KR20160002914U - Low Noise Air Flow Control Device - Google Patents

Abstract

A low noise air flow rate regulating device for regulating the air flow rate of air flowing through a duct, comprising: a regulating device body forming an airtight air passage and having an inlet portion and an outlet portion; An inlet pipe portion having one end connected to the inlet portion; An outlet tube portion having one end connected to the outlet portion; And a flow rate adjusting unit installed between the inflow tube unit and the outflow tube unit to adjust the diameter of the central channel, wherein the inflow tube unit and the outflow tube unit are rounded and partly overlapped in the circumferential direction, By providing a configuration in which the diameter of each of the other end portions connected to the damper blade is reduced to form a frusto-conical channel, it is possible to prevent the occurrence of the vortex due to peeling off the damper blade, have.

Description

[0001] The present invention relates to a low noise air flow control device,

More particularly, the present invention relates to a low noise air flow rate regulating device that uses a rubber plate which is partially overlapped in the circumferential direction and whose diameter at one end is reduced to form a truncated cone- To a low-noise airflow control device that prevents the occurrence of a vortex.

Generally, a large number of sealed spaces such as compartments are formed on a ship, and an air conditioner for dropping the temperature is used in such a closed space. In this case, a certain amount of external air is supplied .

In addition, a separate system is also provided to supply external air from the outside to the closed space in case of an abnormality such as failure of the air conditioner installed in the closed space.

In order to supply outside air from the outside into the airtight space, a relatively long air duct and a fan capable of supplying air through the air duct are provided.

The air duct is formed with a ventilation hole, which serves to suck and discharge the air at a desired position through the ventilation hole, or to supply fresh air.

At this time, a separate damper is inserted between the tuyeres and the air duct in order to prevent a large amount of air from being sucked and discharged at a time through the tuyere, and to control the air volume. And is widely used as a device for supplying and exhausting air.

The damper rotates a separate adjusting lever exposed on the bottom surface to adjust the opening and closing amount of the flow path. However, a general damper controls the flow rate by shutting off the flow of air passing through the air duct of the air duct, so that the noise due to the friction between the damper and the air and the noise generated in each room are transmitted to the other room through the duct .

A conventional method for blocking such noise includes a silencer or the like installed at a portion connected to an air duct or an air duct to block noise transmitted from the air duct.

As an example of a technology related to the air volume adjusting device, a 'damper for an air conditioner' has been proposed in Patent Document 1 described below, and in the following Patent Document 2, an 'air amount adjusting device having a noise- have.

Korean Registered Patent No. 10-0959705 (Published on May 17, 2010) Korean Patent Publication No. 10-2013-0024444 (published on Mar. 08, 2013)

Patent Document 1 proposes a damper for an air conditioner capable of automatically controlling the air volume for each room, and Patent Document 2 proposes a damper for air conditioner that can block noise transmitted through an air duct in the process of supplying outside air to a closed space, It is a matter of course that there is a problem in that noise generated by a vortex generated by a damper blade can not be avoided.

In the case of installing a silencer in the air duct to reduce such noise, there is a limitation in the installation space and the silencer itself is extremely expensive.

The object of the present invention is to solve the above-mentioned problems, and it is an object of the present invention to provide a rubber plate which is partially overlapped in the circumferential direction and whose diameter is reduced at one end to form a truncated cone- So that the vortex does not occur.

Another object of the present invention is to improve flow flow by providing a lattice portion behind the damper.

According to an aspect of the present invention, there is provided a low noise air flow rate regulator for regulating the flow rate of air flowing through a duct, comprising: a regulating device body having an air inlet and an outlet, An inlet pipe portion having one end connected to the inlet portion; An outlet tube portion having one end connected to the outlet portion; And a flow rate adjusting unit installed between the inflow tube unit and the outflow tube unit to adjust the diameter of the central channel, wherein the inflow tube unit and the outflow tube unit are rounded and partly overlapped in the circumferential direction, The diameter of each of the other end portions connected to the elastic member is reduced to form a truncated conical channel.

Here, the flow control unit may include elastic bands having both sides connected to the other end of each of the inflow tube portion and the outflow tube portion; A gear portion for reducing or increasing the diameter of the elastic band; And a handle that transmits a rotational force to the gear portion.

And a lattice portion provided in the duct on the downstream side of the outlet portion.

Here, a plurality of gear tooth grooves are formed at one end of the elastic band, and the gear portion includes a worm gear in which a gear tooth is inserted into the gear tooth groove; And a gear housing rotatably supporting the worm gear while receiving the worm gear, wherein the worm gear is rotated by a rotational force transmitted from the handle.

According to the inventive low noise air volume adjusting device, the sectional area of the duct inside the duct is adjusted by using a rubber plate which partially overlaps in the circumferential direction and the diameter of one end is reduced to form a truncated cone- It is possible to prevent noise from being generated due to peeling off of the downstream of the damper blade.

