KR102429697B1 - Turbo blower apparatus - Google Patents

Abstract

The present invention relates to a turbo blower device for reducing flow noise by discharging air discharged from a turbo blower and a cooling fan to the outside through a silence box, which is a noise reduction device.
The present invention is a turbo blower device that sucks air, pressurizes it to a predetermined pressure or more, and discharges it, a cooling fan coupled to the turbo blower, and a control unit for controlling the turbo blower, the turbo blower and the cooling fan and an enclosure in which the control unit is disposed inside, a blow-off valve pipe disposed inside the enclosure, connected to the turbo blower, and through which the air passing through the turbo blower moves, is disposed inside the enclosure, a cooling fan discharge pipe connected to the cooling fan and through which the air passing through the cooling fan moves; and a silence box for discharging air moving through the cooling fan discharge pipe to the outside of the enclosure.

Description

Turbo blower apparatus

The present invention relates to a turbo blower device, and more particularly, to a turbo blower device for reducing flow noise by discharging air discharged from a turbo blower and a cooling fan to the outside through a silence box, which is a noise reduction device.

In general, a blower (Blower) is a mechanical device that causes the flow of air, and consists of an impeller causing the flow and a casing for guiding the flow of air entering and exiting the impeller.

There are various types of blowers, and according to the characteristics of the flow passing through the impeller, it is divided into an axial blower, a radial blower, and a mixed flow blower.

As an example, a semi-flow blower is mainly used to increase pressure by centrifugal force, and thus is often used where pressure rather than flow rate is required. In addition, centrifugal blowers usually use a helical casing so that the impeller inlet flow is in the direction of the axis of rotation but the outlet flow is in the direction perpendicular to the axis of rotation. cases are largely distinguished.

A turbo blower, a type of centrifugal blower, refers to a centrifugal blower with a relatively high pressure ratio, and the impeller rotates at high speed within the casing to allow gas to flow at high pressure. The air introduced into the furnace is pressurized to a certain pressure or higher through the drive unit, and then discharged.

However, at this time, the noise generated by the driving unit is largely transmitted to the outside. That is, noise is generated as a large amount of external air is introduced by the rotation of the impeller. In order to solve this problem, a silencer has been separately installed in the prior art to solve this problem.

However, in this case, there is a problem in that the pressure is lost as the intake air passes through the silencer as well as an increase in cost and overall volume.

Republic of Korea Patent Publication No. 10-0572850 (Title of Invention: Enclosure Structure of Turbo Blower, Announcement Date: 2006. 04. 24.)

An object of the present invention is to provide a turbo blower device in which air discharged from a turbo blower and a cooling fan is discharged to the outside through a silence box, which is a noise reduction device, thereby reducing the transmission of flow noise to the outside in order to solve the above problem will do

In order to solve the above problems, the present invention is a turbo blower device comprising a turbo blower for sucking in air, pressurizing and discharging air to a predetermined pressure or more, a cooling fan coupled to the turbo blower, and a control unit for controlling the turbo blower. , an enclosure in which the turbo blower, the cooling fan, and the control unit are disposed inside, a blow-off valve pipe disposed inside the enclosure, connected to the turbo blower, and through which the air passing through the turbo blower moves; a cooling fan discharge pipe disposed inside the enclosure, connected to the cooling fan, through which air passing through the cooling fan moves, and disposed inside the enclosure, the blow-off valve pipe and the cooling fan discharge pipe It provides a turbo blower device, characterized in that it comprises a silence box for discharging the air that is connected to the blow-off valve pipe and the cooling fan discharge pipe to the outside of the enclosure.

Here, the silence box includes a box body, a sound absorbing material coupled to the inner surface of the box body, and a partition panel for partitioning an inner space of the box body, and the blow-off valve pipe is connected to the box body to provide air A first inlet to which is introduced, a second inlet through which the cooling fan discharge pipe is connected to receive air, and an outlet for discharging the air introduced from the first inlet and the second inlet are formed, The partition panel may separate air introduced from the first inlet and air introduced from the second inlet.

In addition, the enclosure is formed on the side of the enclosure body and the enclosure body, and is connected to an air inlet part through which air sucked by the turbo blower is introduced, and the exhaust part, so that the air discharged from the exhaust part is discharged from the enclosure into the enclosure. It includes a discharge pipe for discharging to the outside, and the air inlet portion may be arranged with a plurality of panels rotated at a predetermined angle with respect to the longitudinal direction of the side of the enclosure spaced apart from each other at regular intervals.

The turbo blower device according to the present invention has the following effects.

