KR101921916B1 - Automatic Constant Air Regulator for Air Conditioning - Google Patents

Abstract

The present invention relates to an automatic constant air volume regulator, and more particularly, to an automatic constant air volume regulator in which an air volume regulating blade rotated inside a cylindrical case (referring to a hollow tube case of the regulator) is hinged up and down according to a volume of air ventilated within a house to regulate the aperture ratio, and the aperture ratio with respect to the air volume is automatically maintained and regulated even when a pressure difference between houses (a difference of negative pressure with respect to positive pressure) occurs due to a floor difference (from a lower house to a higher house), wherein the constant air volume (referring to a uniform maintenance of an odor exhaust or ventilation efficiency) is constantly maintained, so that the ventilation performance is remarkably improved. To this end, according to an embodiment of the present invention, the automatic constant air volume regulator for air conditioning includes: a cylindrical case installed inside a duct for each house connected to a vertical standpipe; and an air volume regulating blade rotatably provided inside the cylindrical case, wherein the air volume regulating blade is hinged up and down according to the ventilated air volume to regulate the aperture ratio, in which, when the pressure inside the duct for each house is high, the air volume regulating blade of the air volume regulating unit ascends to reduce the aperture ratio, so that the constant air volume is maintained even the volume of air passing through the inside of the cylindrical case increases; and when the pressure is low, the air volume regulating blade descends downward to expand the aperture ratio, so that the air volume of the house due to the floor difference is automatically maintained and regulated at the constant air volume.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner,

The present invention relates to an automatic static air flow rate regulating device, and more particularly, to an automatic static air flow rate regulating device in which an air flow rate adjusting blade that rotates inside a cylindrical case (meaning a hollow tube case of a regulating device) rotates up and down depending on the amount of air to be ventilated in a household, This makes it possible to automatically maintain and adjust the opening ratio with respect to the air volume even if a pressure difference between the generations (difference in the formation of the negative pressure with respect to the positive pressure) due to the floor height difference (low to high generation) And the ventilation efficiency is maintained to be constant, so that the ventilation performance is greatly improved.

Generally, a duct for ventilation of indoor air is installed in a building such as a house or an office building.

These ducts have been forcibly ventilated using a fan to forcibly ventilate the air where the air pollution is relatively severe, such as a toilet or a kitchen.

However, in the case of forced ventilation, if the fan breaks down, ventilation becomes impossible, and ventilation becomes difficult until it is repaired.

In addition, as the fan is driven, power consumption is generated, which causes waste of energy.

To solve these problems, recently, a duct is installed by inducing ventilation using indoor and outdoor air pressure difference, and only one fan installed on the roof is used to ventilate indoor and outdoor.

However, since the air pressure difference between indoor and outdoor is constantly changing, the air volume is not constant, and excessive ventilation increases the indoor temperature in the summer season. In case of excessive ventilation during the winter season, There is a problem that is difficult to maintain.

Especially during the summer, when the air conditioner is operated, the indoor air temperature is lowered. If the ventilation is excessively performed, the cooling efficiency is lowered and the power is wasted. In the winter season, the indoor air temperature is raised as the heating operation is started. The raw material such as gas or oil is excessively wasted.

In order to solve the above-mentioned problem, in the prior art document 1 (registered trademark 10-1447058 constant flow rate regulating device), the flow rate regulating plate is rotated by the rotating shaft to adjust the amount of ventilation, and while restoring the constant flow rate regulating plate .

However, since the elastic force of the spring is kept constant, even if ventilation is performed indoors and outdoors, the difference in air pressure between the lower and upper floors of the high-rise building causes a problem in that the ventilation amount is not constant.

Prior Art 1 (Fixed Flow Control Apparatus of Patent No. 10-1447058)

SUMMARY OF THE INVENTION The present invention has been conceived to solve the problems described above, and it is an object of the present invention to provide an air conditioner which can control the ventilation amount by adjusting the size of the ventilation passage in correspondence with the air pressure difference, And an object of the present invention is to provide an air conditioner automatic air conditioner for air conditioner capable of maintaining a constant air flow only by a flow of air that is ventilated while a reference position is maintained by a spring.

The present invention can be installed in a duct installed in a building so that only the fan provided at the upper end of the vertical inlet can be used and the ventilation can be induced without using the separate fan provided for each room, The ventilation is performed by the air pressure difference generated in the vertical direction correlation, and when the ventilation is performed, the panel-shaped airflow control wing is rotated by the air flow to control the ventilation amount so that the ventilation can be performed with a constant airflow .

