KR101932513B1 - Ventilator for indoor air of structure and ventilating apparatus comprising the same - Google Patents

Abstract

The present invention relates to an air conditioner having a structure capable of improving operating efficiency by automatically selecting an area having a low pressure around a building and discharging air in the interior space, . According to the present invention, there is provided an air conditioner comprising: an opening / closing member that opens and closes an outlet port to selectively open an outlet port through which air sucked from the inlet port is discharged; a plurality of pressure sensors each provided outside the plurality of outlet ports, And a controller for controlling the driving of the opening and closing member driving means so as to open the discharge port set to correspond to the relatively low pressure sensor among the plurality of pressure sensors by comparing the pressure values measured by the sensors with each other do.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a ventilator for indoor air discharge of a building,

The present invention relates to a ventilator for indoor air discharge of a building and a ventilating apparatus including the ventilator. More particularly, the present invention relates to a ventilating apparatus for ventilating a building by detecting wind pressure in a plurality of areas of an outer wall surface of a building, And a ventilating apparatus including the ventilator.

The ventilator is used for discharging indoor air to the outside. The ventilator is composed of an electric motor having a rotary shaft, a blower fan rotating in engagement with the rotary shaft of the electric motor, and a housing surrounding the electric motor and the blower fan.

Such a ventilator is generally installed in a toilet or a basement of a building, and is used for exhausting the odor and moisture inside.

1 is an example of such a ventilator as disclosed in Korean Utility Model Publication No. 1999-005487.

1, an air blowing fan 3 is installed in a fan motor 4 mounted in a housing 2 and a fan motor 4 rotates the blowing fan 3 to rotate the indoor space 1 Is sucked through the inlet (6) and discharged to the discharge port (5). Such a ventilator may be installed on the ceiling of a toilet or the like to ventilate the indoor space 1.

However, even if the fan motor 4 rotates the blowing fan 3 when a strong wind pressure acts on the discharge port for discharging the indoor air when the fan is installed in the indoor space of the building such as the toilet in the prior art, The air can not be easily discharged by the wind pressure and ventilation of the indoor space can not be smoothly performed.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to improve the ventilation efficiency by selecting an area having a low pressure around the building and automatically changing the discharge position And a ventilating apparatus having the ventilator.

The ventilating apparatus for indoor air discharge of a building according to the present invention comprises a ventilator installed in a ceiling of an indoor space of a building and a plurality of ventilators installed at different positions on the outer wall surface of the ventilator to discharge air of the ventilator into the atmosphere And a ventilation fan installed in the housing and sucking air through the suction port, wherein the ventilation fan is installed in different positions in the housing, A plurality of outlets connected to the plurality of exhaust units by respective ducts and a fan motor for rotating the blowing fan, wherein a plurality of outlets, And the outlet port is opened and closed to selectively open the outlet port through which the air sucked from the inlet port is discharged Closing member driving means for driving the opening and closing member so that the opening and closing member opens and closes the discharge port, a plurality of pressure sensors each provided for the plurality of exhaust portions for measuring the wind pressure, A controller for controlling the driving of the opening and closing member driving means such that the outlet is set to correspond to a relatively low pressure sensor among a plurality of the pressure sensors by receiving pressure values measured by the sensors, And a control unit.

Further, the present invention is characterized in that a plurality of the discharge ports are respectively installed on the side surface of the housing with the blowing fan as a center, and the opening and closing member surrounds the blowing fan and is disposed between the blowing fan and the plurality of discharge ports And a communication hole is formed and rotated around the blowing fan so that the communication hole connects the blowing fan and the discharge port to selectively open the discharge port, and the opening / closing member driving means drives the opening / And the other is a motor that rotates around the center.

In the present invention, the exhaust portion is provided on the front and rear surfaces of the building, the plurality of exhaust ports are connected to the exhaust port on the front surface and the exhaust port on the rear surface, respectively, and the blowing fan is a sirocco fan, Wherein the intake port is installed downward and the housing is provided with an annular supporting member for supporting the opening and closing member from below, the opening and closing member includes an annular rail provided on the upper portion of the housing, And the opening and closing member driving means is provided so that a pinion gear provided on the motor shaft is fitted to a rack gear provided on the opening and closing member to rotate the motor shaft The opening / closing member rotates around the blowing fan.