Further, a lattice portion is provided in the rear of the damper to improve the flow, thereby preventing noise from being generated due to additional turbulence.

1 is a side view showing a state in which one side of a regulating device main body of a low noise air volume adjusting device according to the present invention is opened,
FIG. 2 is a side sectional view of a low noise air volume adjusting device according to the present invention,
FIG. 3 is a front sectional view showing a state in which the low noise air volume adjusting device is cut along the line AA of FIG. 2,
4 is a front view showing the state of the adjustment device body of the low noise air volume adjusting device according to the present invention as seen from the direction of the outlet portion.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and the present invention is not limited to or limited by the embodiments.

Hereinafter, the configuration of the low noise airflow amount adjusting apparatus 1 according to the preferred embodiment of the present invention will be described.

2 is a side sectional view of a low noise air volume adjusting device according to the present invention, and FIG. 3 is a sectional view taken along the line AA in FIG. 2 FIG. 4 is a front view showing a state in which the low noise air volume adjusting device according to the present invention is viewed from the body of the adjusting device toward the outlet portion. FIG.

The low noise air volume adjusting device (1) according to the present invention comprises a regulating device body (10) having an inlet part (11) and an outlet part (12); An inlet tube portion 20 having one end connected to the inlet portion 11; An outlet tube portion 30 having one end connected to the outlet portion 12; And a flow control unit 40 installed between the inlet pipe 20 and the outlet pipe 30.

3 and 4, the adjustment device main body 10 is a part constituting the outer shape of the low noise air amount adjustment device 1 according to the present invention while receiving and protecting the components of the low noise air amount adjustment device 1 according to the present invention. Sectional shape, but it can also be formed into a shape such as a polygonal tube or a cylinder that can be installed in a duct.

An inlet 11 and an outlet 12 are formed in the regulating device main body 10 and the inlet 11 is connected to a duct through which air is introduced, Is connected to a duct through which air flows.

The inlet portion 11 and the outlet portion 12 are formed to have a circular cross section and one end of the inlet pipe portion 20 is connected to the inlet portion 11 and the other end of the outlet pipe portion 30 is connected to the outlet portion 12, The ends are connected.

The inflow tube portion 20 is a portion that functions to guide the air introduced through the inlet portion 11 to the flow rate regulating portion 40 and is made of an elastic rubber plate.

The inflow tube portion 20 is not a tubular member having no circumferential joint such as a general pipe but is made of an elastic rubber plate which can be spread in a shape similar to the trajectory drawn by the wiper of the vehicle on a flat surface.

That is, the elastic rubber plate is rounded in a circumferential direction so that the other end is overlapped on one end thereof, so that a flow path of air flows therein.

One end (left side in FIG. 1) of the inflow tube 20 made of such an elastic rubber plate is connected to the inlet 11 and the other end (in the direction of the center in FIG. 1) is connected to the flow rate regulator 40 And is connected to the elastic band 41.

The other end of the inflow tube portion 20 is connected to and fixed to the elastic band 41 so that the elastic band 41 is wound or unwound as it is wound or unwound in the circumferential direction. The diameter of the inner flow path can be reduced or increased compared to one end of the connected inflow pipe portion 20.

Therefore, the overall shape of the inflow tube portion 20 has a truncated cone shape in which the diameter of the flow path is reduced toward the air flow direction.

When the diameter of the flow path formed by the other end of the inflow pipe portion 20 is reduced, the overall length of the inflow pipe portion 20 is geometrically reduced. However, since the inflow pipe portion 20 is made of the elastic rubber plate, The total length is kept constant as it is stretched to a degree corresponding to the length reduction.

The outlet pipe portion 30 is a portion that functions to guide the air that has passed through the flow control portion 40 to the outlet portion 12, and is made of an elastic rubber plate.

The outflow tube portion 30 is not a tubular member having no circumferential joint like a general pipe but is made of an elastic rubber plate which can be spread out in a shape similar to a trajectory drawn by a vehicle wiper in a flat surface.

That is, the elastic rubber plate is rounded in a circumferential direction so that the other end is overlapped on one end thereof, so that a flow path of air flows therein.

One end (the right side in FIG. 1) of the outlet tube portion 30 made of such an elastic rubber plate is connected to the outlet portion 12 and the other end (the center portion direction in FIG. 1) 41).

The other end of the outlet tube portion 30 is connected to and fixed to the elastic band 41 so that the elastic band 41 is wound or unwound as it is wound or unwound in the circumferential direction. The diameter of the inner flow path can be reduced or increased compared to one end of the outlet pipe portion 30 connected and fixed.

Accordingly, the overall shape of the outflow tube portion 30 has a truncated cone shape in which the diameter of the flow path increases as the air flows.

When the diameter of the flow path formed by the other end of the outlet tube portion 30 is reduced, the overall length of the outlet tube portion 30 is geometrically reduced. However, since the outlet tube portion 30 is made of an elastic rubber plate, The total length is kept constant as it is stretched to a degree corresponding to the length reduction.