In order to achieve the above object, according to an embodiment of the present invention, there is provided an apparatus for controlling automatic air flow for air conditioning, comprising: a cylindrical case 100 installed inside a duct 20 for each household connected to a vertical inlet 10; ; And an air flow rate control blade (230) rotatably installed in the cylindrical case (100). The air flow rate control blade (230) is rotated up and down according to the amount of air to be ventilated to control the aperture ratio, When the internal pressure is high, the air flow rate adjusting blade 230 of the air flow rate adjusting unit 200 is lifted to reduce the opening ratio, so that the air velocity passing through the inside of the cylindrical case 100 increases, And when the pressure is low, the air flow rate regulating vane 230 is lowered downward to enlarge the aperture ratio, thereby automatically maintaining and adjusting the air flow rate of the generation due to the height difference.

Here, the air volume adjusting vane 230 is further provided with a tension spring 240 having a constant tension value even when the outlet side pressure increases, so that the air volume adjusting vane 230 has a repulsive force to keep the opening ratio constant.

When the cylindrical case 100 is fitted into the duct 20 of each generation along the outer circumference of the cylindrical case 100, the packing 100 is positioned between the cylindrical case 100 and the duct 20 for each generation, (110) is further provided.

An air flow rate adjustment range setting unit 300 (see FIG. 1) 300 is provided inside the cylindrical case 100 to set the air flow rate adjustment unit 200 up and down so that the air flow rate adjustment blade 230 can adjust the aperture ratio The air flow rate regulating unit 200 can be moved upward so that the air flow rate can be kept small and the air flow rate can be maintained. When the air flow rate adjusting unit 200 is moved downward, the air flow rate can be increased to maintain a large air flow rate.

When the instantaneous pressure during ventilation is lowered, the air volume adjusting vane 230 is lowered by the backward repulsive force of the tension spring 240 in the lower portion of the air volume adjusting vane 230 in the air volume adjusting unit 200, The shock absorber 250 is further provided with a shock absorber 250 for reducing a noise caused by shocks.

The automatic air conditioning system for air conditioning according to an embodiment of the present invention has the following effects.

First, in order to prevent the ventilation amount from being different due to the air pressure difference which is applied to each floor differently according to the height, the size of the ventilation passage can be adjusted to maintain the optimum ventilation state.

Second, ventilation can be achieved by the air pressure difference by installing the air conditioner in each space independent of the duct of the building, and ventilation can be induced in a constant air flow rate corresponding to the changing air pressure.

Thirdly, when the airflow control wing is rotated, a tension spring is provided to have a constant tension value even when the pressure on the outlet side (vertical mouth correlation side) of the cylindrical case increases. This is because the repulsive force .

Fourth, there is an effect that the airtightness can be maintained by the double-layered packing when it is fitted to the duct.

Fifth, there is an effect that it can be easily installed as it is inserted into a duct installed in a pre-existing building already installed.

Sixth, when the air pressure is lowered by the tension spring, the air volume control wing rotated upward by the high pressure has a repulsive force. If the instantaneous pressure is lowered, the air volume control wing reduces the phenomenon that the air volume control wing is closed rapidly due to the reverse repulsion force of the tension spring It is possible to reduce the noise due to the operation of the air flow control wing.

1 is an overall perspective view of an automatic air conditioning system for air conditioning according to an embodiment of the present invention.
2 is a perspective view showing only an air volume adjusting unit of the air conditioner for air conditioning according to an embodiment of the present invention.
3 is an exploded perspective view of an automatic air-conditioning system for air conditioning according to an embodiment of the present invention.
4 is a cross-sectional view illustrating a state in which the air volume adjusting unit of the air conditioner for air conditioning is operated according to an embodiment of the present invention.
5 is a front view showing an air flow rate adjustment range setting unit of the automatic air flow rate adjusting apparatus for air conditioning according to an embodiment of the present invention.
FIG. 6 is an operational state diagram showing a state in which the air flow rate adjustment range setting unit of the automatic air flow rate adjusting apparatus for air conditioning according to the embodiment of the present invention is adjusted
FIG. 7 is a cross-sectional view illustrating a state in which the automatic airflow control device for air conditioning according to the embodiment of the present invention is installed in a hood

