KR20210143523A - Automatic Opening and Closing ventilation window of Shape Memory Alloy Spring Actuator With Outdoor Ventilation - Google Patents

Abstract

The present invention relates to a multi-grill type ventilation window installed in an outdoor unit chamber which is a space partitioned in a building like an apartment to discharge, to the outside, wind heat-exchanged in an outdoor unit when an air conditioner is operated. More specifically, the present invention provides a ventilation window linked with actuation of an outdoor unit and automatically opening and closing a plurality of grill windows, in which a bias spring is coupled and assembled to a shape memory spring via a linking body, rotating when a plurality of louvers are opened and closed in link therewith, wherein the shape memory spring memorizes temperature and returns to an original shape and the bias spring closes the louvers by allowing a driving force, for automatically opening and closing the ventilation window in the outdoor unit chamber, to overcome a load required when the shape memory spring is inverse-transformed at normal temperature, and a heating body, which generates heat if power is supplied, is coupled in contact with a coil of the shape memory spring, to operate an actuator according to whether the outdoor unit is actuated by means of a power supply means supplying and blocking electricity, thereby automatically opening and closing the louvers in link therewith.

Description

Automatic Opening and Closing ventilation window of Shape Memory Alloy Spring Actuator With Outdoor Ventilation

The present invention relates to a plurality of grill-type ventilation windows installed in an outdoor unit room of a partitioned space in a building such as an apartment and discharging heat exchanged from an outdoor unit to the outside when an air conditioner is operated. It relates to a ventilation window that automatically opens and closes.

The air-cooled outdoor unit in the outdoor unit should discharge the heat-exchanged high-temperature air to the outside when the air conditioner is operating to exhibit the performance of the outdoor unit and prevent overheating.

According to the above, the ventilation window installed in the outdoor unit room has a structure in which a plurality of louvers (grill windows) are installed on a quadrangular window frame with a rotating shaft passing through the frame, and then the linkage that restrains a pair of elevators is coupled to the rotating shaft, and one louver opens and closes. It is composed of a ventilation window that opens and closes by interlocking multiple louvers.

In the ventilation window as described above, there is a method of manually opening and closing the louver by manipulating the manual handle that is connected to the interlocking body and protrudes out of the frame like the commercially available ones. There are problems such as overheating of the outdoor unit room and lowering the performance of the outdoor unit due to missed time. Unlike the manual opening and closing type ventilation windows, there are ventilation windows that automatically open and close the louvers electrically using power, but there are ventilation windows that automatically open and close the louvers using power, that is, mechanical As the device is assembled and assembled with many parts such as motors, reduction gear devices, adapters, and circuit board remote controls, the manufacturing cost increases and the economic feasibility decreases. There is a problem that

In addition to the above, ventilation windows should be installed in the outdoor unit room and, in principle, should be used by opening the louver when the air conditioner is operating, and closing the louver when the air conditioner is stopped depending on the purpose and purpose of use. If the louver is open when the air conditioner is not in use, there is a problem that not only fine dust, yellow sand, but also rainwater and insects enter the room, and there is a problem that causes heating loss in winter.

Therefore, in recent electric opening/closing ventilation windows, a detection sensor that detects noise, vibration, or known things from the outdoor unit is installed near the ventilation window to detect the operation of the outdoor unit when the air conditioner is running or stopped. When stopped, the ventilation window is operated with a configuration that closes the louver.

However, when the heat exchange wind of the outdoor unit is discharged from the partitioned outdoor unit room to the outside, the air temperature in the outdoor unit room rises and maintains much higher than the outdoor air temperature while the heat exchange is performed in which the outside air flows back into the outdoor unit room by the volume of the exhausted air. . Therefore, the automatic opening and closing of the louver by the object detection sensor becomes a system that automatically closes the louver immediately regardless of the temperature of the outdoor unit room higher than the outdoor air when the air conditioner is stopped, so that the high temperature outdoor unit environment adversely affects indoor cooling There is a problem affecting

The present invention is configured to automatically open and close the louver with a driving force by means of a metal engineering material instead of the mechanical power device of the electric motor and its accessory elements, although the method of using the power supply for the automatic opening and closing means of the louver in the ventilation window of the outdoor unit is the same. It minimizes defect factors along with economic feasibility due to the structure, and by specifying the means for automatic power supply, the louver interlocks and automatically opens and closes depending on whether the outdoor unit is operating or not, providing convenience to residents, and the additional function by the metal engineering material is in operation while the air conditioner is in operation. When operation is stopped in the outdoor unit where the temperature has risen, the louver does not close immediately, but stays until the outdoor unit temperature is naturally ventilated to the outdoor temperature. It is an automatic opening and closing ventilation window linked to the outdoor unit of

The shape memory spring that remembers the temperature of the driving force that automatically opens and closes the ventilation window of the outdoor unit and returns to its original shape. When the power is supplied after the interlocking body that rotates and the coupling is combined, the heating element that generates heat is contacted and coupled to the shape memory spring coil to cut off the electricity supply. and opened and closed automatically.

The automatic opening and closing driving force of the louver in the ventilation window installed in the outdoor unit room and discharging the heat-exchanged wind generated from the operation of the outdoor unit to the outside has a simple structure, increasing economic feasibility, minimizing defects, providing convenience to users, and maintaining high temperature when using the air conditioner. It has the effect of maintaining the indoor cooling environment by adjusting the automatic closing time of the louver in the maintained outdoor unit room.

