KR102228140B1 - Automatic opening and shutting system for ventilation window according to state change of outdoor room - Google Patents

Abstract

An objective of the present invention is to automatically open and close a ventilation window installed on a wall of an outdoor unit room in which the outdoor unit of an air conditioner is installed. A system for automatically opening and closing a ventilation window in accordance with a condition change of an outdoor unit room comprises: a plurality of louvers installed between window frames to rotate to be overlapped to close a ventilation hole and rotate to spread to open the ventilation hole; a link member connecting the louvers; and a louver opening and closing unit having a driving unit controlled by a control unit to operate the link member to open and close the louvers. The control unit is configured to determine whether to open and close the louvers based on one or more detection signals among a wind detection signal detected by an outdoor unit operation detection means installed on the window frames facing the outdoor unit room, a vibration detection signal detected from a vibration detection sensor for detecting vibration generated by the operation of the outdoor unit, and a detection signal detected from a temperature detection sensor for detecting the temperature of the outdoor unit room.

Description

Automatic opening and closing system for ventilation windows according to changes in outdoor air room conditions {AUTOMATIC OPENING AND SHUTTING SYSTEM FOR VENTILATION WINDOW ACCORDING TO STATE CHANGE OF OUTDOOR ROOM}

The present invention relates to an automatic opening/closing system for a ventilation window according to a change in the state of the outdoor unit room, and automatically opens and closes the ventilation window of the outdoor unit room provided in buildings including apartments and offices as the outdoor unit of the air conditioner operates. The present invention relates to an automatic opening/closing system for a ventilation window having an outdoor unit interlocking structure capable of smoothly and safely opening and closing a ventilation window by accurately detecting whether the outdoor unit is operated according to a wind and temperature change according to the operation of the outdoor unit.

In general, when an air conditioner, for example, an air conditioner, is installed in buildings such as apartments, row houses, multi-family houses, officetels, and offices, the outdoor unit is installed outside the building. However, by installing an outdoor unit that is a heavy object outside the building, it not only hurts the aesthetics, it is difficult to install, and there is a risk that a major accident may occur if it falls due to an external shock.

Accordingly, in recent years, an outdoor unit room is separately provided inside a building, and when an air conditioner is installed, an outdoor unit is installed in the outdoor unit room. In this case, a ventilation window (for example, a louver device) is installed in the outdoor unit room. However, the louver device provided in the existing ventilation window is manually installed, and when the air conditioner is operated, the user must go to the place where it is installed and operate the handle provided on the louver device, which is not only inconvenient in use, but also does not open the louver device when operating the air conditioner If not, the hot air in the outdoor unit room cannot be discharged, resulting in a fire of the outdoor unit or a malfunction of the compressor inside the outdoor unit, and various problems may occur.

As a prior art for solving this problem, Korean Patent Registration No. 10-1550157 (announcement date: 2015.09.03) has been disclosed. As shown in Figure 1, the automatic louver system of the air conditioner outdoor unit according to the prior art is installed inside the building, so that the inside and outside communicate with the outlet front wall 4 of the air conditioner outdoor unit 2 with a built-in fan. It consists of a base frame 10 fixedly installed, and a motion sensor to detect the fan operation of the air conditioner outdoor unit 2 or a vibration sensor that is mounted on the upper part of the air conditioner outdoor unit 2 and detects vibration generated when the fan is operated. The sensing means 20 and the louvers 30 which are respectively coupled and rotated on a plurality of rotation shafts 31 axially coupled in the inner horizontal direction of the base frame 10, and may be operated manually, and the louvers ( The opening/closing means 40 connected to the rotating shaft 31 of the 30) to open/close the louver 30, and when the air conditioner is detected by the detection means 20, the opening/closing means 40 is driven to drive the louver ( It includes a controller 70 to open 30).

According to the automatic louver system of such an outdoor unit of an air conditioner, the sensing means senses the operation of the outdoor unit fan and opens the louver, so that hot air generated from the outdoor unit can be easily discharged to the outside.

However, the automatic louver system according to the prior art has a problem in that it is difficult to accurately detect the fan operation of the outdoor unit because it is configured to detect the operation of the fan of the outdoor unit with a vibration sensor or a motion sensor. That is, the vibration detection sensor has a malfunction in that the controller opens the opening/closing means by sensing vibrations generated by the outdoor unit fan as well as vibrations generated by the operation of the outdoor unit fan as the operation of the outdoor unit fan.