[0001] The present invention relates to a constant air flow rate regulator for maintaining a constant air flow rate when ventilation is performed by vertical intercorrelation, and more particularly, to a constant air flow rate regulator which is automatically rotated by the air flow rate, The present invention relates to an automatic air flow control device for air conditioning that can be set by adjusting a ventilation passage adjusted to a constant air flow rate in order to minimize the influence of a difference in air pressure acting differently from floor to floor in the case of a high-rise building.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an automatic airflow control apparatus for air conditioning according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is an overall perspective view of an automatic airflow control apparatus for air conditioning according to an embodiment of the present invention, and FIG. 2 is a view showing only an airflow control unit of an automatic airflow adjusting apparatus for air conditioning according to an embodiment of the present invention FIG. 3 is an exploded perspective view of an automatic air-conditioning system for air conditioning according to an embodiment of the present invention.

1 to 3, the present invention mainly includes a cylindrical case 100, an air volume adjusting unit 200, and an air volume adjustment range setting unit 300.

The cylindrical case 100 is provided with a packing 110 extending along the outer circumference of the cylindrical case 100. The cylindrical case 100 is connected to the duct 20 of each generation, So that the ventilation can be performed only inside the cylindrical case 100.

At this time, the packing 110 may have a double structure in which the front and rear sides are parallel to each other, thereby enhancing the airtight effect.

The air volume adjusting unit 200 includes an adjusting unit frame 210 for fixing and supporting the entire air volume adjusting unit 200 in the cylindrical case 100 and a control unit 210 for controlling the size of the ventilation passage (220) which is adjustable so as to maintain a ventilation air volume which is differently applied to each floor of a building to a regular air volume, and a control unit which is rotatably installed on the control unit frame (210) And an air flow rate control blade 230 for maintaining the air flow rate control blade 230.

The control unit frame 210 is further provided with a rotation axis fixing hole 211 through which the air flow control blade 230 is rotatably connected and the air flow control blade 230 is provided with the rotation axis fixing hole 211 And a rotating shaft 231 installed to be fitted in the air flow control blade 230 to rotate and support the air flow control blade 230.

Accordingly, when the pressure inside the duct is high, the air flow rate control vane 230 is rotated upward and the air flow rate control vane 230 is rotated according to the amount of air to be ventilated, The air flow rate control blade 230 is rotated downward to increase the air flow rate to increase the air flow rate through the air flow rate controller 200 It is possible to maintain a constant air flow rate according to the setting.

A tension spring 240 is provided between the regulating unit frame 210 and the air volume adjusting vane 230 to support the air volume adjusting vane 230 by a tension.

The tension spring 240 is provided on the rear side of the rotating shaft 231. One end of the tension spring 240 is fixed to the air flow control blade 230 and the other end of the tension spring 240 is fixed to the control frame 210 side. So that the air volume adjusting blade 230 is supported by the elasticity in the regulating part frame 210.

Accordingly, even if the pressure on the outlet side increases, the air flow rate control blade 230 has a repulsive force that keeps the aperture ratio constant by the tension of the spring having a constant tension value, so that the air flow rate control blade 230 maintains the constant air flow, . ≪ / RTI >

The air volume adjusting unit 200 is further provided with a shock absorber 250 for absorbing impact when the air volume adjusting vane 230 is rotated by the air volume.

One end of the shock absorber 250 is connected to the lower portion of the air volume adjusting vane 230 and the other end of the shock absorber 250 is connected to the adjuster frame 210. The shock absorber 250 is connected to the external force It is preferable to provide a so-

The shock absorber 250 has a partial force by the tension spring 240 when the air flow control blade 230 is rotated upward by the high pressure. When the pressure is instantaneously lowered, The buffering action that reduces the phenomenon that the storm control blade 230 suddenly closes instantly is reduced.

Accordingly, it is possible to prevent the shock absorber from being damaged due to the shock due to the counter-repulsive force of the tension spring 240, and to prevent noise caused by shocks during the rotation.

The entire air volume adjusting part 200 is moved up and down on both sides of the adjusting part frame 210 so as to catch the air volume adjusting range setting part 300 so that the space between the cylindrical case 100 and the air volume adjusting vane 230 The air flow rate adjusting protrusions 212 can adjust the intervals of the ventilation passages of the air conditioner.

The air flow rate adjustment range setting unit 300 includes a range fixing hole 310 formed to penetrate the inside of the regulating unit frame 210 to fix the air flow rate adjustment range, A range fixing bolt 320 symmetrically provided on both sides of the range fixing hole 310 to guide the up and down movement of the range fixing bolt 320, And a range adjusting groove 340 capable of adjusting the size of the ventilation passage in a multistage manner with air flow rate adjusting protrusions 212 provided on both sides of the adjusting section frame 210.