According to another aspect of the present invention, there is provided a ventilating apparatus for indoor air discharge of a building, comprising: a ventilator installed at a ceiling of an indoor space of a building; and a ventilator installed at different positions on the outer wall surface of the ventilator, And a ventilating fan installed in the housing and adapted to suck air through the suction port by rotating the ventilating fan, wherein the ventilating fan comprises a plurality of ventilating parts for discharging air into the housing, wherein the ventilating fan comprises a housing having a suction port for sucking air in the indoor space, A plurality of exhaust ports which are respectively installed at different positions and through which the air sucked by the blowing fan is discharged and which are respectively connected to the plurality of exhaust portions by respective ducts and a fan motor for rotating the blowing fan, And the air outlet port of the air outlet port, An opening and closing member drive means for driving the opening and closing member so that the opening and closing member opens and closes the outlet, a plurality of wind speed sensors provided respectively in the plurality of exhaust portions, and a plurality of wind speed sensors And a controller for controlling the driving of the opening and closing member driving means so that the discharge port set to correspond to the wind speed sensor having a relatively high wind speed among the plurality of the wind speed sensors is opened by comparing the measured wind speed values with each other .

According to another aspect of the present invention, there is provided a ventilator comprising: a housing having a suction port for sucking air in an indoor space; a blowing fan installed in the housing for sucking air through the suction port by rotating the suction port; A ventilator for an indoor space, comprising: a discharge port through which air sucked by the fan is discharged; and a fan motor which rotates the ventilating fan, wherein a plurality of the discharge ports are installed at different positions in the housing, An opening / closing member for opening / closing the outlet so as to selectively open the outlet for discharging the air sucked in from the inlet; an opening / closing member driving means for driving the opening / closing member to open / close the outlet, A plurality of pressure sensors provided to measure air pressure at different positions on the outside, And a controller for controlling the opening and closing member driving means such that the outlet is set to correspond to a relatively low pressure sensor among the plurality of pressure sensors by receiving the pressure values measured by the plurality of pressure sensors, And a controller for controlling the driving.

Further, the ventilator of the indoor space according to the present invention is characterized in that a plurality of the discharge ports are respectively installed on the side of the housing with the blowing fan as a center, the opening and closing member surrounds the blowing fan, Wherein the communication hole communicates the blowing fan with the discharge port to selectively open the discharge port by rotating the discharge port around the blowing fan, And the motor is a motor that rotates the opening and closing member around the blowing fan.

Further, the ventilator of the indoor space according to the present invention has a plurality of the above-mentioned outlet ports, and the ventilating fan is a sirocco fan, and the inlet port is directed downward, and the opening / Wherein the opening and closing member is fitted to an annular rail provided on the upper portion of the housing and an annular rail provided on the receiving member so that rotational movement around the blowing fan is guided The pinion gear provided on the motor shaft is mounted to the rack gear provided on the opening and closing member so that the opening and closing member rotates about the blowing fan by the rotation of the motor shaft, .

The ventilator for indoor air discharge of a building of the present invention according to the present invention has a plurality of outlets and a lower air outlet or a relatively lower outlet to select the outlet of the inhaled air It is possible to easily discharge the air and significantly improve the operating efficiency and ventilation efficiency of the ventilator.

1 is a cross-sectional view showing a structure of a conventional ventilator for a toilet
FIG. 2 is an explanatory view showing a structure in which a ventilation system according to an embodiment of the present invention is installed in a multi-
3 is an exploded perspective view illustrating the configuration of the ventilator according to the embodiment of the present invention.
FIG. 4 is a perspective view of a fan according to an embodiment of the present invention,
FIG. 5 is a perspective view showing a cut-away perspective view showing a configuration cut in a vertical direction in order to explain the configuration of the ventilator according to the embodiment of the present invention.
6 is a perspective view illustrating the configuration of the opening and closing member and the opening and closing member driving means in the ventilator according to the embodiment of the present invention.
7 is a structural explanatory view showing a combined state of the opening and closing member and the opening and closing member driving means in the ventilator according to the embodiment of the present invention
8 is an explanatory diagram illustrating an open state of a backflow prevention damper by blowing air during operation of the ventilator according to the embodiment of the present invention
9 is a structural explanatory view showing a configuration in which a pressure sensor is installed in front of an exhaust port in a ventilator according to another embodiment of the present invention

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

Referring to FIG. 2, the ventilating apparatus for indoor air discharge of a building according to the present invention includes a ventilator 20 installed in a ceiling of an indoor space of a building, and a ventilator 20 installed at different positions on the outer wall surface of the ventilator, And a plurality of exhaust portions 15 and 16 for exhausting the air of the air conditioner 20 to the atmosphere.

