KR20160138764A - Air blower with damper - Google Patents

Abstract

The present invention relates to a damper integrated-air blower comprising a housing, a fan motor, an air blowing fan, a damper motor and a damper plate. The housing has an inducing opening and a discharge opening formed thereon. The fan motor is installed on one side of the inducing opening. The air flowing fan is coupled to the fan motor through a rotary shaft to be installed on the interior of the housing and is rotated by power of the fan motor to induce air through the inducing opening and discharge the air through the discharge opening. The damper motor is installed on one side of the discharge opening. The damper plate is installed on an upper surface of the interior of the discharge opening in such a manner as to be coupled to the damper motor through a rotary shaft and is rotated by power of the damper motor to open and close the discharge opening. The damper plate is rotated upward in an external direction of the discharge opening to open the discharge opening and is rotated downward in an internal direction of the discharge opening to close the discharge opening. According to the present invention, a headwind can be effectively blocked, and maintenance can be easily allowed, and damage to a motor or the like can be prevented, thereby extending a service period.

Description

[0001] The present invention relates to an air blower with a damper,

The present invention relates to a damper-integrated type blower, and more particularly, to a damper-integrated blower which can effectively block the backward wind, which is easy to maintain, and which prevents damage to the motor and prolongs service life.

Generally, the building is provided with a ventilation device for ventilating the air in the enclosed room by discharging the contaminated air from the room to the outside and introducing fresh air outdoors to the room. In such a ventilation device, The total heat exchange type ventilation device including the total heat exchange element is widely applied so that the temperature of the room can be maintained while minimizing the temperature.

However, since the conventional ventilator includes a separate damper facility for shutting off the indoor and outdoor units when the ventilator is not operated, it is difficult to manufacture the compact and slip type due to increase in the manufacturing cost and increase in volume of the ventilator There was a problem.

In order to solve such a problem, a damper integrated type blower apparatus configured to open and close a discharge port by installing a vane in a discharge port of a blower has been proposed through a prior art (Registration No. 10-1318139).

However, in the broaching apparatus according to the prior art, the vane provided inside the discharge port is rotated inward in the discharge port to open the discharge port and vertically rotate in the outward direction to close the discharge port.

First, in the case where a reverse air is generated in a state where the vane is closed with the discharge port, there is a problem in that it is difficult to secure the effect of blocking the complete backwash due to the lifting of the vane due to the reverse direction improving wind of the vane.

In addition, when the air is discharged by the operation of the blowing fan, since the end of the opened vane resists against the discharged air, the flow of the air is impeded and noise may be generated due to the flow of the vane. .

In addition, maintenance of maintenance of the damper is not easy because the housing must be removed in order to remove the foreign material on the vane installation structure, because foreign matter is adhered to the end of the vane.

In addition, even if the damper motor is unexpectedly broken, the ventilation fan continues to operate, but the vane remains in the closed state because of the structure, so that no blowing can be accomplished at all, and the fan motor may be damaged due to an increase in the load of the fan motor .

In addition, interference between the vane and the blower fan may occur due to the structure of the vane. Therefore, the discharge port must be designed to be long in order to prevent such interference.

Patent No. 10-1318139: Damper integrated blower device with improved airtightness (Announcement date: October 15, 2013)

SUMMARY OF THE INVENTION It is an object of the present invention to improve a rotating structure of a damper plate to completely block a reverse wind and to prevent a noise from occurring and a failure of a fan motor, , And a damper-integrated blower which can be easily and stably maintained for a long time.

Another object of the present invention is to provide a damper-integrated blower capable of improving the operational convenience and reducing the consumption of power consumption by improving the damper motor to be operable through the driving power of the fan motor.

In order to achieve the above object, according to the present invention,

A fan motor installed on the other side of the intake port and connected to the fan motor through a rotary shaft to be installed in the housing and rotated by the power of the fan motor to suck air into the intake port and discharge it to the discharge port A damper motor provided on one side of the discharge port and connected to the damper motor through a rotating shaft to be installed on the upper surface of the discharge port and being rotated by the power of the damper motor to open and close the discharge port, And a damper plate which is rotated upward to open the discharge port and turn downward in the inward direction of the discharge port to close the discharge port.