The range adjusting groove 340 has a plurality of grooves spaced apart from each other by a predetermined distance and the air volume adjusting portion 200 is moved up and down as the air volume adjusting protrusion 212 is engaged with the range adjusting groove 340, The size of the ventilation passage can be adjusted so that the ventilation can be maintained at a constant air flow rate corresponding to the amount of ventilation that is differently generated by the air pressure difference.

In this case, a range adjusting member 220 (see FIG. 2) which is integrally provided in front of the adjusting section frame 210 and can guide the range adjusting guide bar 330 to move up and down, ).

The range regulating member 220 is elongated vertically at a position corresponding to the range fixing hole 310 so that the entire air flow regulating unit 200 can be fixed to a desired position while being moved up and down. The airflow controller 200 is symmetrically provided on both sides of the guide hole 221 and the bolt guide hole 221 so that the airflow controller 200 is vertically moved up and down while being engaged with the range adjusting guide bar 330, And guide grooves 222 for guiding.

Accordingly, it is possible to maintain the air flow rate constantly ventilating regardless of the number of the air passages while adjusting the size of the ventilation passage between the air volume control vane 230 and the cylindrical case 100.

4 is a cross-sectional view illustrating a state in which the air volume adjusting unit of the air conditioner for air conditioning is operated according to an embodiment of the present invention.

Referring to FIG. 4, the air volume adjusting unit 200 is ventilated while the room air is being ventilated. When the air volume is small, the air volume adjusting vane 230 is rotated to descend downward to allow sufficient air to escape do.

At this time, the air volume adjusting vane 230 is supported by the tension spring 230 and is not completely sagged downward due to its own weight, and is kept in a slightly tilted state.

When the amount of airflow increases, the airflow control blade 230 rises due to the airflow, thereby narrowing the passage through which the air passes, thereby reducing the amount of air to be vented at the same time, thereby inducing the airflow to be constantly ventilated at all times.

Accordingly, the air volume control vane 230 is rotated according to the air volume to narrow or enlarge the size of the ventilation passageway, so that ventilation can be maintained at a constant positive air volume at all times.

FIG. 5 is a front view illustrating an air flow adjustment range setting unit of the automatic air flow adjusting apparatus for air conditioning according to an embodiment of the present invention. FIG. And the adjustment range setting section is adjusted.

5 and 6, the air volume adjustment range setting unit 300 is provided to prevent the air volume from being irregularly changed due to a difference in air pressure acting on each layer. First, the range fixing bolt 320 is inserted into the range fixing hole 310, the entire air volume control unit 200 is moved upward or downward by using the range adjusting member 220 to set the desired angle.

In this case, when the range adjusting member 220 is vertically moved along the bolt guide holes 221 which are formed as grooves extending in the vertical direction, the guide grooves 222 provided on both sides of the bolt guide holes 221 are spaced apart from the air flow rate adjusting range And is set to a position to be adjusted by moving upward or downward in the vertical direction while moving it upward or downward while being engaged with the range adjustment guide bar 330 provided in the setting unit 300.

In addition, the air flow rate adjusting protrusion 212 provided on the adjusting frame 210 is fixed to one of the plurality of grooves formed at regular intervals of the range adjusting groove 340, 340 so that the air volume adjusting vane 230 is horizontal.

Thereafter, when the adjustment is completed, the range fixing bolts 320 are tightened again, so that the size of the ventilation passage can be set and maintained.

Accordingly, the ventilation passage can be controlled so that the ventilation can be performed with a proper air volume corresponding to the sound pressure acting differently depending on the number of the high and low layers, so that the ventilation can be performed while maintaining the constant air volume regardless of the number of the layers.

7 is a cross-sectional view illustrating a state in which an automatic airflow control device for air conditioning according to an embodiment of the present invention is installed in a hood.

Referring to FIG. 7, the present invention is coupled to the interior of each duct or each duct 20 connected to each floor or space in the vertical inlet 10, which is installed at the time of construction in the building, So that it can be installed simply by fitting it into the duct 20 for each generation.

Accordingly, it is possible to easily install the air conditioner in a new building. In addition, it is possible to easily install the fan by removing only the fan and installing the present invention in the duct 20 of the old building, It can be easily applied to old buildings as well as new buildings.

