KR20230108876A - Auto Ventilation System of Outdoor Unit Room - Google Patents

Abstract

The present invention relates to an automatic ventilation system for an outdoor unit room, which can increase air conditioning efficiency by automatically circulating air in an outdoor unit room to prevent overload and temperature rise of the outdoor unit, and specifically, to an outdoor unit room and an outdoor unit room in which an outdoor unit of a cooling/heating unit is installed. It is formed on the outer wall, and is formed in at least one ventilation hole and a ventilation hole, and is formed in a louver and a louver whose angle is variable according to the wind direction of outside air and inside air, and a sensing device for detecting the wind direction and air volume of outside air and inside air It is formed on the louver and has a control device for controlling the angle of the louver according to the wind direction and air volume detected by the sensing device.

Description

Outdoor unit room automatic ventilation system {Auto Ventilation System of Outdoor Unit Room}

The present invention relates to an outdoor fan room automatic ventilation system capable of increasing the efficiency of an air conditioner by automatically circulating air in the outdoor unit room to prevent overload and temperature rise of the outdoor unit.

Patent Document 001 discloses a plurality of louvers installed between window frames so as to overlap and rotate to close ventilation holes and open the ventilation holes by rotating to open, a link member connecting each of the louvers, and operation control by a control unit. and a driving unit for operating the link member to include a louver opening/closing unit for opening and closing the louvers, wherein the control unit is provided with a wind detection signal detected by an outdoor unit operation detecting unit installed in the window frame facing the outdoor unit room. , The vibration detection signal detected from the vibration detection sensor for detecting the vibration generated by the operation of the outdoor unit, and the detection signal detected from the temperature detection sensor for detecting the temperature of the outdoor unit room. A technology configured to determine whether to open or close is proposed.

Patent Document 002 discloses that a ventilation system of an outdoor fan room using a single duct according to one side is connected to an outdoor unit provided in an outdoor unit of an apartment house, a grill provided on the outdoor side of the outdoor unit and into which outdoor air flows, and the outdoor unit. An induction duct for inducing high-temperature air generated from the outdoor unit, an exhaust duct connected to the induction duct and discharging the high-temperature air moved through the induction duct to the outside, and provided on an upper part of the exhaust duct to discharge the high-temperature air A ventilation fan assisting the ventilation, and a damper provided in the exhaust duct to prevent high-temperature air from flowing backward through the induction duct is proposed.

Patent Document 003 discloses an outdoor unit provided in an outdoor unit of an apartment house, an air supply duct that is connected to the outdoor unit unit, is provided vertically along a side surface of the unit house, and supplies outdoor air to the outdoor unit, and is connected to the outdoor unit unit, An exhaust duct that is provided vertically along another side surface of the apartment house and discharges high-temperature air generated from the outdoor unit to the outside, and a separate outlet provided on the top of the exhaust duct and provided at the top of the apartment house. A ventilation fan assisting in discharging high-temperature air, and a damper installed in the exhaust duct to prevent the high-temperature air from flowing backward, the damper being normally closed, and being open when the outdoor unit is operating, is provided to prevent the high-temperature air from flowing backward. A reverse flow of high-temperature air is prevented through the exhaust duct, and the air supply duct includes an inlet through which outside air flows in, a main body through which the outside air flows through the inlet, and the outdoor air moved through the main body into the outdoor unit. A supply unit is provided, and the main body unit is provided with a cool tube.

Patent Document 004 is a room sensor for measuring the temperature of an outdoor unit room in which an outdoor unit of a building air conditioner is installed; a louver provided on a window of the outdoor unit room and having an opening and closing angle controlled by a driving unit; A blowing fan provided to blow or suck wind to the outside through the louver; and closing the louver when the outdoor unit temperature is lower than the first temperature, partially opening the louver when the outdoor unit temperature is higher than the first temperature and lower than the second temperature, and maximizing the louver when the outdoor unit temperature is higher than the second temperature. and a control unit for operating and controlling the blowing fan when the temperature of the outdoor unit room is higher than the third temperature.

KR 10-2228140 B1 (March 10, 2021) KR 10-2020-0053770 A (May 19, 2020) KR 10-2153444 B1 (September 02, 2020) KR 10-1447481 B1 (September 29, 2014)

The present invention relates to an outdoor fan room automatic ventilation system capable of increasing the efficiency of an air conditioner by automatically circulating air in the outdoor unit room to prevent overload and temperature rise of the outdoor unit.