The flow rate regulator 40 has a function of regulating the flow rate of the passing air by changing the diameter of the inner flow path of the elastic band 41, and includes a resilient band 41; A gear portion 42 for reducing or increasing the diameter of the elastic band 41; And a handle 43 for transmitting rotational force to the gear portion 42.

A plurality of gear tooth grooves 41a are formed at one end of the elastic band 41. The gear portion 42 is formed by a worm gear 42a for inserting a gear tooth into the gear tooth groove 41a ); And a gear housing 42b that rotatably supports the worm gear 42a while receiving the worm gear 42a.

The overall configuration of the flow rate regulator 40 is similar to a worm gear type hose clamp.

The elastic band 41 has a function of changing the diameter of the inner passage while being rounded or loosely wound in a circumferential direction. The elastic band 41 is connected to the other end of the inlet tube 20 and the other end of the outlet tube 30, respectively.

A plurality of gear tooth grooves 41a are formed at one end of the elastic band 41. This is because the material is not completely cut and opened but only one side of the workpiece forming the gear tooth groove 41a is cut off, The power of God is formed.

3, the other end of the elastic band 41 is fixed to the gear housing 42b. One end of the elastic band 41 formed with the plurality of gear tooth grooves 41a is wound round, And is engaged with the worm gear 42a.

That is, the gear tooth of the worm gear 42a is inserted into the gear tooth groove 41a at one end of the elastic band 41 in the gear housing 42b and is rotated.

The worm gear 42a has a function of winding and releasing one end of the elastic band 41 by rotation and is rotated by a rotational force transmitted from the handle 43. [

At this time, a gear for increasing the number of revolutions is provided between the handle 43 and the worm gear 42a to amplify the rotation from the handle 43 so that the worm gear 42a rotates inside the elastic band 41 It is desirable to be able to adjust the diameter of the flow path more quickly.

The gear housing 42b functions to rotatably support the worm gear 42a while receiving the worm gear 42a.

According to another embodiment, gears and motors may be provided on the shaft connected to the worm gear 42a so that the diameter of the inner passage of the elastic band 41 is automatically reduced or increased.

The flow path inside the low-noise airflow control device 1 according to the present invention having the above-described configuration has a shape similar to that of the venturi tube as a whole.

As described above, in the low noise air amount adjusting device 1 according to the present invention, the damper blade for blocking the flow of the air passing through the flow path is not used, so that noise caused by the vortex generated by the damper blade is not generated .

The low noise air flow rate regulating device 1 according to the present invention may further include a grating portion 50 installed in a duct on the downstream side of the outlet portion 12.

By providing such a lattice portion 50, it is possible to improve the flow flow to prevent noise generation due to additional turbulence.

The low noise air volume adjusting device according to the present invention adjusts the sectional area of the duct inside the duct by using a rubber plate which is partially overlapped in the circumferential direction and whose diameter is reduced at one end to form a truncated cone- There is an advantage that generation of noise due to peeling off of the downstream of the damper blade is prevented.

Further, a lattice portion is provided at the rear of the damper to improve the flow of the fluid, thereby preventing noise from being generated due to additional turbulence.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, and that various modifications and changes may be made without departing from the spirit and scope of the invention. Accordingly, such modifications or changes should be construed as being included within the scope of the present invention.

1: Low noise air volume control
10:
11: inlet part 12: outlet part
20: inlet pipe 30: outlet pipe
40:
41: elastic band 41a: gear tooth groove
42: gear portion
42a: worm gear 42b: gear housing
43: Handle
50:

Claims (4)

An air flow rate regulator for regulating the air flow rate of air flowing through a duct,
A regulating device body defining an air-tight air passage and having an inlet portion and an outlet portion;
An inlet pipe portion having one end connected to the inlet portion;
An outlet tube portion having one end connected to the outlet portion; And
And a flow rate adjusting unit installed between the inflow tube and the outlet tube to adjust the diameter of the central channel,
The inflow tube portion and the outflow tube portion may be formed of elastic rubber plates that are partially wound in a circumferential direction by being rounded and reduced in diameter at the other end portions connected to the flow rate regulating portion so as to form a frustum- Features a low noise airflow regulator.
The method according to claim 1,
Wherein the flow-
Elastic bands whose both sides are connected to the other end of each of the inflow tube portion and the outflow tube portion;
A gear portion for reducing or increasing the diameter of the elastic band; And
And a handle for transmitting a rotational force to the gear portion.
3. The method of claim 2,
And a lattice portion installed in the duct on the downstream side of the outlet portion.
The method according to claim 2 or 3,
A plurality of gear tooth grooves are formed at one end of the elastic band,
The gear portion includes a worm gear in which a gear tooth is inserted into the gear tooth groove; And a gear housing rotatably supporting the worm gear while receiving the worm gear,
Wherein the worm gear is rotated by a rotational force transmitted from the handle.

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