On the other hand, as another prior art, Korean Patent Registration No. 10-0502067 (announcement date: 2005.07.25) discloses an air conditioner grill automatic opening/closing apparatus using an air switch system. The air conditioner grill automatic opening/closing device is configured to open the louver based on the detection of the flow of exhaust air generated from the fan of the air conditioner outdoor unit.

However, the air conditioner grill automatic opening/closing device of this structure is difficult to accurately detect (switch) the air flow generated by the operation of the outdoor unit when the air discharge direction of the fan and the direction of the louver device do not coincide with each other due to the structure of the outdoor unit room. There was a problem with the door.

Of course, this problem could be solved by attaching the detector to the outdoor unit, but in this case, there was an inconvenience of attaching the detector to the outdoor unit and then connecting it to the grill driving cylinder provided in the louver device (opening and closing room grill) by wire or wirelessly. , There was a problem that difficulties in construction occurred.

. . Korean Patent Registration No. 10-1550157 (Announcement date: 2015.09.03) . . Korean Patent Registration No. 10-0502067 (Announcement date: 2005.07.25)

An object of the present invention is to provide a means for automatically opening and closing a ventilation window by accurately detecting an internal temperature of an outdoor unit room and whether an outdoor unit of an air conditioner is operating.

Another object of the present invention is to provide a means for automatically opening and closing the ventilation window by accurately detecting the flow of air generated by the operation of the outdoor unit even if the outdoor unit and the ventilation window do not face each other due to the structure of the outdoor unit room.

Another object of the present invention is to provide a means for adjusting the opening angle of a louver forming a ventilation window based on the flow direction of air generated by the operation of the outdoor unit, the temperature of the outdoor unit room, and whether rainwater is detected.

Another object of the present invention is to provide a means for preventing safety accidents and damage to the opening and closing device by stopping rotation of the louvers or blocking power transmission when a body or foreign substance is caught between the louvers of a ventilation window.

In addition, the problem to be solved by the present invention is not limited to the technical problems mentioned above, and other technical problems that are not mentioned are clearly to those of ordinary skill in the technical field to which the present invention belongs from the following description. It will be understandable.

The above object is to automatically open and close a ventilation window installed on a wall of an outdoor unit room in which an outdoor unit of an air conditioner is installed, according to the present invention. A louver opening/closing part for opening and closing the louvers with a plurality of louvers installed between the window frames to open, a link member connecting each of the louvers, and a driving part for operating the link member controlled by a control unit Including, wherein the control unit, the wind detection signal detected by the outdoor unit operation detection means installed on the window frame facing the outdoor unit room, vibration detected by the vibration detection sensor for detecting the vibration generated by the operation of the outdoor unit It is configured to determine whether or not the louver is opened or closed based on one or more detection signals of a signal and a temperature detection signal detected by a temperature detection sensor for sensing the temperature of the outdoor unit room, and the driving unit includes an accommodation space formed therein and a cover A gearbox having a; A drive motor provided outside the gearbox; A plurality of reduction gears configured to reduce the rotational force of the drive motor, each installed between the gearbox and the cover, and made of spur gears; A gear tooth is provided on an outer circumferential surface so as to mesh with the reduction gear, coupled between the gear box and the cover by a rotating shaft penetrating the gear box, and elastically supported in the direction of the gear box by a spring installed between the cover. A second clutch having a second friction surface formed on one surface in a direction toward the gearbox; A first clutch having a first friction surface in close contact with the second friction surface formed on a surface facing the second friction surface, and a switching protrusion protruding from the opposite surface; And a stop switch installed on both sides of the gearbox with the rotation shaft interposed therebetween so as to generate a stop signal by being touched by the switching protrusion when the first clutch rotates at an angle of 90°, the The rotational speed of the driving motor is reduced by each of the reduction gears, and when a load is applied to the rotation shaft due to a body or foreign substance being caught between the louvers, or when the louvers are rotated for manual opening and closing, the second clutch is applied to the spring. It is achieved by an automatic opening/closing system for a ventilation window according to a change in a state of an outdoor air chamber, characterized in that a slip is generated on the first friction surface and the second friction surface by overcoming the elasticity of and the rotational force transmission is blocked.