First, there is an advantage in that the air discharged from the turbo blower and the cooling fan is discharged to the outside through the silence box, which is a noise reduction device, so that the transmission of flow noise to the outside can be reduced.

Second, by disposing a sound absorbing material inside the silence box, there is an advantage in that the noise caused by the flow of air can be reduced as air is introduced into the silence box.

Third, an air inlet in which a plurality of panels rotated at a predetermined angle based on the longitudinal direction is formed on the side surface of the enclosure spaced apart from each other at regular intervals is formed, so that air is introduced, but noise is transmitted to the outside of the enclosure by hitting the air inlet It has the advantage of reducing the

1 is a view showing a perspective view of a turbo blower device according to the present invention.
2 is a view showing a front view of a turbo blower device according to the present invention.
3 is a view showing a side view of a turbo blower device according to the present invention.
4 is a view specifically showing the silence box of the turbo blower device according to the present invention.

Hereinafter, preferred embodiments of the present invention in which the above-described problem to be solved can be specifically realized will be described with reference to the accompanying drawings. In describing the present embodiments, the same names and the same reference numerals are used for the same components, and an additional description thereof will be omitted below.

1 to 4, the turbo blower device according to the present invention will be described as follows.

1 to 3 are a perspective view, a front view, and a side view of a turbo blower device according to the present invention, respectively, and the overall configuration included in the turbo blower device according to the present invention will be described with reference to FIGS. 1 to 3 .

1 to 3, the turbo blower device according to the present invention includes a turbo blower 100, a cooling fan (not shown), a control unit 300, an enclosure 200, a main discharge pipe 300, and a blower. It includes an off-valve pipe 400 , a cooling fan discharge pipe 500 , and a silence box 600 .

The turbo blower 100 is disposed inside the enclosure 200, sucks air from the outside of the enclosure 200 through an air inlet 220 to be described later, pressurizes it to a certain level or more, and discharges it. .

When the turbo blower 100 is operated under the control of the controller, a negative pressure is formed inside the enclosure 200 according to the rotation of the impeller of the turbo blower 100, and the air outside the enclosure 200 starts to be introduced through the air inlet 220 and is sucked into the turbo blower 100 .

The cooling fan is coupled to the turbo blower 100 to cool the turbo blower 100 using air to prevent overheating of the turbo blower 100 .

The enclosure 200 includes the turbo blower 100 , the cooling fan and the control unit disposed inside. Specifically, the enclosure 200 includes an enclosure body 210 , an air inlet 220 and an exhaust pipe 230 . ) is included.

An inverter and electrical components for driving the turbo blower 100 are disposed below the enclosure body 210 , and the turbo blower 100 , the cooling fan and the control unit are disposed at the top of the enclosure 200 . .

The air inlet 220 is formed on a side surface of the enclosure body 210 , and air sucked in by the turbo blower 100 is introduced from the air inlet 220 .

The air inlet 220 is formed like a louver in which a plurality of panels 221 rotated at a predetermined angle with respect to the longitudinal direction of the side surface of the enclosure 200 are spaced apart from each other at regular intervals.

That is, when the impeller of the turbo blower 100 operates, air is introduced through the air inlet 220 , and the noise inside the enclosure 200 is refracted by the panel 221 so that the noise is generated by the enclosure. (200) Reduces transmission to the outside.

Preferably, a suction side air filter is disposed on the front end side of the air inlet 220 .

The discharge pipe 230 is connected to the discharge unit 613 included in the silence box 600 to discharge the air discharged from the discharge unit 613 to the outside of the enclosure 200 , and the discharge pipe 230 of A detailed description will be given later in the description of the discharge unit 613 .

The blow-off valve pipe 400 is disposed inside the enclosure 200 , connects the blow-off valve and the silence box 600 , and air that has passed through the turbo blower 100 moves.

Here, the blow-off valve is driven when the pressure of the air discharged from the turbo blower 100 is excessive, so as to discharge the air to the outside in order to control the air pressure, and separately on the turbo blower 100 . It is partitioned and installed on the pressure control pipe that discharges the air.

That is, the air sucked into the turbo blower 100 is discharged through the main discharge pipe 300 , and when the pressure of the air discharged from the turbo blower 100 is excessive, it is compressed through a pressure control pipe (not shown). exhaust the exhausted air

The cooling fan discharge pipe 500 is disposed inside the enclosure 200 , is connected to the cooling fan, and the air passing through the cooling fan moves.

The silence box 600 is It is disposed inside the enclosure 200 and is connected to the blow-off valve pipe 400 and the cooling fan discharge pipe 500 to move the blow-off valve pipe 400 and the cooling fan discharge pipe 500 . to discharge the air to the outside of the enclosure (200).