Here, when the damper plate is rotated upward to open the discharge port, the end of the damper plate may protrude to the outside of the discharge port.

In addition, a hermetic protrusion is formed on the lower surface of the discharge port so that the end of the damper plate is closely contacted. The damper plate is eccentrically inwardly positioned with respect to the hermetic protrusion so that the end of the damper plate is inclined at a predetermined angle And can be brought into close contact with the airtight protrusion.

The fan motor may further include a power supply unit that supplies driving power to the fan motor, and a power charging unit that is charged by the driving power supply and supplies the operating power to the damper motor.

According to the damper-integrated blower of the present invention,

Due to the rotating structure of the damper plate, it is possible to block the reverse wind completely because there is no possibility of lifting off when the reverse wind is generated.

In addition, since the damper plate is positioned in the flow direction of the air to be discharged, the air discharge damper plate does not flow so that no noise is generated, and the airflow is not hindered,

In addition, since the end of the damper plate protrudes to the outside of the discharge port, foreign matter can be removed immediately without having to separate the housing, so that maintenance and repair of the damper can be facilitated.

In addition, even if the damper motor fails unexpectedly, the damper plate is opened by the discharge air due to the rotating structure of the damper plate, thereby enabling blowing of the damper motor. In addition, the load of the fan motor is prevented from rising, It is effective.

Further, since there is no problem of interference with the blowing fan due to the rotating structure of the damper plate, the discharge port can be easily designed without any particular limitation.

In addition, since the damper motor is operated by charging the fan motor driving power, the configuration for the entire power supply and control can be simplified, and consumption of power consumption can be reduced.

It is to be noted that, in addition to the effect specifically described above, a specific effect that can be easily derived and expected from the characteristic configuration of the present invention can also be included in the effect of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a diagram illustrating an overall configuration of a damper integrated type blower according to the present invention,
2 is a view illustrating an interior of a blower and a damper plate portion,
3 is a view illustrating an operation of the damper plate and an air flow during blowing,
FIG. 4 is a view illustrating the operation of the damper plate and the blocking of the reverse wind when blowing air,
5 is a block diagram showing an example of the power supply of the fan motor and the damper motor.

Hereinafter, a damper-integrated blower according to the present invention will be described in detail with reference to the accompanying drawings.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention to those skilled in the art, It should be noted that the present invention can be reduced or exaggerated for the sake of simplicity.

It is also to be understood that in the description of the embodiments, if an element is described as being "formed", "installed", or "coupled to" another element, it is directly formed, installed, But there may be other components in between.

In addition, when describing the embodiments, in the case where it is judged that the technical characteristics of the present invention may be unnecessarily blurred as a matter of fact obviously known to those skilled in the art, such as known functions and configurations known in the art, Description thereof will be omitted.

1 to 5 illustrate a damper-integrated blower according to an embodiment of the present invention. As illustrated in the drawings, a damper-integrated blower according to an embodiment of the present invention (hereinafter referred to as a "blower" A fan motor 20, a blowing fan 30, a damper motor 40, and a damper plate 50. The damper plate 50 includes a housing 10, a fan motor 20,

The housing 10 is formed with an air inlet 11 through which air is sucked in and a discharge port 12 through which sucked air is discharged to the outside.

The fan motor 20 is installed in the housing 10 on the other side of the intake port 11. When the power is applied, the fan motor 20 provides rotational power to the blowing fan 30 while being driven.

As the fan motor 20, a BLDC (Brushless DC Motor) may be used.

The air blowing fan 30 is installed in the inner housing 10 of the air inlet 11 and coupled to the fan motor 20 through a rotary shaft 31.