It is intended to solve the problems of the prior inventions, and the present invention includes an outdoor unit room 100 in which an outdoor unit of an air conditioner is installed; at least one ventilation hole 200 formed on an outer wall of the outdoor unit chamber 100; A louver 300 formed in the ventilation hole 200 and having a variable angle according to the wind direction of the outside air and the inside air; a sensing device 110 formed in the louver 300 and sensing wind direction and air volume of outside air and inside air; It is formed on the louver 300 and controls the angle of the louver 300 according to the wind direction and air volume detected by the sensing device 110;

The present invention relates to an automatic ventilation system for an outdoor unit room, and includes the aforementioned outdoor unit unit 100; ventilation holes 200; Louver 300; a sensing device 110; The control device 400; formed in the ventilation hole 200 in the invention consisting of, the inlet 210 through which the outside air flows into the inside; A discharge port 220 through which the air in the outdoor unit chamber 100 is discharged is added.

The present invention relates to an automatic ventilation system for an outdoor unit room, and includes the aforementioned outdoor unit unit 100; ventilation holes 200; Louver 300; a sensing device 110; In the invention consisting of a control device 400; the louver 300 is formed in the inlet 210, the inlet louver 301 whose angle is varied according to the wind direction and air volume of the outside air; A discharge louver 302 formed in the outlet 220 and having a variable angle according to the wind direction and air volume of the bet; is added.

The present invention relates to an automatic ventilation system for an outdoor unit room, and includes the aforementioned outdoor unit unit 100; ventilation holes 200; Louver 300; a sensing device 110; A frame 310 formed in the louver 300 and installed in the ventilation hole 200 in the invention consisting of a control device 400; A rotating body 320 coupled to the inside of the frame 310 and rotating by wind direction and air volume; a blade 360 coupled to the rotating body 320 and opening and closing the ventilation hole 200; A variable device connecting the plurality of rotation bodies 320 and varying the angle of the blade 360 by the control device 400 is added.

The present invention relates to an automatic ventilation system for an outdoor unit room, and includes the aforementioned outdoor unit unit 100; ventilation holes 200; Louver 300; a sensing device 110; A first frame 313 formed on the frame 310 and coupled to the ventilation hole 200 in the invention consisting of; a second frame 314 formed inside the first frame 313 and rotating according to the wind direction; A rotation rail 315 formed between the first frame 313 and the second frame 314 and rotating the second frame 314; is added.

The present invention relates to an automatic ventilation system for an outdoor unit room, and includes the aforementioned outdoor unit unit 100; ventilation holes 200; Louver 300; a sensing device 110; A control device 400; formed in the rotating body 320 in the invention consisting of, a support member 330 for supporting one end of the blade 360 is inserted; an insertion member 340 extending from the support member 330 to one side and inserted into the frame 310; An airtight member 350 is formed on the outside of the support member 330 and is formed to come into contact with the frame 310 to improve airtight performance.

The present invention relates to an automatic ventilation system for an outdoor unit room, and includes the aforementioned outdoor unit unit 100; ventilation holes 200; Louver 300; a sensing device 110; A first insertion member 341 formed on the insertion member 340 and coupled to the variable device; a second insertion member 342 formed separately from the first insertion member 341 and rotating in the first insertion member 341 by pressure; An elastic member 343 formed between the first insertion member 341 and the second insertion member 342 and imparting elasticity to the second insertion member 342; is added.

The present invention relates to an automatic ventilation system for an outdoor unit room, and includes the aforementioned outdoor unit unit 100; ventilation holes 200; Louver 300; a sensing device 110; The control device 400; the louver 300 in the invention consisting of an electromagnet 321 that is formed on the rotating body 320, and magnetic force is generated when current is supplied; A current supply unit 322 supplying current to the electromagnet 321 when pressure is generated in the rotating body 320; A magnetic member 323 formed at a position corresponding to the electromagnet 321 and installed on the frame 310; is added.

The present invention relates to an automatic ventilation system for an outdoor unit room, and includes the aforementioned outdoor unit unit 100; ventilation holes 200; Louver 300; a sensing device 110; A storage unit 410 formed in the control device 400 and storing information sensed by the sensing device 110 in the invention consisting of a control device 400; An adjustment unit 420 for adjusting the angle of the louver 300 according to the information stored in the storage unit 410; is added.

According to the present invention, air circulation can proceed smoothly as the inlet louver and the outlet louver are formed in the outdoor unit room.

According to the present invention, it is possible to reduce re-introduction of the air flow discharged from the outdoor unit of the air conditioner due to external wind into the outdoor unit room.

In the present invention, the angle of the louver is automatically adjusted according to the wind direction and air volume of the outside air and the inside air, so that air circulation can be effectively progressed.