The outdoor unit operation detection means is formed at one end of a fixed type or at both ends, and a fixed end formed at one end or both ends is fixed to the window frame, and the installation end formed at the other end or the middle portion is in a region facing the discharge port of the outdoor unit A support fixed to a position selected by a position variable means so as to be positioned; And it is configured to generate an electric signal while being switched or rotated while the position is changed by the wind generated from the outdoor unit, is connected to the control unit by wire or wireless, and detects 1 to 5 winds provided at the installation end. Including a member, wherein the position variable means is made of a screw for fixing the fixed end to the window frame, or is formed to have a length shorter than or equal to the length of each side of the window frame, and a guide groove is formed in the longitudinal direction A guide rail member coupled to the window frame; The fixed end is coupled to one end, a fastening hole is formed in the center, a moving body inserted into the guide groove and installed to be movable in the longitudinal direction; And a first position fixing bolt that is fastened with the fastening hole to fix the position of the moving body through tightening and loosening operations.

The wind sensing member may include a case coupled to the installation end so as to be movable in a longitudinal direction; And a second position fixing bolt for fixing the position of the case while being fastened while penetrating a portion of the case to press the installation end.

The control unit includes the outer end of the louver when the detection signal detected by the wind detection member is an outdoor unit operation detection signal, and the detection signal detected by a rainwater detection sensor for detecting rainwater installed outside the ventilation window is a rainwater detection signal. It is possible to adjust and control the opening angle of the louver so as to incline downward.

According to the present invention, since an operation detecting means capable of changing the position of the window frame is provided, it is possible to provide an effect of automatically opening and closing the ventilation window by accurately detecting whether the outdoor unit is operating even if the outdoor unit and the ventilation window do not face each other accurately.

In addition, a plurality of wind detection members of the outdoor unit operation detection means are installed to detect the flow direction of the air generated by the operation of the outdoor unit, so that the opening angle of the louver can be adjusted, and thus the air in the outdoor unit room can be smoothly discharged. It can provide an effect that can be made.

In addition, by detecting rainwater in rainy weather and controlling the opening angle of the louver based on this, it is possible to provide an effect of blocking rainwater from entering the outdoor air chamber by opening the louver downward in rainy weather.

In addition, by sensing the internal temperature of the outdoor unit room and controlling the opening angle of the louver based on this, an effect of preventing an outdoor unit fire due to high temperature can be provided.

In addition, since the clutch is provided in the driving part, the rotational force of the driving motor is blocked by the clutch when the body is caught or foreign substances are caught between the louvers, thereby preventing safety accidents such as injury to the body and preventing damage to components. In addition to being able to, it is possible to provide an effect of manually opening and closing the louver.

1 is a schematic configuration diagram showing an opening and closing device according to the prior art.
2 is an exploded perspective view showing an automatic opening/closing system for a ventilation window according to a state change of an outdoor air chamber according to the first embodiment of the present invention.
3 is a perspective view illustrating a combined state of the automatic opening/closing system for a ventilation window according to a state change of the outdoor air chamber shown in FIG. 2.
4 and 5 are schematic plan and side views for explaining the operation of the outdoor unit operation detection means shown in FIG. 2.
6 to 8 are views showing the driving unit shown in FIG. 2, FIG. 6 is an exploded perspective view, FIG. 7 is a cross-sectional view in a combined state, and FIG. 8 is an internal view showing a combined state.
9 is a plan cross-sectional view showing another embodiment of the support shown in FIG. 2.
10 is a schematic cross-sectional view showing another embodiment of the clutch shown in FIG. 7.
11 is a schematic block diagram illustrating an automatic opening/closing system for a ventilation window according to a state change of an outdoor air chamber according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in describing the present invention, descriptions of functions or configurations that are already known will be omitted in order to clarify the gist of the present invention.

In addition, terms used in the present specification are for describing exemplary embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used in the specification, "comprises" and/or "comprising" does not exclude the presence or addition of one or more other components.

In the accompanying drawings, FIG. 2 is an exploded perspective view showing an automatic opening/closing system for a ventilation window according to a state change of an outdoor air chamber according to a first embodiment of the present invention, and FIG. 3 is an exploded perspective view showing a ventilation window according to a state change of the outdoor air chamber shown in FIG. A perspective view of an automatic opening/closing system in a coupled state, and FIGS. 4 and 5 are schematic plan and side views for explaining the operation of the outdoor unit operation detection means shown in FIG. 2. And, Figures 6 to 8 are views showing the driving unit shown in Figure 2, Figure 6 is an exploded perspective view, Figure 7 is a cross-sectional view of a coupled state, Figure 8 is an internal view representing the coupled state, Figure 11 It is a schematic block diagram for explaining an automatic opening/closing system for a ventilation window according to a state change of an outdoor air chamber according to the present invention.