The blowing fan 30 is rotated by the rotational power of the fan motor 20 to perform a blowing function of sucking air into the inlet 11 and discharging the air to the outlet 12. [

The housing 10, the fan motor 20, and the blowing fan 30 have the structure disclosed in the above-mentioned prior art documents, and are not related to the features of the present invention, and thus will not be described in detail.

The damper motor 40 is installed on one side of the discharge port 12 and provides a turning force to the damper plate 50 when the power is applied.

As the damper motor 40, a stepping motor which can easily control the rotation angle can be used.

The damper plate 50 is installed on the upper surface of the discharge port 12 while being coupled to the damper motor 40 through the rotary shaft 51.

The damper plate 50 is rotated by the rotational force of the damper motor 40 to thereby open and close the discharge port 12. That is, when the blowing fan 30 is rotationally operated by the fan motor 20, The discharge port 12 is opened to allow the air blowing fan A to be opened and the discharge port 12 is closed so as to block the reverse air B when the air blowing fan 30 is not operated.

The end portion 52 of the damper plate 50 is closed when the damper plate 50 is closed so that the damper plate 50 can be hermetically closed when the damper plate 50 closes the discharge port 12, (13) is protruded.

The damper plate 50 which opens and closes the discharge port 12 in this way is rotated in the upward direction (clockwise direction in FIG. 2) in the outward direction of the discharge port 12 to open the discharge port 12, (Counterclockwise in Fig. 2) in the direction of the arrow A and closes the discharge port 12.

2 to 3, when the damper plate 50 is rotated upwards so as to open the discharge port 12 and is in close contact with the upper surface of the discharge port 12, the end portion 52 of the damper plate 50 contacts the discharge port 12, As shown in FIG.

When the end portion 52 of the damper plate 50 protrudes to the outside of the discharge port 12 and the foreign substance or the like adheres to the end portion 52 in the discharge port 12, The foreign matter can be easily removed from the outside of the discharge port 12 without needing to separate and remove it, so that the maintenance becomes very convenient.

However, if the damper plate 50 is excessively protruded to the outside of the discharge port 12, an interference problem may occur with other components of the ventilator. Accordingly, as shown in FIG. 2, The damper plate 50 can be installed such that the damper plate 50 is eccentrically positioned inside the position of the hermetic protrusion 13 so that the damper plate 50 is slid at a predetermined angle, So that the discharge port 12 is closed.

When the pivot shaft 51 is eccentrically inward and the damper plate 50 is inclinedly closed, only a part of the end portion 52 of the damper plate 50 is formed in the discharge port 12, So that the overall structure of the blower can be compactly formed, while interference with other components can be prevented.

The fan motor 20 and the damper motor 40, which generate power in the present invention, are not configured as independent power supply lines as in the prior art, but are preferably configured to receive power through a single power supply line Do.

5, the blower of the present invention may further include a power supply unit 60 and a power charging unit 70. [

The power supply unit 60 functions to supply driving power to the fan motor 20 and is implemented as a printed circuit board (PCB) installed in the fan motor 20.

The power charging unit 70 functions to charge the power source by the driving power source when the driving power is applied and supply the charged power to the damper motor 40, And may be implemented as a condenser on a substrate.

Since the damper motor 40 requires an operating power source (for example, DC 12V) that is relatively smaller than the driving power source of the fan motor 20, in the present invention, the operating power source of the damper motor 40 is not separately supplied, The driving power source is charged through the charging unit 70 and the charging power source is used as the operating power source of the damper motor 40. This structure simplifies the structure and reduces power consumption for power generation .

The operation of the blower according to the present invention having the above-described configuration will be briefly described below.

First, in the air blowing mode, the power supply unit 60 supplies driving power to drive the fan motor 20, whereby the air blowing fan 30 is rotationally operated to suck and discharge air.

At the same time, in the power charging unit 70, the operating power is supplied to the damper motor 40 so that the damper motor 40 is operated. As a result, the damper plate 50 is moved in the outward direction of the discharge port 12 And the discharge port 12 is opened while rotating upward.