In the present invention, air circulation can be made at all times as the blade rotates at a certain angle by the pressure of the outside air and the inside air.

In the present invention, as the blade rotates at a predetermined angle by pressure, magnetic force is generated by current to rotate the blade.

According to the present invention, by circulating the air in the outdoor unit compartment, failure of the outdoor unit due to overheating can be prevented.

The present invention can increase the efficiency of the air conditioner by the cooling effect of the outdoor unit.

1 is a conceptual diagram showing a state in which an outdoor unit room ventilation system of the present invention is installed.
Figure 2 is a cross-sectional view of the outdoor unit room ventilation system of the present invention.
3 to 4 is a perspective view showing the louver of the present invention.
5 is an exemplary view showing a louver according to another embodiment of the present invention.
Figure 6 is a cross-sectional view showing the frame of the present invention.
Figure 7 is a perspective view showing the rotating body of the present invention.
Figure 8 is a side cross-sectional view showing a blade in which the airtight member of the present invention is installed.
Figure 9 is a cross-sectional view showing the insertion member of the present invention.
Figure 10 is a cross-sectional view showing the rotating body of the present invention.

Hereinafter, the most preferred embodiment of the present invention will be described in detail in order to explain the present invention in detail to the extent that those skilled in the art can easily practice the present invention.

Numbers cited in the examples below are not limited to the referenced subject and can be applied to all examples. An object that exhibits the same purpose and effect as the configuration presented in the embodiment corresponds to an equivalent replacement object. The high-level concept presented in the examples includes sub-concept objects that are not described.

(Embodiment 1-1) The present invention relates to an automatic ventilation system for an outdoor unit room, comprising: an outdoor unit room (100) in which an outdoor unit of a cooling/heating unit is installed; at least one ventilation hole 200 formed on an outer wall of the outdoor unit chamber 100; A louver 300 formed in the ventilation hole 200 and having a variable angle according to the wind direction of the outside air and the inside air; a sensing device 110 formed in the louver 300 and sensing wind direction and air volume of outside air and inside air; It is formed on the louver 300 and controls the angle of the louver 300 according to the wind direction and air volume sensed by the sensing device 110; a control device 400.

(Embodiment 1-2) In the outdoor unit room automatic ventilation system of the present invention, in Example 1-1, the outdoor unit room 100 is formed in one selected from an apartment, a row house, a multi-household house, an officetel, and an office; includes

(Embodiment 1-3) The outdoor fan room automatic ventilation system of the present invention, in Embodiment 1-1, is formed in the outdoor fan room 100 and includes a door formed to be opened and closed; A drainage facility formed inside the room and discharging rainwater; includes.

(Embodiment 1-4) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 1-1, the ventilation hole 200 is formed at a position in contact with outdoor air.

(Embodiment 1-5) In the outdoor fan room automatic ventilation system of the present invention, in Embodiment 1-1, the temperature and humidity sensor is formed in the sensing device 110 and detects the temperature and humidity inside the outdoor fan room 100. includes;

(Embodiment 1-6) The outdoor unit room automatic ventilation system of the present invention, in Embodiment 1-1, includes a wind direction detecting unit formed in the sensing device 110 and detecting a wind direction of outdoor air; It includes; air volume detecting unit for detecting the air volume of the outside air.

The present invention relates to an automatic ventilation system for an outdoor unit room, and specifically, for an outdoor unit of an air conditioner such as an air conditioner or a boiler installed in a building such as an apartment building, a row house, a multi-family house, an officetel, or an office, or an outdoor unit room (100) in which a heater is installed. As the air is ventilated, the performance of the outdoor unit can be improved. Referring to FIGS. 1 and 2 , the automatic ventilation system of the outdoor unit ventilates the air of the outdoor unit 100 equipped with the outdoor unit of the air conditioner, thereby preventing the deterioration of the cooling performance of the outdoor unit and the occurrence of malfunctions and fires due to overload. . In general, the outdoor unit is installed outside the building, but this not only harms the aesthetics, but also makes it difficult to install, and a major accident occurs when falling due to external shock. Recently, an outdoor unit room (100 ) is installed and provided. However, when the ventilation of the outdoor unit room 100 is not smooth, the temperature of the outdoor unit rises, resulting in a decrease in air conditioner efficiency and an increase in energy consumption, thereby increasing the need for ventilation. In addition, as the louver 300 is located on one surface of the outdoor fan room 100, it is necessary to prevent the airflow discharged from the air conditioner outdoor unit due to outside wind from re-introducing into the outdoor fan room 100 and increasing the temperature of the outdoor fan room 100. Needs to be.