As shown in FIGS. 2 to 8 and 11, the automatic opening/closing system 100 for a ventilation window according to a state change of the outdoor air chamber according to the present invention includes an outdoor air chamber in which the outdoor unit A1 of the air conditioner A is installed. It is for automatically opening and closing the ventilation window 110 installed on the wall of (S).

Such an automatic opening/closing device includes a plurality of louvers 132 installed between the window frames 120 to close the ventilation holes 112 by rotating overlapping each other and open the ventilation holes 112 by rotating unfolded, and each louver A louver opening/closing unit for opening and closing the louvers 132 by providing a link member 134 connecting the 132 and a driving unit 310 for operating the link member 134 by being operated and controlled by the control unit 400 300).

Each of the above-described louvers 132 is a window frame 120 or a separate bracket installed in the middle, and the driving unit 310 rotates the rotation shaft of any one louver 132 connected to each other by a link member 134 Or, if any one of the louvers 132 is rotated, all the louvers 132 connected to each other by the link member 134 are simultaneously open-rotated or closed-rotated at a predetermined angle. As such, a structure for simultaneously opening and closing the louvers 132 through the link member 134 is known, so a detailed description thereof will be omitted.

In addition, a manual switch 140 for manually opening and closing each louver 132 at the same time may be installed with a handle on the window frame 120. When the handle of the manual switch 140 is operated, it is possible to manually open and close even when power is applied to the driving unit 136, which will be described later in detail.

On the other hand, the window frame 120 facing the outdoor unit room (S) is provided with an outdoor unit operation detection means 200 for automatically opening and closing the driving unit 136 by detecting wind generated when the outdoor unit A1 is operated. do.

The outdoor unit operation detection means 200 is configured to variously change the wind detection position for determining whether the outdoor unit A1 is operated, and is formed in a "[" shape at both ends and fixed ends 212 formed at both ends. ) Is fixed to the indoor side of the window frame 120, and the installation end 214 formed in the middle is located in an area facing the discharge port A2 of the outdoor unit A. It is configured to generate an electric signal while being switched or rotated while the position is changed by the fixed support 210 and the wind generated from the outdoor unit A1, and is connected to the control unit 400 by wire or wirelessly, and the support ( It includes one to five wind detection members 220 provided at the installation end 214 of the middle portion of 210). Here, when the support 210 is fixed at both ends, it is preferable that the installation end 214 is dividedly configured to facilitate coupling with the wind detection member 220.

It will be described in more detail.

2 to 5, the position variable means is formed to have a length shorter than or equal to the length of each side of the window frame 120, and a guide groove 232 is formed in the longitudinal direction to the window frame 120 A guide rail member 230 coupled to the guide rail member 230 and a fixed end 212 are coupled at one end, a fastening hole 216A is formed in the center, and a moving body inserted into the guide groove 232 so as to be movable in the longitudinal direction It consists of a first position fixing bolt (216B) for fixing the position of the moving body 216 by tightening and tightening operation (216) and the fastening hole (216A). At this time, the guide rail member 230 may be installed in the horizontal direction upper and lower portions of the window frame 120 or in the left and right vertical directions, respectively.

Accordingly, when the position of the moving body 216 is determined while being inserted into the guide groove 232, the position of the support body 210 may be fixed by tightening the first position fixing bolt 216B. That is, if the moving body 216 is inserted into the guide groove 232 and the first positioning bolt 216B is tightened, the end of the first positioning bolt 216B presses the inner surface of the guide groove 232 The position of the moving body 216 may be fixed.

On the other hand, although not shown in the drawing, the position variable means according to another embodiment may be made of a screw for directly fixing the fixing end 212 to the window frame 120, and the moving body 216 to the window frame 120 It may be made of screws or bolts to fix.