According to the present invention as described above, the ventilation is performed by the fan provided on the upper part of the vertical inlet port, which is connected to the duct provided to ventilate the space in the building having a plurality of spaces, The ventilation can be performed and the air volume to be ventilated can be kept constant according to the difference in sound pressure between the low and high layers.

10: Vertical Correlation 20: Duct by Generation
100: cylindrical case 110: packing
200: air volume regulator 210: regulating subframe
211: Pivot shaft fixing hole 212: Air volume adjusting projection
220: range adjusting member 221: bolt guide hole
222: guide groove 230: air flow control blade
231: Pivot shaft 240: Tension spring
250: shock absorber 300: air flow rate adjustment range setting unit
310: Range fixing hole 320: Range fixing bolt
330: Range adjusting guide bar 340: Range adjusting groove

Claims (5)

A cylindrical case 100 provided inside the duct 20 for each generation connected to the vertical inlet 10,
An air volume adjusting unit 200 installed in the cylindrical case 100 to maintain a volume of the air to be ventilated according to the amount of air to be ventilated at a normal air volume and an air volume control unit 200 for controlling the size of the ventilation path inside the cylindrical case 100 And a setting unit (300)
The air volume adjusting unit 200 includes an adjusting unit frame 210 for fixing and supporting the entire air volume adjusting unit 200 in the cylindrical case 100 and a control unit 210 for controlling the air quantity adjusting unit 200, The air conditioner according to any one of claims 1 to 3, wherein the air conditioner comprises: a range adjusting member (220) adjustable in size so as to maintain a ventilation air volume which is differently applied to each floor of the building, (230) that controls the airflow rate adjusting blade (230) in accordance with the amount of air to be ventilated to maintain the airflow rate, and controls the opening ratio while controlling the airflow rate when the pressure inside the duct (20) The air flow rate control blade 230 is lifted to reduce the aperture ratio so that the air flow passing through the inside of the cylindrical case 100 is increased and the air flow rate is maintained. The air flow rate control blade 230 is lowered to increase the aperture ratio so that the air flow rate of the generation due to the height difference difference is automatically maintained and adjusted to the normal air flow rate,
The air flow rate adjustment range setting unit 300 includes a range fixing hole 310 formed to penetrate the inside of the regulating unit frame 210 to fix the air flow rate adjustment range, A range fixing bolt 320 symmetrically provided on both sides of the range fixing hole 310 to guide the up and down movement of the range fixing bolt 320, And a range adjusting groove (340) capable of adjusting the size of the ventilation passage in multiple stages while the air flow adjusting protrusions (212) provided on both sides of the adjusting section frame (210) are engaged,
The range adjusting groove 340 has a plurality of grooves spaced apart from each other by a predetermined distance and the air volume adjusting portion 200 is moved up and down as the air volume adjusting protrusion 212 is engaged with the range adjusting groove 340, The size of the ventilation passage can be adjusted so that the ventilation can be maintained at a constant air flow rate corresponding to the ventilation amount generated differently by the air pressure difference,
The range regulating member 220 is elongated vertically at a position corresponding to the range fixing hole 310 so that the entire air flow regulating unit 200 can be fixed to a desired position while being moved up and down. The airflow controller 200 is symmetrically provided on both sides of the guide hole 221 and the bolt guide hole 221 so that the airflow controller 200 is vertically moved up and down while being engaged with the range adjusting guide bar 330, And guiding groove (222)
The air flow rate adjusting blade 230 is further provided with a tension spring 240 having a constant tension value even when the outlet side pressure increases, so that the air flow rate adjusting blade 230 has a repulsive force to keep the opening ratio constant,
The tubular case 100 is provided with a packing (not shown) which is located between the cylindrical case 100 and the duct 20 for each generation when the tubular case 100 is inserted into the duct 20, 110,
An air volume adjustment range setting unit 300 is provided inside the cylindrical case 100 so that the air volume adjusting unit 200 can be lifted up and down so that the air volume adjusting wing 230 can set the air volume adjusting range When the air flow rate control unit 200 is further moved upward, the air flow rate can be reduced and the air flow rate can be maintained. If the air flow rate control unit 200 is moved downward, the air flow rate can be increased,
When the instantaneous pressure during ventilation is lowered in the air volume adjusting unit 200 in the lower portion of the air volume adjusting vane 230, the air volume adjusting vane 230 is rotated by the backward repulsion force of the tension spring 240, And a shock absorber (250) for reducing sudden closing phenomenon is further provided so that noise can be reduced while absorbing impact.
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