Accordingly, the present invention is for ventilation of the outdoor unit room 100, and a ventilation hole 200 is formed at a position in contact with outdoor air, and at least one ventilation hole 200 is formed to effectively control the inflow of outside air and the discharge of indoor air. can In addition, a louver 300 is installed in the ventilation hole 200, and the angle of the louver 300 is adjusted according to the wind direction and air volume of the outside air and the inside air to increase ventilation efficiency. At this time, the angle of the louver 300 is adjusted according to the wind direction and air volume of the outside air sensed by the sensing device 110.

The sensing device 110 is formed outside the outdoor unit room 100, and a wind direction sensing unit for sensing the wind direction of outdoor air is formed. At this time, the wind direction sensor may determine the wind direction in the direction in which the sensing device 110 rotates according to the wind direction. In addition, the sensing device 110 includes an air volume detecting unit, and the air volume detecting unit may determine an air volume according to a rotational speed of the rotary blades. In addition, the sensing device 110 can measure the wind direction and air volume by means of a sensor protruding out of the outdoor unit chamber 100, and a plurality of perforated holes are formed in the sensor to detect the direction of outside air flowing into the perforated holes. rotates to accurately determine the wind direction, and to determine the air volume of the outside air passing through the perforated hole. In addition, the sensing device 110 has a temperature and humidity sensor for detecting the internal temperature and humidity of the outdoor unit room 100, and when it is determined that the temperature of the outdoor unit room 100 has risen by the temperature and humidity sensor, the louver 300 is opened to ventilate. can proceed.

In this way, the angle of the louver 300 is automatically controlled through the control device 400 according to the wind direction and air volume of the outside air detected by the sensing device 110 and the pressure, temperature, and humidity of the outside air.

Therefore, the automatic ventilation system of the outdoor fan room of the present invention has a feature of circulating air to prevent an increase in the internal temperature of the outdoor fan room (100).

(Embodiment 2-1) The present invention relates to an automatic ventilation system for an outdoor unit room, and in Embodiment 1-1, an inlet 210 formed in the ventilation hole 200 and through which outside air flows into the inside; and a discharge port 220 through which the air in the outdoor unit chamber 100 is discharged.

(Embodiment 2-2) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 2-1, the inlet 210 and the outlet 220 are formed to be adjacent to each other.

(Embodiment 2-3) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 2-2, the inlet 210 and the outlet 220 are integrally formed.

(Embodiment 2-4) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 2-1, the ventilation hole 200 is formed in a shape selected from among a square, a circle, and an ellipse.

The present invention relates to a ventilation hole 200, and specifically, at least one ventilation hole 200 is formed on a wall of the outdoor fan room 100, and is formed on a wall in contact with outdoor air. The ventilation hole 200 is formed of an inlet 210 through which outside air is introduced and an outlet 220 through which internal air is discharged. At this time, the inlet 210 is formed on the upper part of the wall and the outlet 220 is formed on the lower part so that heat discharged from the outdoor unit is smoothly discharged. This is to facilitate air circulation as the outdoor unit is installed below the outdoor unit chamber 100 . Further, the ventilation hole 200 is formed in various shapes such as a square, a circle, and an ellipse, and the inlet 210 and the outlet 220 may be formed in different sizes. This is to make the inlet 210 and the outlet 220 different in size because the pressure of the air forcedly discharged through the outdoor unit is higher than the pressure of the outside air flowing into the inlet 210 .

The inlet 210 and the outlet 220 are preferably formed to be spaced apart from each other, but may be formed integrally with each other or vertically or horizontally adjacent to each other. Here, when the inlet 210 and the outlet 220 are integrally formed as shown in FIGS. 1 and 2 , air is introduced from one side of the louver 300 and air is discharged from the other side. At this time, the inlet and the outlet formed integrally may be formed as a whole on one surface of the outdoor side of the outdoor unit room.

(Embodiment 3-1) The present invention relates to an automatic ventilation system for an outdoor unit room. In Embodiment 2-1, the louver 300 is formed at the inlet 210 and has an angle depending on the wind direction and air volume of outside air. The inlet louver 301 is variable; A discharge louver 302 formed in the outlet 220 and having a variable angle according to the wind direction and air volume of the bet; includes.

(Embodiment 3-2) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 3-1, the inlet louver 301 and the outlet louver 302 are formed to be adjacent to each other.

(Embodiment 3-3) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 3-1, the inlet louver 301 and the outlet louver 302 are integrally formed with each other.