And, as shown in FIG. 8, the support 210 according to another embodiment may be formed in a cantilever structure. That is, as a fixed type, the fixed end 212 is formed at one end, and the wind sensing member 220 is disposed at the installation end 212B bent in a "a" shape at the fixed end 212 in the longitudinal direction of the installation end 212B It can be installed to be movable. At this time, the fixing end 212 moves in the longitudinal direction while the moving body 216 having the first position fixing bolt 216B is inserted into the guide groove 232 of the guide rail member 230 as described above. Alternatively, the position may be fixed by the first position fixing bolt 216B, and the fixed end 212 or the moving body 216 may be configured to be directly coupled to the window frame 120 by screws or bolts.

In addition, the outdoor unit operation detection means 200 is configured to generate an electric signal while being switched or rotated while the position is changed by the wind generated from the outdoor unit A1, and is connected to the control unit 400 by wire or wirelessly. , It includes one to five wind detection members 220 provided at the installation end 214 of the intermediate portion of the support 210.

The wind sensing member 220 is configured to generate an electric signal while being switched or rotated while the position is changed by the wind generated from the outdoor unit A1. It will be described on the basis of what is configured to generate an electrical signal. This wind sensing member 220 has a structure similar to a conventional generator, wind pressure meter, or anemometer, and is satisfied if it is configured to generate an electrical signal as the rotor blade rotates. The electric signal generated by the wind detection member 220 is input by the control unit 400 as an operation detection signal of the outdoor unit A1.

On the other hand, the wind detection member 220 further includes a configuration that is movably coupled to the installation end 214 of the support 210 in the longitudinal direction of the installation end 214. That is, as shown in Figs. 2 and 3, the case 222 is coupled to the installation end 214 so as to be movable in the longitudinal direction, and the installation end 214 is fastened while passing through a part of the case 222 It further includes a second position fixing bolt 224 for fixing the position of the case 222 while pressing. With such a structure, the wind sensing member 220 can be positioned not only in the longitudinal direction of the installation end 214, but also can be fixed in position by the tightening operation of the second positioning bolt 224. That is, the position of the wind detection member 220 can be variously changed and fixed.

On the other hand, the driving unit 310 for opening and closing the louver opening and closing unit 300, as shown in Figs. 2 and 7, 8, a gearbox 312A having an accommodation space formed therein and a cover 312B Wow, the drive motor 312 provided on the outside of the gearbox 312A and configured to reduce the rotational force of the drive motor 312 are respectively installed between the gearbox 312A and the cover 312B, spur gear A plurality of reduction gears 314 consisting of, and a gear tooth 316A on the outer circumferential surface so as to mesh with the final reduction gear 314 penetrates the gearbox 312A and is rotated supported by the bearings (B). It is coupled between the gearbox 312A and the cover 312B by the rotation shaft 311, and is elastically supported in the direction of the gearbox 312A by a spring 316B installed between the gearbox 312A, and the gearbox On one side in the direction toward (312A), a second clutch 316 in which four locking protrusions 316C protrude at a 90° angle, and locking grooves 318A for selectively inserting and engaging the locking protrusions 316C are provided. When facing the second clutch 316, the first clutch 318 and the first clutch 318 are formed in a number corresponding to the locking protrusions 316 on the opposite surface, and the switching protrusion 38B protrudes on the opposite surface. Includes a stop switch (SW) installed on both sides of the gearbox 312A with the rotation shaft 311 interposed therebetween so as to generate a stop signal by being touched by the switching protrusion 318B when rotated at an angle of 90° It is composed of. At this time, the rotation shaft 311 engages and is integrated with the first clutch 318 and does not engage with the second clutch 316. Therefore, the rotational force transmitted from the reduction gears 314 to the second clutch 316 rotates the second clutch 316, and the rotational force of the second clutch 316 is with the locking protrusions 316C of FIGS. It is transmitted by the locking of the locking groove 318A, or is transmitted by the frictional force of the friction surfaces 316D and 318C on both sides as shown in FIG. 9. Here, the locking protrusion 316C is formed to be curved in an arc shape or a hemispherical shape, and the locking groove 318A is also formed to be curved in an arc shape or a hemispherical shape. This is to ensure that the locking protrusion 316C is smoothly inserted or separated from the locking groove 318A.

In this embodiment, the reduction gears 314 are composed of approximately five, but are not limited thereto, and may be composed of a smaller number or a larger number. In this way, the reduction gears 314 are configured as spur gears so that when manual manipulation such as forcibly rotating the louver 132 occurs, the rotation shaft 311 meshed with the shaft of the drive motor 312 is rotatable. This is to facilitate manual operation.