The end portion 52 of the damper plate 50 is connected to the blower A of the air discharged through the discharge port 12 when the discharge port 12 is opened and the blower fan 30 is rotationally operated, The damper plate 50 is prevented from flowing, and noise due to the flow is not generated. At the same time, the damper plate 50 does not hinder the air flow, The air can be blown.

Next, when the mode is switched to the non-ventilation mode, the supply of the driving power to the power supply unit 60 is interrupted, and the operation of the fan motor 20 and the ventilation fan 30 is stopped.

4, the damper plate 50 is rotated downward in the inward direction of the discharge port 12 so that the end portion 52 (see FIG. 4) Is hung on the hermetic protrusion 13 to close the discharge port 12. As shown in Fig.

The damper plate 50 closes the discharge port 12 to block the inflow of the backward flow B by the blower. Particularly in the present invention, the damper plate 50 can be opened by the reverse wind B (B), the lifting effect by the backward wind (B) does not occur at all and the stronger the backward wind (B) is, the more the strength of the damper plate The airtightness is improved while the end portion 52 is more closely attached to the airtight protrusion 13, so that a complete backwash effect can be exhibited.

In the meantime, the damper motor 40 may be unexpectedly broken in the above blowing process, and the blower fan 30 may be operated in a state where the damper motor 40 is broken or the damper plate 50 is closed.

In this case, in the prior art, the discharge port 12 is kept closed and blowing is not performed at all. When the blowing fan 30 is continuously operated in a state where the discharge port 12 is closed, When the damper plate 50 is closed and the air is blown by the operation of the blowing fan 30 even if the damper plate 50 is closed, the damper plate 50 50 can be naturally rotated and opened to be opened so that air can be blown even if the damper motor 40 is unexpectedly broken and the load of the fan motor 20 is prevented from rising, ) Can be safely operated without risk of failure.

As described above, the blower according to the present invention improves the pivoting structure of the damper plate to completely block the reverse wind, improves the blowing efficiency and minimizes noise generation, and even if the damper motor fails unexpectedly It is possible to secure the safety of the apparatus.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the technical scope of the invention is not limited to the disclosed exemplary embodiments and drawings, It will be understood that the modified equivalent structure is not limited to the scope of the present invention.

The main parts of the accompanying drawings are as follows.
10: housing 11: intake port
12: Discharge port 13:
20: fan motor 30: blowing fan
40: damper motor 50: damper plate
60: power supply unit 70:

Claims (4)

A housing (10) having an intake port (11) and a discharge port (12);
A fan motor 20 installed on the other side of the intake port 11;
The fan motor 20 is connected to the fan motor 20 through a rotary shaft 31 and is installed inside the housing 10 and is rotated by the power of the fan motor 20 to suck air into the inlet 11 and discharge the air to the outlet 12 (30);
A damper motor 40 installed at one side of the discharge port 12;
The damper motor 40 is connected to the damper motor 40 via a rotary shaft 51 and is installed on the upper surface of the discharge port 12 and is rotated by the power of the damper motor 40 to thereby open and close the discharge port 12, And a damper plate (50) which is turned upward in the outward direction to open the discharge port (12) and turn downward in the direction of the discharge port (12) to close the discharge port (12). The method according to claim 1,
Wherein an end portion (52) of the damper plate (50) protrudes to the outside of the discharge port (12) when the damper plate (50) is rotated upward to open the discharge port (12). 3. The method of claim 2,
A hermetic protrusion 13 is formed on an inner lower surface of the discharge port 12 to closely contact the end 52 of the damper plate 50. The damper plate 50 has a hermetic protrusion 13, And the end portion (52) is brought into close contact with the airtight protrusion (13) at a predetermined angle when the discharge port (12) is closed. 4. The method according to any one of claims 1 to 3,
A power supply unit 60 for supplying driving power to the fan motor 20;
And a power charging unit (70) charged by the driving power source and supplying operating power to the damper motor (40).

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