(Embodiment 3-4) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 3-1, the inlet louver 301 and the outlet louver 302 cross each other at one ventilation hole 200. to be installed; includes;

The present invention relates to the louver 300, and specifically, the louver 300 is installed in the ventilation hole 200 and can control the wind direction and the amount of air passing through the outside air and inside the room. Referring to FIGS. 3 to 5, the installation position of the louver 300 is adjusted according to the position of the ventilation hole 200, and the inlet louver 301 installed at the inlet 210 and the outlet 220 are installed. It is divided into a discharge louver 302 to be. At this time, the inlet louver 301 and the outlet louver 302 are formed adjacent to each other or spaced apart from each other. In addition, the inlet louver 301 and the outlet louver 302 are installed to cross each other in one ventilation hole 200 so that outside air is introduced from both sides and the bet is discharged from the center.

At this time, the inlet louver 301 and the outlet louver 302 are formed adjacent to each other, spaced apart from each other, or integrally formed. When the inlet louver 301 and the outlet louver 302 are integrally formed, it is installed where the inlet 210 and the outlet 220 are integrally formed. And the inlet louver 301 and the outlet louver 302 are formed to be adjacent to each other vertically or horizontally.

(Embodiment 4-1) The present invention relates to an automatic ventilation system for an outdoor unit room, and in Embodiment 3-1, a frame 310 formed in the louver 300 and installed in the ventilation hole 200; A rotating body 320 coupled to the inside of the frame 310 and rotating by wind direction and air volume; a blade 360 coupled to the rotating body 320 and opening and closing the ventilation hole 200; A variable device connecting the plurality of rotation bodies 320 and changing the angle of the blade 360 by the control device 400; includes.

(Embodiment 4-2) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 4-1, a fixed frame 311 formed on the frame 310 and installed in the ventilation hole 200; A partition frame 312 partitioning the center of the fixing frame 311; includes.

(Embodiment 4-3) In Embodiment 4-1 of the outdoor fan room automatic ventilation system of the present invention, the blade 360 is formed in a curved surface to induce the flow of inflow and outflow of outdoor air and indoor air; .

(Embodiment 4-4) In Embodiment 4-1 of the outdoor unit room automatic ventilation system of the present invention, the variable device is formed of a selected one of a wire and a gear to rotate the plurality of rotation bodies 320; includes

The present invention relates to the louver 300, and specifically, the louver 300 is installed in the ventilation hole 200, and the angle of the blade 360 is adjusted according to the wind direction and air volume of the outside air and the inside air. The louver 300 has a frame 310 installed in the ventilation hole 200, and a rotating body 320 coupled to the inside of the frame 310 to rotate the blade 360 is formed. The frame 310 has a fixed frame 311 installed in the ventilation hole 200, and a partition frame 312 is formed in the center to adjust the length or prevent the blade 360 from sagging. The angles of the blades 360 formed on both sides of ) may proceed differently. And the blade 360 is formed in a curved surface so that outside air is smoothly guided to the inside and introduced, or bet is smoothly guided to the outside and discharged. This is to prevent the discharged bet from re-introducing through the inlet 210 as the shape of the blade 360 is curved.

In addition, in the louver 300, a variable device is formed so that the plurality of rotating bodies 320 rotate simultaneously by the adjusting device, and the variable device is connected to the control device 400 and each rotating body 320 is fastened. When the variable device moves, the plurality of rotating bodies 320 rotate. At this time, the variable device is formed of a wire, a gear, etc. to rotate a plurality of rotating bodies 320 and automatically changes a plurality of blades 360 by a variable motor.

(Example 5-1) The present invention relates to an automatic ventilation system for an outdoor unit room. In Example 4-1, the first frame 313 formed on the frame 310 and coupled to the ventilation hole 200 ); a second frame 314 formed inside the first frame 313 and rotating according to the wind direction of the outside air and the inside air; A rotation rail 315 formed between the first frame 313 and the second frame 314 and rotating the second frame 314; includes.

(Embodiment 5-2) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 5-1, a rotation motor 316 formed on the first frame 313 and rotating the rotation rail 315; includes

(Embodiment 5-3) In Embodiment 5-1, the automatic ventilation system for an outdoor unit room of the present invention includes that the second frame 314 is coupled to the rotating rail 315.

(Embodiment 5-4) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 5-1, the first frame 313 includes a guide groove through which the rotating rail 315 rotates.