The stop switch SW is installed on both sides with the rotation shaft 311 interposed therebetween, and when rotated at a predetermined angle of the rotation shaft 311, for example, 90°, the switching protrusion 318B (a type of limit switch) It is touched by and generates a stop signal. That is, when an electrical signal is generated from the stop switch SW, the control unit 400 stops the driving motor 312.

The number of rotations of the drive motor 312 of the driving unit 310 configured as described above is decelerated by the respective reduction gears 314, and a load is applied to the rotation shaft 311 due to a body or foreign matter being caught between the louvers 132 or , When rotating for manual opening and closing of the louver 132, the second clutch 316 moves backward while overcoming the elasticity of the spring 316B, and the locking protrusions 316C are separated from the locking grooves 318A to block the transmission of rotational force. Can be.

As described above, the locking protrusions 316C are formed of four and are arranged at 90°, so that noise in which each of the locking protrusions 316C is inserted into the locking grooves 318A can be minimized. That is, since the four locking protrusions 316C and the four locking grooves 318A are inserted or separated only at the 90° position, noise due to insertion and separation can be minimized.

Meanwhile, as shown in FIG. 10 of the accompanying drawings, the driving unit 310 according to another embodiment has a second friction surface 316D on one surface of the second clutch 316 in a direction toward the gearbox 312A. Is formed, and the first friction surface 318C in close contact with the second friction surface 316D is formed on a surface facing the second friction surface 316D of the first clutch 318. Is the same as At this time, a member (such as asbestos or metal plate) for increasing the frictional force may be coupled to the first and second friction surfaces 318C and 316D.

In this way, the first and second friction surfaces 318C and 316D are formed on the first clutch 318 and the second clutch 316, so that a load is applied to the rotation shaft 311 due to the body or foreign matter being caught between the louvers 132. Or, when the louver 132 is rotated for manual opening and closing, the second clutch 316 moves backward while overcoming the elasticity of the spring 316B and slips on the first friction surface 318C and the second friction surface 316D. As the rotational force transmission is blocked, the manual opening and closing operation of the louvers 132 is possible. In particular, even if the body is caught between the louvers 132, the first and second friction surfaces 318C and 316D cause slip, so the body Can be prevented, and thus safety accidents can be prevented in advance, and since slip occurs between the first and second friction surfaces 318C and 316D, noise generation may or may not be minimized.

On the other hand, the control unit 400 is for driving control of the driving unit 310, from the vibration detection sensor (S1) for detecting the operation of the outdoor unit (A1) by detecting the vibration generated by the operation of the outdoor unit (A1). The detected vibration detection signal, the detection signal detected by the temperature detection sensor S2 for detecting the temperature of the outdoor unit room S, and the wind detection signal according to the operation of the outdoor unit A1 detected by the wind detection member 220 It may be configured to determine whether the louver 132 is opened or closed and/or an opening angle of the louver 132 based on the.

At this time, the control unit 400 is provided with a vibration detection sensor (S1) and a temperature detection sensor (S2) together, based on the detection signal sensed by the vibration detection sensor (S1) and the temperature detection sensor (S2) of the louver (132). It may be configured to control whether or not to open and close and/or the opening angle, and to control whether or not to open and close the louver 132 and/or the opening angle based on the temperature detection signal of the outdoor air chamber (S) detected by the temperature sensor (S). It may be configured, and the temperature detection signal of the outdoor unit room (S) detected by the temperature sensor (S) and the wind detection member 220 that detects wind generated by the operation of the outdoor unit (A-1) detects the wind. It may be configured to control whether or not the louver 132 is opened or closed and/or the opening angle based on the signal.

In this way, it is determined whether the louver 132 is opened or closed and/or the opening angle based on the state change of the outdoor unit room S together with the wind detection member 220, that is, temperature change, vibration change, and/or wind generation. By controlling and controlling the operation of the outdoor unit A1, it is possible to more accurately determine whether the outdoor unit A1 is operating, and respond (determine whether the louver is opened or closed).

In addition, the control unit 400, the detection signal detected by the wind detection member 220 is an outdoor unit operation detection signal, and is installed outside the ventilation window 111 to detect the rainwater detection sensor (S3) for detecting rain. When the signal is a rainwater detection signal, it may be configured to adjust and control the opening angle of the louver 132 so that the outer end of the louver 132 inclines downward. In this way, even if the outdoor unit A1 is operated and the louver 132 is opened in rainy weather, the opening angle of the louver 132 is inclined downward so that rainwater does not flow into the outdoor unit room S.