The ventilator (20) is installed on the ceiling of the indoor space such as the toilet (12). Accordingly, the suction port 31 is provided at the lower portion to suck air from the lower side.

The exhaust portions 15 and 16 are portions for exhausting the air sucked by the ventilator 20 to the atmosphere. The exhaust ports 15 and 16 of the exhaust unit 15 and the exhaust ports 51 and 53 of the fan 20 are connected by ducts 15a and 16a so that the air sucked by the fan 20 flows through the ducts 15a and 16a Can be discharged from the bases 15,16. A pressure sensor capable of measuring the wind pressure of the outside is installed inside the outer end portion of the exhaust portions 15 and 16, and the exhaust portions 15 and 16 are installed on the wall of the building, To measure the wind pressure. The wind pressure in the atmospheric region where the exhaust port is located is measured according to the measured value of the pressure sensor and the wind pressure is high in a region where the wind wind directly acts on the exhaust portions 15 and 16.

The ventilator 20 to be described later is controlled so as to discharge the sucked air through the exhaust part 15 or 16 provided in the low wind pressure area among the various exhaust parts 15 and 16 installed on the wall surface of the building. As shown in FIG. 2, it is most preferable that the exhaust units 15 and 16 are installed on the front and rear surfaces of the building, respectively. In this case, two outlets 51 and 53 are provided at different positions in the housing 30 of the ventilator 20, and ducts 15a and 16a are provided in the ventilating opening 15 and the ventilating opening 16, respectively, Lt; / RTI >

3 to 4, the ventilator 20 includes a housing 30 having a suction port 31 for sucking air in an indoor space, and a fan 30 installed in the housing 30 for rotating the fan 30 through the suction port 31 And a plurality of exhaust units 15 and 16 which are respectively installed at different positions in the housing 30 to discharge the air sucked by the blowing fan 40, A plurality of outlets 51 and 53 connected by ducts 15a and 16a of the fan motor 40 and a fan motor 45 for rotating the blowing fan 40. [

The housing 30 has a suction port 31 directed downward and can be mounted on a ceiling of a toilet or the like, and a fan motor 45 is fixedly installed at an upper end thereof. A blowing fan 40 is installed in the inner space 32 on the upper side of the suction port 31 and is coupled to the motor shaft of the fan motor 45. The opening and closing member 60 is connected to the motor shaft of the fan motor 45, As shown in Fig.

The blowing fan 40 rotates in the housing 30 by driving the fan motor 45 to suck air from the suction port 31 and discharge the air sucked through the discharge ports 51 and 53. The air blowing fan 40 is configured as a sirocco fan type which sucks the lower air from the central portion and discharges the air in the lateral direction.

The discharge ports 51 and 53 are provided on the side surface of the housing 30 and penetrate the side surface of the housing 30 to connect the inside space 32 and the outside of the housing 30, (40) is discharged to the outside of the housing (30).

As shown in FIG. 4, it is preferable that a plurality of outlets 51 and 53 are provided, and two outlets directed in different directions are provided.

The backflow preventing dampers 71 and 72 are provided in the respective outlets 51 and 53 so that the backflow preventing dampers 71 and 72 are prevented from being pulled inward by the engaging protrusions 71c and 72c even if the wind pressure externally acts in the inward direction Thereby preventing the problem that the external wind pressure affects the inside and the blowing efficiency is lowered. When the air is discharged to the discharge ports 51 and 53 by the blowing fan 40, as shown in FIG. 8, the flow-back prevention dampers 71 and 72 are opened to discharge the air.

The backflow preventing dampers 71 and 72 are connected to the horizontal hinge shafts 71a and 72a and the hinge shafts 71a and 72a so that the hinge shafts 71a and 72a are positioned at the center And blocking plates 71b and 72b freely swinging forward.

The stoppers 71c and 72c are provided on the bottoms of the outlets 51 and 53 so that the blocking plates 71b and 72b are prevented from opening in a reverse direction, that is, in a direction in which external wind pressure flows into the internal space 32 .

On the other hand, in the present embodiment, an opening / closing member 60 for selecting the discharge ports 51 and 53 through which the air sucked from the suction port 31 is to be discharged is further provided among the plurality of discharge ports 51 and 53.

The opening and closing member 60 is annularly disposed along the edge of the side wall of the housing 30 with the air blowing fan 40 as a center. The opening and closing member 60 includes a lower annular member 61, 62).

