here, the air discharge passage 115 may be formed to have a narrower passage width than the air passage 114, so that the air flowing into the air passage 114 and passing through the air discharge passage 115 is Bernoulli's principle ( Bernoulli's theorem) increases the flow velocity rapidly and can be discharged to the outside.

Moreover, an air discharge part 116 in which the passage is extended may be formed at the end of the air discharge passage 115, so that air discharge to the outside may be smoothly performed.

In addition, a bulb portion 140 having a circular cross section may be formed at the front end portion of the plate body disposed to form the air guideway 114 inside the wall portion 111, and the air guideway ( 114), it is possible to suppress the occurrence of eddy currents in the air entering.

With this configuration, when compressed air is introduced into the body portion 110 from the outside, the introduced compressed air flows along the inner wall of the body portion 110 formed in an airfoil structure and flows into the air induction path 114 Then, while passing through the air discharge passage 115 communicating with the air induction road 114, the flow rate of air is rapidly increased, so that the air may be discharged to the outside through the air discharge unit 116.

At this time, the air flowing into the body portion 110 flows along the inner wall surface formed in an airfoil structure and discharges it to the outside through the air discharge portion 116 to reduce noise caused by the air.

The inlet pipe 120 is provided on one side of the main body 110 and may introduce compressed air supplied from an external air supply means (not shown) into the main body 110.

Specifically, the inlet pipe 120 may be provided such that the inlet is disposed on the upper plate portion 112 of the body portion 110, the outlet is disposed inside the main body portion 110, and an air supply means (not shown) at the inlet ) To supply compressed air from the air hose (10, see FIG. 5) may be connected.

In addition, the outlet side of the inlet pipe 120 disposed inside the main body 110 may be formed in the shape of a fallopian tube whose inner diameter gradually increases.

The pressure reducing unit 130 is provided at the outlet side of the inlet pipe 120 from the inner side of the main body unit 110, and attenuates the pressure by dispersing the compressed air flowing into the main unit 110 through the inlet pipe 120 can do.

Such a pressure reducing unit 130 is provided on the upper end of the support bar 131 and the support bar 131 disposed to face the outlet of the inlet pipe 120 from the inside of the main body 110 to the inlet pipe ( It may include a conical attenuation member 132 arranged to be inserted into the outlet of 120).

That is, a support bar 131 supported by the lower plate 113 is vertically disposed inside the main body 110 facing the outlet of the inlet pipe 120, and a conical shape provided at the end of the support bar 131 The attenuating member 132 of may be disposed inside the outlet of the inlet pipe 120 formed in a fallopian tube shape.

At this time, as the conical attenuating member 132 is disposed in the center of the outlet of the inlet pipe 120 formed in the form of a fallopian tube, the compressed air discharged through the outlet of the inlet pipe 120 is diffused by the attenuating member 132 The pressure is attenuated and may flow into the body portion 110.

That is, when compressed air is introduced into the inlet pipe 120 from the air supply means (not shown), the compressed air discharged to the outlet of the inlet pipe 120 formed in the form of a fallopian tube is discharged through the conical attenuation member 132. The pressure may be attenuated by being discharged while spreading toward the edge, and the pressure-attenuated air is introduced into the body part 110 to prevent a sudden pressure difference from occurring when the compressed air is introduced into the body part 110, Noise generated by the air pressure difference can be effectively reduced.

Here, the present embodiment shows that the attenuating member 132 is formed in a conical shape, but the present invention is not necessarily limited thereto, and may be formed in various shapes capable of attenuating a polygonal pyramid or other air pressure It is self-evident.

In addition, the ventilation apparatus 100 according to the present embodiment may include a handle 150 on one side of the main body 110.

At this time, the handle 150 may be provided on the upper plate portion 112 or the wall portion 111 of the main body portion 110 for the convenience of the operator.

Moreover, a magnet member 160 may be further included in the lower plate portion 113 of the body portion 110.

That is, the ventilation device 100 according to the present embodiment may be used to ventilate indoor air during welding or painting work in a sealed work place of a ship or offshore structure, and can be used by attaching to the wall or ceiling of a work place made of steel plates. The magnet member 160 may be provided on the lower plate 113 of the main body 110 so that it may be.

As an example, when the exhaust ventilation device 100 of this embodiment is attached to the ceiling in the workplace, the operator grasps the handle 150 formed on the upper plate 112 of the main body 110 and turns it over to lift the lower plate 113 The ventilation device 100 may be attached to the ceiling through the magnet member 160 provided in ).

As described above, the ventilation device 100 according to the present embodiment has the advantage that it can be used by attaching it to a wall surface or a ceiling in the workplace, so that it can be conveniently installed adjacent to a portion requiring ventilation or ventilation, and in particular, the ventilation apparatus 100 ) When in use, the pressure of compressed air supplied to the main body 110 is attenuated and introduced into the main body 110, thereby effectively reducing the noise generated by the pressure difference of the air, and reducing the introduced air to the main body ( 110) By flowing along the wall surface of the inner airfoil structure and increasing the flow velocity through the air discharge passage 115 and discharging it to the outside, it is possible to perform ventilation or exhaust air while suppressing noise generation.

On the other hand, hereinafter, the operation process of the ventilation apparatus 100 according to an embodiment of the present invention will be described in detail.