Meanwhile, as shown in FIG. 11, the control unit 400 may further include a receiver 410 for receiving an operation status signal from the air conditioner operation remote control A3 that controls the air conditioner A. Accordingly, the control unit 400 may operate and control the driving unit 310 of the louver opening/closing unit 300 based on an operation signal (operation status) of the air conditioner operation remote control A3 received by the receiver 410. Of course, even in this case, the control unit 400 receives detection signals such as a temperature sensor (S1), a rainwater sensor (S3), and a wind sensor (220), together with an operation signal of the air conditioner operation remote controller (A3). By configuring to determine whether the outdoor unit A1 is operating, the accuracy of determining whether the outdoor unit A1 is operating can be improved.

The automatic opening/closing system for a ventilation window according to a change in the state of the outdoor air chamber according to the present invention configured as described above has the following characteristics.

As shown in Figs. 2 to 11, wind generated when the outdoor unit A1 is operated on both or either side of the window frame 120 exposed to the outdoor unit room (S), or at the top or bottom or either side is detected. Thus, by providing the outdoor unit operation detection means 200 for automatically opening and closing the driving unit 136, it is possible to accurately grasp whether the outdoor unit A1 is operated.

In particular, the position of the wind sensing member 220 installed on the support 210 by the position variable means can be arbitrarily changed to a position facing the outdoor unit A1, and each installed at the installation end 214 Since the position of the wind detection member 220 of the can be randomly changed, the outdoor unit A1 and the ventilation window 110 are not installed so as to face each other accurately, the outdoor unit A1 ) By accurately detecting the wind generated from the outdoor unit (A1), it is possible to open and operate each louver 132 at the same time. In addition, since the wind detection member 220 may be formed in plural, the wind generated from the outdoor unit A1 may be more accurately detected, and the direction of the wind may be sensed.

On the other hand, in the case of manual opening and closing of the louver 132, when the handle of the manual switch 140 is operated, the manual opening and closing rotational force is applied to the first clutch 318 and the second clutch through the rotation shaft 311 of the driving unit 310. Since it is transmitted to 316 and transmitted to the reduction gear 314 made of spur gears, the rotation of the rotation shaft 311 is made, and thus the manual opening and closing of the louver 132 is possible.

In addition, when the manual opening and closing rotational force is transmitted to the first clutch 318 through the rotation shaft 311 of the driving unit 310, the second clutch 316 overcomes the elasticity of the spring 316B and makes it backward (moves toward the cover). Therefore, the locking projection (316C) is separated from the locking groove (318A), or slip occurs in the first and second friction surfaces (318C, 316D), and thus the transmission of rotational force between the first and second clutches (316,318) is blocked, Manual opening and closing of 132 becomes possible.

In addition, when the body is caught between the louvers 132 during the opening and closing operation of the louver 132, the rotational force of the driving motor 312 is transmitted to the second clutch 316 through the reduction gear 314, but the rotation shaft ( Since the first clutch 318 engaged with 311 does not rotate, the second clutch 316 is reversed while overcoming the elasticity of the spring 316B, and the locking protrusion 316C is separated from the locking groove 318A or , Slip occurs in the first and second friction surfaces 318C and 316D. Therefore, transmission of rotational force between the first and second clutches 316 and 318 is blocked, and thus, pressure is not applied to the body sandwiched between the louvers 132, thereby preventing injury to the body.

Meanwhile, when the outdoor unit A1 is operated and the louver 132 is opened in rainy weather, the control unit 400 tilts the louvers 132 downward based on the rainwater detection signal detected by the rainwater detection sensor S3. By opening, rainwater does not flow into the outdoor unit room (S).

In the above, although specific embodiments of the present invention have been described and illustrated, the present invention is not limited to the described embodiments, and various modifications and variations can be made without departing from the spirit and scope of the present invention. It is self-evident to those who have Therefore, such modifications or variations should not be individually understood from the technical spirit or point of view of the present invention, and the modified embodiments should be said to belong to the claims of the present invention.