The present invention relates to the frame 310, and specifically, the frame 310 is coupled to the circular ventilation hole 200 and rotates the louver 300 according to the wind direction of the outside air sensed by the sensing device 110. . Referring to FIG. 6, the frame 310 is formed inside the first frame 313 coupled to the ventilation hole 200 and the first frame 313, and the second frame rotating the louver 300 ( 314) is formed. At this time, a guide groove is formed in the first frame 313 to insert one end of the second frame 314, and a rotating rail 315 is formed in the guide groove to rotate the second frame 314. The rotation rail 315 is formed in a sawtooth shape and is rotated by a rotation motor 316 formed on the first frame 313 . Also, since the rotation rail 315 is fixed to the second frame 314, when the rotation rail 315 is rotated, the second frame 314 and the louver 300 rotate.

The rotational direction and rotational speed of the rotating rail 315 are controlled by the control device 400 according to the wind direction of the outside air detected by the sensor device, and outside air is smoothly introduced through the louver 300 according to the wind direction. On the other hand, the discharge louver 302 through which the bet is discharged is fixed in position without rotating because the wind direction of the bet discharged from the outdoor unit is constant.

(Embodiment 6-1) The present invention relates to an automatic ventilation system for an outdoor unit room. In Embodiment 5-1, the support is formed on the rotating body 320 and one end of the blade 360 is inserted and supported. member 330; an insertion member 340 extending from the support member 330 to one side and inserted into the frame 310; An airtight member 350 formed on the outside of the support member 330 and formed in contact with the frame 310 to improve airtight performance.

(Embodiment 6-2) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 6-1, an insertion groove formed in the support member 330 and into which the blade 360 is inserted; is included.

(Embodiment 6-3) In Embodiment 6-2, the outdoor unit automatic ventilation system of the present invention includes that the airtight member 350 is formed to surround the support member 330.

(Embodiment 6-4) In Embodiment 6-1 of the automatic ventilation system for an outdoor unit room of the present invention, the airtight member 350 is formed on both sides of the blind, respectively.

The present invention relates to the rotating body 320, and specifically, the rotating body 320 is for rotating the blade 360 and is coupled to the frame 310. Referring to FIGS. 7 and 8, the rotating body 320 has a support member 330 into which one end of the blade 360 is inserted, and the support member 330 is formed in the same shape as the blade 360. An insertion groove is formed to fix the blade 360. In addition, the support member 330 is formed with an insertion member 340 so as to be rotatable by the variable rail 370, and the insertion member 340 is inserted into a fixing groove formed in the frame 310 and rotates without moving. . In addition, an airtight member 350 is formed on the outside of the support member 330 so that the blind does not rotate when the outdoor unit is not driven, and insulation performance can be improved. At this time, the airtight member 350 is formed between the support member 330 and the frame 310, but is formed on both sides of the blade 360, respectively, to improve airtight performance between the plurality of blades 360.

(Embodiment 6-5) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 6-1, the rotating body 320 has a first insertion member 341 extending toward the frame 310 from one end. ; and a second insertion member 342 formed to be spaced apart from the first insertion member 341 and extending from the other end of the rotating body 320 toward the frame 310 .

(Embodiment 6-6) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 6-1, a first fixing hinge formed on the frame 310 and fixing the first insertion member 341; A second fixing hinge fixing the second insertion member 342; includes.

(Embodiment 6-7) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 6-1, the first fixed hinge and the second fixed hinge are controlled by the control device 400, respectively, to the first insertion member. 341 and fixing the second insertion member 342; includes.

The present invention relates to the rotating body 320, and specifically, the rotating body 320 rotates the blade 360 in both directions. The rotating body 320 rotates the blade 360 from top to bottom or from bottom to top according to the wind direction. At this time, the first insertion member 341 extending from one end of the support member 330 fixing the blade 360 and the second insertion member 342 formed at the other end of the first insertion member 341 are frame frames. It is formed by being coupled to the first fixed hinge and the second fixed hinge formed in 310, respectively. In addition, the rotation direction of the first fixed hinge and the second fixed hinge may be adjusted by applying pressure to the first insertion member 341 and the second insertion member 342 by the control device 400, respectively. For example, when rotating the blade 360 from top to bottom, the second insertion member 342 is rotated by fixing the second insertion member 342 at the second fixed hinge, so that the first insertion member 341 is separated from the first fixed hinge and rotates. And when rotating the blade 360 from the bottom to the top, the first insertion member 341 is fixed at the first fixed hinge and rotated so that the second insertion member 342 is separated from the second fixed hinge and rotates. Also, the first and second fixing hinges fix the first insertion member 341 and the second insertion member 342 with pressure, but the fixing method is not limited.