4 is a diagram specifically illustrating the silence box 600 of the turbo blower device according to the present invention. Referring to FIG. 4 , the configuration of the silence box 600 will be described as follows.

The silence box 600 includes a box body 610 , a sound absorbing material 620 , and a partition panel 630 .

The box body 610 is disposed inside the enclosure 200 , and disposed in an area in which the discharge pipe 230 of the enclosure 200 is formed.

A first inlet 611 , a second inlet 612 , and an outlet 613 are formed in the box body 610 .

The first inlet 611 is connected to the blow-off valve pipe 400 to introduce air, and the second inlet 612 is connected to the cooling fan discharge pipe 500 to introduce air.

In addition, the discharge unit 613 discharges the air introduced into the box body 610 to the outside of the enclosure 200 , and at this time, the discharge unit 613 and the discharge pipe 230 have the same diameter. formed, and preferably disposed on the same line.

The sound absorbing material 620 is coupled to the inner surface of the box body (610). That is, since the air flowing in from the blow-off valve pipe 400 flows into the box body 610 at a high pressure and flow rate, when the air hits the inner wall inside the box body 610, significant discharge noise is generated.

Accordingly, the sound absorbing material 620 is coupled to the inner surface of the box body 610 to reduce noise generated by the flow of air when air is introduced into the box body 610 .

The sound absorbing material 620 may be made of a material such as foamed styrofoam or rubber.

The partition panel 630 divides the inner space of the box body 610 into a first space 600a and a second space 600b.

That is, the first air a1 flowing in from the first inlet 611 moves into the first space 600a of the partition panel 630 and the second inflow into the second space 600b. The second air a2 flowing in from the part 612 moves to separate the first air a1 from the second air a2 and at the same time, the first inlet 611 from the outlet 613 ) and a region from which the first air a1 introduced from and the second air a2 introduced from the second inlet 612 are discharged is also separated.

After the first air (a1) and the second air (a2) are introduced into the box body 610 , it is discharged to the outside of the enclosure 200 through the discharge unit 613 and the discharge pipe 230 . As it is discharged, by reducing the discharge flow rates of the first air (a1) and the second air (a2) inside the box body 610, the first air (a1) and the second air (a1) generated by the high flow rate 2 It is possible to reduce the flow noise of the air a2.

As described above, the present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. are possible and such modifications are within the scope of the present invention.

100: turbo blower
200: enclosure
210: enclosure body
220: air inlet
221: panel
230: discharge pipe
300: main discharge pipe
400: blow off valve piping
500: cooling fan discharge pipe
600: silence box
610: box body
611: first inlet
612: second inlet
613: discharge unit
620: sound absorbing material
630: block panel
600a: first space
600b: second space

Claims (3)

In the turbo blower device which sucks air, pressurizes it to a predetermined pressure or more, and discharges it, a cooling fan coupled to the turbo blower and a control unit for controlling the turbo blower are disposed,
an enclosure in which the turbo blower, the cooling fan, and the control unit are disposed inside;
a blow-off valve pipe disposed inside the enclosure, connected to the turbo blower, and through which air passing through the turbo blower moves;
a cooling fan discharge pipe disposed inside the enclosure, connected to the cooling fan, and through which air passing through the cooling fan moves; and
a silence box disposed inside the enclosure and connected to the blow-off valve pipe and the cooling fan discharge pipe to discharge air moving through the blow-off valve pipe and the cooling fan discharge pipe to the outside of the enclosure;
The silence box is
box body;
a sound absorbing material coupled to the inner surface of the box body; and
Comprising a partition panel partitioning the inner space of the box body,
A first inlet to which the blow-off valve pipe is connected to the box body to introduce air, a second inlet to which the cooling fan discharge pipe is connected to receive air, and the first inlet and the second inlet to the box body A discharge unit for discharging the air introduced from the unit is formed,
The partition panel divides the space inside the box body into a first space and a second space, and separates the air introduced from the first inlet and the air introduced from the second inlet,
The first air introduced from the first inlet moves to the first space, and the second air introduced from the second inlet moves to the second space,
The partition panel separates a region from which the first air and the second air are discharged. delete According to claim 1,
The enclosure is
enclosure body;
an air inlet formed on a side surface of the enclosure body, into which air sucked by the turbo blower is introduced; and
and a discharge pipe connected to the discharge unit for discharging the air discharged from the discharge unit to the outside of the enclosure,
The air inlet unit turbo blower device, characterized in that the plurality of panels rotated at a predetermined angle based on the longitudinal direction of the side of the enclosure are spaced apart from each other at regular intervals.

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