100: automatic opening and closing device 110: ventilation window
132: louver 200: outdoor unit operation detection means
210: support 220: wind detection member
230: guide rail member 300: louver opening and closing part
310: drive unit 311: rotation shaft
312: drive motor
314: reduction gear 316: second clutch
316B: spring 318: first clutch
400: control unit 410: receiver
S: outdoor unit room A: air conditioner
A1: Outdoor unit S1: Vibration sensor
S2: Temperature sensor S3: Rainwater sensor

Claims (4)

This is to automatically open and close the ventilation window installed on the wall of the outdoor unit room where the outdoor unit of the air conditioner is installed.
A plurality of louvers installed between the window frames to rotate overlapping each other to close the ventilation hole and open the ventilation hole to open the ventilation hole, a link member connecting each of the louvers, and the link member being operated and controlled by a control unit It includes a louver opening and closing portion for opening and closing the louvers with a driving unit for operating,
The control unit,
A wind detection signal detected by an outdoor unit operation detection means installed on the window frame facing the outdoor unit room, a vibration detection signal detected from a vibration detection sensor for detecting vibration generated by the operation of the outdoor unit, and the temperature of the outdoor unit room It is configured to determine whether the louver is opened or closed based on any one or more of the temperature detection signals detected by the temperature detection sensor for detection,
The driving unit,
A gearbox having an accommodation space formed therein and a cover;
A drive motor provided outside the gearbox;
A plurality of reduction gears configured to reduce the rotational force of the drive motor, each installed between the gearbox and the cover, and made of spur gears;
A gear tooth is provided on an outer circumferential surface so as to mesh with the reduction gear and is coupled between the gear box and the cover by a rotation shaft penetrating the gear box, and is elastically supported in the direction of the gear box by a spring installed between the cover. A second clutch having a second friction surface formed on one surface of the gearbox in a direction toward the gearbox;
A first clutch having a first friction surface in close contact with the second friction surface formed on a surface facing the second friction surface, and a switching protrusion protruding from the opposite surface; And
When the first clutch rotates at an angle of 90°, it includes stop switches installed on both sides of the gearbox with the rotation shaft interposed therebetween so as to generate a stop signal by being touched by the switching protrusion,
The rotational speed of the driving motor is reduced by each of the reduction gears, and when a load is applied to the rotation shaft due to a body or foreign substance being caught between the louvers, or when rotating the louvers for manual opening and closing, the second clutch It is characterized in that the slip is generated on the first friction surface and the second friction surface by reversing while overcoming the elasticity of the spring, so that the transmission of rotational force is blocked,
Automatic opening/closing system for ventilation windows according to changes in outdoor air room conditions The method of claim 1,
The outdoor unit operation detection means,
A fixed end formed at one end or both ends fixed to the window frame is fixed to the window frame, and the installation end formed at the other end or the middle is positioned in a region facing the discharge port of the outdoor unit by a position variable means. A support fixed to a selected position; And it is configured to generate an electric signal while being switched or rotated while the position is changed by the wind generated from the outdoor unit, is connected to the control unit by wire or wireless, and detects 1 to 5 winds provided at the installation end. Including absence,
The position variable means,
Consisting of a screw for fixing the fixing end to the window frame,
A guide rail member formed to have a length shorter than or equal to the length of each side of the window frame and formed with a guide groove in a longitudinal direction to be coupled to the window frame; At one end, the fixed end is coupled, a fastening hole is formed in the center, and a moving body inserted into the guide groove and installed to be movable in the longitudinal direction; And a first position fixing bolt for fixing the position of the moving body by tightening and loosening operation by being fastened with the fastening hole,
Automatic opening/closing system for ventilation windows according to changes in outdoor air room conditions. The method of claim 2,
The wind detection member,
A case coupled to the installation end so as to be movable in a longitudinal direction; And
It characterized in that it further comprises a second position fixing bolt for fixing the position of the case while being fastened while penetrating a part of the case to press the installation end,
Automatic opening/closing system for ventilation windows according to changes in outdoor air room conditions. The method according to claim 2 or 3,
The control unit,
When the detection signal detected by the wind detection member is the outdoor unit operation detection signal, and the detection signal detected by the rainwater detection sensor installed outside the ventilation window to detect rainwater is the rainwater detection signal, the outer end of the louver is inclined downward. Characterized in that for controlling the opening angle of the louver so as to be controlled,
Automatic opening/closing system for ventilation windows according to changes in outdoor air room conditions.

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