Therefore, the present invention has a feature that smooth ventilation can be performed by smoothly rotating the blade 360 according to the wind direction without the blade 360 being caught by the frame 310 in a narrow place.

(Embodiment 7-1) The present invention relates to an automatic ventilation system for an outdoor unit room, and in Embodiment 6-1, the first insertion member 341 formed on the insertion member 340 and coupled to the variable device ; a second insertion member 342 formed separately from the first insertion member 341 and rotating in the first insertion member 341 by pressure; and an elastic member 343 formed between the first insertion member 341 and the second insertion member 342 and imparting elasticity to the second insertion member 342 .

(Embodiment 7-2) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 7-1, when pressure is generated in the blade 360, the second insertion member 342 is the first insertion member 341 ) to rotate in;

(Embodiment 7-3) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 7-1, the opening and closing angle of the second insertion member 342 is adjusted according to the pressure of the blade 360; include

The present invention relates to the insertion member 340, and specifically, the insertion member 340 moves the blade 360 to a predetermined level by the pressure of the outdoor unit chamber 100 without adjusting the angle of the blade 360 by an adjusting device. It can be rotated at an angle. Referring to FIG. 9, the insertion member 340 is formed with a first insertion member 341 coupled to the variable rail 370, and the first insertion member 341 controls the variable rail 370 by an adjusting device. It rotates as it moves, but this is to adjust the angle of the blade 360 when the user adjusts it. However, since the user cannot always adjust the angle of the blade 360, when the pressure increases as the temperature of the outdoor unit chamber 100 rises, the second insertion member 342 separated from the first insertion member 341 is supported. The outdoor unit chamber 100 is ventilated by rotating the member 330 at a predetermined angle. At this time, the second insertion member 342 is connected to the first insertion member 341 by an elastic member 343, and the second insertion member 342 is connected to the elastic member 343 when pressure is applied to the blade 360. As a result, it is opened at a predetermined angle. And if the pressure is low, it returns to the angle adjusted by the user.

(Example 8-1) The present invention relates to an automatic ventilation system for an outdoor unit room. In Example 7-1, the louver 300 is formed on the rotating body 320, and magnetic force is generated when current is supplied. an electromagnet 321; A current supply unit 322 supplying current to the electromagnet 321 when pressure is generated in the rotating body 320; A magnetic member 323 formed at a position corresponding to the electromagnet 321 and installed on the frame 310; includes.

(Embodiment 8-2) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 8-1, it is formed on the insertion member 340 of the rotating body 320 and applies elasticity to the rotating body 320 It includes; an elastic body 324.

(Embodiment 8-3) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 8-1, the electromagnet 321 is formed as an electrode different from that of the magnetic member 323, but is attached to the rotating body 320. When pressure is generated, it is converted to the same electrode as the magnetic member 323; includes.

(Embodiment 8-4) In the outdoor unit room automatic ventilation system of the present invention, in Embodiment 8-1, the magnetic member 323 is formed on the hanging plate formed inside the frame 310; including do.

The present invention relates to the louver 300, and specifically, when pressure is generated on the blade 360 of the louver 300, the blade 360 automatically rotates due to the electrode difference between the rotating body 320 and the frame 310. is to do Referring to FIG. 10, such a louver 300 is an electrode of an electromagnet 321 formed on a support member 330 or a blade 360 of a rotating body 320 and a magnetic member 323 formed on a frame 310. The difference rotates the blade 360. At this time, the electrode of the electromagnet 321 is changed when current is supplied through the current supply unit 322 formed in the insertion member 340 of the rotating body 320. In detail about this, the current supply unit 322 is grounded when pressure is generated on the blade 360 and the blade 360 rotates at a predetermined angle, and the current supply unit 322 is grounded to supply current to the electromagnet 321. . At this time, the current supply unit 322 and the electromagnet 321 are connected by wires, and as the blade 360 rotates at a predetermined angle by pressure, it is grounded and the electromagnet 321 is connected to the magnetic member 323 by current. It is formed of the same electrode and rotates the blade 360. And when the pressure is reduced, the current is cut off and the blade 360 is formed of a magnetic member 323 and a different electrode and closed. In addition, the magnetic member 323 is formed on a holding plate that rotates the blade 360 in one direction, and the holding plate extends to the inside of the frame 310 so that the magnetic member 323 and the electromagnet 321 correspond to each other. to be installed in the desired location.

Therefore, the louver 300 of the present invention has a feature of supplying current to the electromagnet 321 so that the blade 360 automatically rotates when pressure is generated on the blade 360.