Air can not be discharged by the open / close plate 62 of the open / close member 60 blocking the gap between the inner space 32 and the outlets 51 and 53 by selectively closing the open space.

5 to 7, the opening and closing member 60 is driven by the opening and closing member driving means 65. The opening and closing member driving means 65 is fixed to the housing 30 to open and close the opening and closing member 60, A rack gear 64 is provided along the periphery of the annular member 61 and the opening and closing member driving means 65 is provided on the motor shaft And the pinion gear 65a is mounted so as to slip against the rack gear 64.

The opening and closing plate 62 of the opening and closing member 60 can be rotated about the blowing fan 40 by the rotation of the motor shaft, Or close it.

An annular support member 34 is installed on the lower portion of the housing 30 so as to surround the suction port 31 of the housing to support the opening and closing member 60 from below.

5 and 8, an annular rail 37 having a groove shape is provided on the upper surface of the supporting member 34 so that the lower end of the annular plate-like opening and closing member 60 is fitted in the annular rail 37 So that the rotational movement about the blowing fan 40 is guided.

On the other hand, in the present embodiment, a controller (not shown) is provided for controlling the operation of the opening and closing member 60 so as to selectively open and close the plurality of outlets 51 and 53.

The controller receives pressure values of a plurality of pressure sensors (not shown) installed in the plurality of exhaust units 15 and 16 to measure the wind pressure around the building, compares the pressure values with each other, Position.

So that the discharge ports 51 and 53 connected to the exhaust part 15 or 16 having the lowest wind pressure are opened so that the discharge of the internal air can be most easily and efficiently performed at the exhaust part 15 or 16 at the lowest wind pressure And controls the amount of rotation of the opening and closing member driving means 65. [ In order to control the amount of rotation, it is necessary that the opening and closing member driving means 65 is a servomotor or an encoder for measuring the amount of rotation.

When the pressure sensors are installed in the respective exhaust units 15 and 16, information about the corresponding exhaust units 15 and 16 and the exhaust ports 51 and 53 is input in advance, so that the input values of the pressure sensors are compared with each other If the pressure sensor that senses the lowest wind pressure is determined, the corresponding outlet portions 15, 16 and the outlets 51, 53 can also be confirmed by the controller.

In addition, the controller selects the exhaust units 15 and 16 and the exhaust ports 51 and 53 for discharging indoor air, and adjusts the speed of the blowing fan 40 according to the pressure value sensed by the pressure sensor. That is, if the pressure value measured by the pressure sensor of the selected outlet 51 or 53 is high, it is necessary to discharge it with a strong wind pressure, so that the speed of the blowing fan 40 is increased. The speed is lowered. It is preferable to set the speed adjusting step of the blowing fan 40 to three stages and to set the magnitude of the pressure value to three intervals in advance to adjust the speed of the blowing fan 40 in the single stage corresponding to each section.

Further, when three or more exhaust portions are provided on different wall surfaces (for example, front, rear, right side, left side) of the building 10 and the corresponding outlets are installed at different positions, It is also a constitution for achieving the object of the present invention to discharge the air to the exhaust part excluding the exhaust part having the highest pressure even if the exhaust part is the exhaust part, that is, the exhaust part sensed at a relatively low pressure.

In this case, it is said that the control is performed so as to have a relatively high blowing efficiency although it does not have the highest blowing efficiency that can be selected. (The malfunction of the specific pressure sensor, the presence of the obstacle in the specific exhaust portion, And if such problems are considered as control conditions, control corresponding to such lane selection may be made)

In place of the pressure sensors installed on the exhaust units 15 and 16, exhaust units exposed to the outside may be installed on the exhaust units 15 and 16. When the ambient wind speed is high, a low pressure is normally applied to the exhaust portions 15 and 16, so that the region where the high wind speed is detected by the wind speed sensor is the pressure The controller determines that it is low.

It is preferable that the wind speed sensor measures the air velocity of the air flowing in a direction parallel to the wall surface of the building. In this case, the wind passing transversely in front of the exhaust portions 15, . The pressure of the exhaust portions 15 and 16 is inversely proportional to the wind speed of the wind speed sensor in the installation structure.

9 shows the ventilator 20 according to another embodiment of the present invention in which the pressure sensors 81 and 83 are not installed on the exhaust portions 15 and 16 which are the outer walls of the building, In the ducts 15a and 16a.

Even in this structure, since the pressure acting on the exhaust portions 15 and 16 is transmitted to the inside through the ducts 15a and 16a, it is possible to indirectly measure the wind pressure acting on the external exhaust portions 15 and 16 .