4 is a diagram illustrating an operation process of the ventilation apparatus 100 according to an embodiment of the present invention, and FIG. 5 shows an installation state of the ventilation apparatus 100 according to an embodiment of the present invention.

4 and 5, the ventilation apparatus 100 according to the present embodiment includes an air hose 10 provided in an air supply means (not shown) of the inlet pipe 120 provided in the main body 110. It can be used by connecting it to the entrance.

At this time, since the air hose 10 connected to the inlet pipe 120 is provided with a valve 20, compressed air can be injected or released into the inlet pipe 120 through the valve 20 operation.

In addition, the ventilation device 100 to which the air hose 10 is connected is disposed on the floor in the workplace, or a magnetic member 160 (refer to FIG. 2) provided on the lower plate 113 of the main body 110 is used. It can be used by attaching it to the wall or ceiling in the workshop made of steel plates.

For example, it can be used to blow air to the ceiling by attaching it to the ceiling when drying after painting the ceiling.

Meanwhile, in the process of using the exhaust ventilation device 100 according to the present embodiment, compressed air can be supplied to the inlet pipe 120 by opening the valve 20 of the air hose 10 connected to the inlet pipe 120. .

At this time, the compressed air supplied to the inlet pipe 120 is discharged into the main body 110 through the outlet of the inlet pipe 120 formed in the form of a fallopian tube, and the compressed air discharged in this process is discharged from the inlet pipe 120. The pressure may be attenuated by spreading toward the edge of the fallopian tube by the conical attenuating member 132 disposed inside the outlet, and the pressure-attenuated air may be introduced into the main body 110.

Accordingly, it is possible to prevent a sudden pressure difference from occurring when the compressed air is introduced into the main body 110, and thus noise generated by the pressure difference between the air can be effectively reduced.

In addition, air introduced into the body portion 110 may flow along the inner wall surface of the body portion 110 formed in an airfoil structure and flow into the air guideway 114.

At this time, the bulb portion 140 in the form of a rod having a circular cross section is formed on the side of the air induction road 114, thereby suppressing the occurrence of vortex of air flowing toward the air induction road 114 through the bulb portion 140 , Air can be easily introduced into the air induction road 114.

Subsequently, the air flowing into the air induction road 114 passes through the air discharge passage 115 formed as a narrow passage compared to the air induction road 114, while the flow velocity of the air increases rapidly and can be discharged to the outside. It is possible to perform ventilation or ventilation in the workplace through the discharged air.

In this process, air flowing into the body portion 110 is flowed along the inner wall surface formed in an airfoil structure and discharged to the outside through the air discharge passage 115, thereby suppressing noise generation and performing ventilation or exhaust air. have.

As described above, the exhaust ventilation apparatus 100 according to the embodiment of the present invention attenuates the pressure of the compressed air supplied through the air hose 10 from the air supply means (not shown) to the inside of the main body 110 By introducing into the air, it is possible to effectively reduce the noise generated by the pressure difference of air, and by flowing the introduced air along the inner wall surface of the airfoil structure and increasing the flow velocity through the air discharge passage 115 and discharging it to the outside, Since it is possible to perform ventilation or ventilation while suppressing the generation of noise, it is possible to improve the working environment by remarkably reducing the noise during ventilation or ventilation.

In addition, since it can be used by being attached to a wall or ceiling in a workplace, it can be conveniently installed adjacent to a portion requiring ventilation or ventilation, thereby increasing ventilation and ventilation efficiency.

The embodiments of the present invention disclosed in the present specification and drawings are only provided for specific examples to easily explain the technical content of the present invention and to aid understanding of the present invention, and are not intended to limit the scope of the present invention.

Therefore, the scope of the present invention should be construed that all changes or modified forms derived based on the technical idea of the present invention in addition to the embodiments disclosed herein are included in the scope of the present invention.

100: exhaust ventilation device 110: main body
120: inlet pipe 130: pressure reducing unit
140: bulb part 150: handle
160: magnet member

Claims (6)

A hollow cylinder having an airfoil cross section, an air discharge passage formed on one side thereof, and a main body portion for discharging compressed air introduced into the cylinder along an inner wall surface to the outside through the air discharge passage;
An inlet pipe provided on one side of the main body and introducing compressed air supplied from an external air supply means into the main body; And
Ventilation apparatus comprising a pressure attenuating unit provided at the outlet side of the inlet pipe from the inside of the main body to attenuate the pressure of compressed air flowing into the main body through the inlet pipe.
The method of claim 1,
The body part,
An air guideway for introducing compressed air flowing along the inner wall surface into the air discharge passage is formed on an inner side,
The air discharge passage is formed as a passage narrower than the air induction device.
The method of claim 2,
Ventilation apparatus further comprising a bulb unit having a circular cross-section and provided on one side of the air guideway, and suppressing the occurrence of vortex of compressed air flowing into the air guideway.
The method of claim 1,
The pressure reducing unit,
A support bar disposed inside the main body to face the outlet of the inlet pipe; And
Ventilation apparatus comprising a damping member provided on the upper end of the support bar and disposed to be inserted into the outlet of the inlet pipe.
The method of claim 4,
The inlet pipe is formed in the shape of a fallopian tube at the outlet side,
The damping member disposed to be inserted into the outlet of the inlet pipe is formed in a cone shape.
The method of claim 1,
A handle provided on one side of the main body; And
Ventilation apparatus further comprising a magnet member provided in the lower portion of the main body.

Images