(Embodiment 9-1) The present invention relates to an automatic ventilation system for an outdoor unit room. storage unit 410; An adjustment unit 420 for adjusting the angle of the louver 300 according to the information stored in the storage unit 410; includes.

(Embodiment 9-2) In the embodiment 9-1 of the outdoor unit room automatic ventilation system of the present invention, the storage unit 410 generates big data by collecting past information.

The present invention relates to the control device 400, and specifically, the control device 400 adjusts the angle of the louver 300 with information sensed by the sensing device 110. In this control device 400, a storage unit 410 for storing information detected by the sensing device 110 is formed, and the angle of the louver 300 is adjusted by driving a variable motor with the information stored in the storage unit 410. do. At this time, the wind direction and air volume of outdoor air and indoor air stored in the storage unit 410 are stored for a long time and generated as big data. This is to automatically drive the louver 300 according to external temperature, humidity, weather, and time.

100: outdoor unit room 110: detection device
200: ventilation hole 210: inlet
220: outlet 300: louver
301: inflow louver 302: discharge louver
310: frame 311: fixed frame
312: division frame 313: first frame
314: second frame 315: rotating rail
316: rotation motor 320: rotation body
321: electromagnet 322: current supply unit
323: magnetic member 324: elastic body
330: support member 340: insertion member
341: first insertion member 342: second insertion member
343: elastic member 350: airtight member
360: blade 370: variable rail
400: control device 410: storage unit
420: control unit

Claims (9)

An outdoor unit room 100 in which an outdoor unit of an air conditioner is installed;
at least one ventilation hole 200 formed on an outer wall of the outdoor unit chamber 100;
A louver 300 formed in the ventilation hole 200 and having a variable angle according to the wind direction of the outside air and the inside air;
a sensing device 110 formed in the louver 300 and sensing wind direction and air volume of outside air and inside air;
A control device (400) formed on the louver (300) and controlling an angle of the louver (300) according to the wind direction and air volume sensed by the sensing device (110);
The method of claim 1,
An inlet 210 formed in the ventilation hole 200 and through which outside air flows into the inside;
An automatic ventilation system for an outdoor unit room comprising: a discharge port 220 through which the air in the outdoor unit room 100 is discharged.
The method of claim 3,
The louver 300 is formed in the inlet 210, the inlet louver 301 whose angle is variable according to the wind direction and air volume of the outside air;
An automatic ventilation system for an outdoor unit room comprising: a discharge louver 302 formed at the outlet 220 and having a variable angle according to the wind direction and air volume of the bet.
The method of claim 1,
A frame 310 formed in the louver 300 and installed in the ventilation hole 200;
A rotating body 320 coupled to the inside of the frame 310 and rotating by wind direction and air volume;
a blade 360 coupled to the rotating body 320 and opening and closing the ventilation hole 200;
An automatic ventilation system for an outdoor unit room comprising a variable device that connects the plurality of rotating bodies (320) and changes the angle of the blade (360) by the control device (400).
The method of claim 4,
a first frame 313 formed on the frame 310 and coupled to the ventilation hole 200;
a second frame 314 formed inside the first frame 313 and rotating according to the wind direction;
An automatic ventilation system for an outdoor unit room comprising: a rotating rail (315) formed between the first frame (313) and the second frame (314) and rotating the second frame (314).
The method of claim 4,
a support member 330 formed on the rotating body 320 and supporting one end of the blade 360 by being inserted therein;
an insertion member 340 extending from the support member 330 to one side and inserted into the frame 310;
An automatic ventilation system for an outdoor unit room comprising: an airtight member (350) formed outside the support member (330) and in contact with the frame (310) to improve airtight performance.
The method of claim 6,
a first insertion member 341 formed on the insertion member 340 and coupled to the variable device;
a second insertion member 342 formed separately from the first insertion member 341 and rotating in the first insertion member 341 by pressure;
and an elastic member (343) formed between the first insertion member (341) and the second insertion member (342) and imparting elasticity to the second insertion member (342).
The method of claim 4,
The louver 300 is formed on the rotating body 320, the electromagnet 321 that generates magnetic force when current is supplied;
A current supply unit 322 supplying current to the electromagnet 321 when pressure is generated in the rotating body 320;
An outdoor fan room automatic ventilation system comprising: a magnetic member (323) formed at a position corresponding to the electromagnet (321) and installed on the frame (310).
The method of claim 1,
a storage unit 410 formed in the control device 400 and storing information sensed by the sensing device 110;
An automatic ventilation system for an outdoor unit room comprising: an adjusting unit 420 that adjusts an angle of the louver 300 according to information stored in the storage unit 410.