Therefore, the controller can determine the exhaust portions 15 and 16 having the lowest wind pressure according to the measured values of the pressure sensors 81 and 83 provided at the front of the exhaust ports 51 and 53, so that the above-described control is possible.

3, the remote control 91 may be separately installed in the embodiment of the present invention. The remote control 91 may be used to turn on / off the ventilator 20, select the position of the opening / closing member 60, Manual operation / automatic selection operation of the air blowing fan 40, and speed selection of the air blowing fan 40 are possible. When an environmental factor such as a typhoon occurs, the opening / closing member 60 can be fixed by the remote control 91 so that air is discharged to a specific outlet.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limited to the particular embodiments set forth herein. It goes without saying that other modified embodiments are possible.

10; Building 12; restroom
15,16; Exhaust portions 15a and 16a; duct
20; Ventilator 30; housing
31; Suction port 32; Inner space
34; A support member 36; rail
37; Rail 40; Blowing fan
45; Fan motors 51, 53; outlet
60; An opening / closing member 62; Opening and closing plate
64; Rack gear 65; The opening and closing member driving means
65a; Pinion gears 71, 72; Backflow prevention damper
71a, 72a; Hinge shafts 71b and 72b; Blocking plate
71c, 72c; The engagement jaw 81, 83; Pressure sensor
91; remote

Claims (2)

A ventilator 20 installed in the interior space of the building,
And a plurality of exhaust units (15, 16) installed on the front and rear surfaces of the building, respectively, of the building to discharge the air of the fan (20) to the atmosphere,
The ventilator (20)
A housing (30) having a suction port (31) for sucking air in the indoor space;
A blowing fan 40 installed in the housing 30 to suck air through the suction port 31,
The air blowing fan 40 is installed at different positions in the housing 30 and discharges the air sucked by the blowing fan 40. The plurality of exhaust units 15 and 16 are respectively connected to the ducts 15a and 16a by respective ducts 15a and 16a, A plurality of outlets 51, 53 connected to each other,
And a fan motor (45) for rotating the blowing fan (40)
An opening and closing member 60 for opening and closing the outlets 51 and 53 so as to selectively open the outlets 51 and 53 through which the air sucked by the inlets 31 is discharged out of the plurality of outlets 51 and 53, ,
An opening and closing member driving means 65 for driving the opening and closing member 60 to open and close the outlet ports 51 and 53,
A plurality of pressure sensors installed in the ducts (15a, 16a) in front of the discharge ports (51, 53) to measure wind pressure,
Wherein the plurality of pressure sensors measure pressure values measured by the plurality of pressure sensors and compare the pressures with each other so that the discharge ports (51, 53), which are set to correspond to relatively low pressure sensors among the plurality of pressure sensors, And a controller for controlling driving of the member driving means (65)
The plurality of outlets (51, 53) are respectively installed on the side surface of the housing (30) with the blowing fan (40) as a center,
The opening and closing member 60 includes a lower annular member 61, a rack gear 64 provided along the periphery of the annular member 61, and an opening and closing plate 62 coupled to the annular member 61 So that the opening and closing plate 62 blocks some of the discharge ports 51 and 53 to selectively open the discharge ports 51 and 53 by rotating around the blowing fan 40,
The opening and closing member driving means 65 is a motor for rotating the opening and closing member 60 around the blowing fan 40,
The air blowing fan 40 is a sirocco fan, and the air inlets 31 are installed downward,
An annular support member 34 is provided on the housing 30 to support the opening and closing member 60 from below,
The opening and closing member driving means 65 is provided so that the pinion gear 65a provided on the motor shaft is fitted to the rack gear 64 so that the opening and closing member 60 is rotated by the rotation of the motor shaft, As shown in FIG.
The opening and closing member 60 is inserted into an annular rail provided on the receiving member 34 and is guided to rotate about the blowing fan 40,
Backflow preventing dampers (71, 72) respectively installed at the outlets (51, 53) and including a horizontal hinge shaft portion and a blocking plate portion that freely turns forward about the hinge shaft portion, (71c, 72c) provided on a bottom surface of the discharge ports (51, 53) so as to prevent the blocking plates (71, 72) from being opened inward,
Further comprising a remote control 91 capable of selecting and fixing the position of the opening and closing member 60,
The remote control 91 can be operated to fix the position of the opening and closing member 60 so that air is discharged to the specific outlet 51 or 53 so as to cope with environmental factors such as typhoon. Exhaust vent delete

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