1 is an exploded perspective view showing a typical ventilation window structure;
Figure 2 is a cutaway cross-sectional view showing the power-type automatic opening and closing ventilation window of the present invention;
Figure 3 is a schematic diagram showing a power supply means to the ventilation window of the present invention

Hereinafter, with reference to the accompanying drawings, the embodiments of the present invention will be described in detail so that those of ordinary skill in the art to which the present invention pertains can easily implement them.

The present invention may be embodied in several different forms, and is not limited to the embodiments described herein. It is noted that the drawings are not schematically drawn to scale. Relative dimensions and proportions of parts in the drawings are exaggerated or reduced in size for clarity and convenience in the drawings, and any dimensions are illustrative only and not limiting. In addition, the same reference numerals are used to indicate like features to the same structure, element, or part appearing in two or more drawings.

The present invention is installed on the wall of an outdoor unit room partitioned in a residential building such as an APT or officetel, and when the air conditioner 17 is operated, the louver 13 is automatically opened to discharge high temperature wind when the outdoor unit 18 heats up, When the air conditioner 17 stops, it is configured as a system that automatically closes the louver 13, but the actuator that combines the shape memory spring (1) and the bias spring (2) uses electricity for the automatic opening and closing driving force of the louver 13 The purpose of the automatic opening and closing is to smoothly perform the above functions.

When the configuration of the ventilation window 11 for the outdoor unit is described in detail in order to achieve the above object, a quadrilateral manufactured by knitting a hollow quadrangular frame 12 like the previously known ventilation windows 11 of FIG. 1 . A plurality of louvers 13 on the inside of the window frame are equally spaced and overlapped with each other at the ends and installed, then the rotation shaft 14 provided at both ends of the louvers 13 and at the center of the height to rotate 90 ° passes through the frame 12 body and After that, the coupling rod formed in the front of the linkage body 16 provided so that the plurality of louvers 13 are constrained and interlocked is inserted into the hole of the pair of rod-shaped elevator 15 provided, and coupled with the rotating shaft 14 while being constrained. It has a structure in which the interlocking body 16 rotates together with the louver 13 around the rotating shaft 14 by the lifting platform 15 .

In the ventilation window 11 as described above, the plurality of louvers 13 are interlocked and stored in the selected interlocking body 16 among the interlocking bodies 16 that rotate when opening and closing, as shown in FIG. One end of the shape memory spring (1), which returns to its original shape at temperature, is fastened, and at low temperature (normal temperature), the coil pitch is widened to maintain the load generated at this time, and the opposite end of the shape memory spring (1) is The frame 12 is fixed to the lower wall with a fixing means 3, and at the same time, the shape memory spring 1 is fastened by selecting one of the interlocking body 16 or a plurality of interlocking bodies to which the shape memory spring 1 is at low temperature. When the coil is tensioned with the load generated when the reverse transformation is installed, it overcomes the reverse transformation load of the shape memory spring (1) and the bias spring (2), which is a tension coil spring with a load to keep the multiple louvers (13) closed. One end is coupled to the linkage body 16 and the opposite end is tensioned and fixed to the upper wall of the frame 12 by means of a fixing means 3 to automatically open and close the plurality of louvers 13 as an actuator of driving force.

As described above, when the interlocking body 16 is interposed and one end of the shape memory spring 1 and the bias spring 2 is coupled, the rotational torque of the linkage 16 is reduced and the shape memory spring is attached to the linkage 16 ( 1) and the bias spring (2) are equipped with a corresponding part to the linkage 16 so that the device can be easily installed as an actuator of a combination of the shape memory spring (1) and the bias spring (2).

At this time, the coil of the shape memory spring (1) is provided with a heating element (4) that generates heat close to or preferably connected to the shape memory spring (1). When supplied, heat is generated, convection or conduction to the connected shape memory spring (1) increases the temperature of the shape memory spring (1). The transformation starts to return to the original shape, and the tensile strength at this time includes the tensile load that the bias spring 2 has and the tensile load required when the bias spring 2 is further stretched by the rotation torque of the louver 13 Linkage body The louver 13 is automatically opened with a driving force that overcomes all the loads applied to the rotation torque of (16).

As described above, when the actuator of the shape memory spring (1) depending on the heating element (4) with electric energy automatically opens and closes the louver (13) with driving force, the ventilation window 11 of the present invention is the air conditioner 17 when the louver ( 13) is automatically opened, and the louver 13 is automatically closed when the air conditioner 17 stops operating.

At this time, the power supply means 7, which is characterized by supplying and blocking power to the heating element 4 compatible with the system as described above, includes the air conditioner 17 installed indoors and the outdoor unit 18 installed in the outdoor unit room. A wiring system, which is an element that is made to do work in interaction with each other, i.e.

When the air conditioner 17 starts operating, power is immediately transmitted to the outdoor unit 18 to operate the fan motor and compressor. When the air conditioner 17 stops operating, the power is cut off to stop the operation of the fan motor and compressor 18) The wiring 6 connected to the heating element 4 contacted to the shape memory spring 1 as shown in FIG. 3 by designating the annealed wire 5 that connects the The power supply means 7, which supplies and cuts power by the interlocking wire 5 along with whether the outdoor unit 18 is operated or not, interlocks with the operation of the air conditioner 17, and has a system in which the louver 13 automatically opens and closes.

In the above, in order to prevent the heating element 4 from overheating as time elapses and the temperature continues to rise, so that the shape memory spring 1 actuator also exceeds the critical temperature and the temperature rises more than necessary, a known temperature sensor, open/close switch circuit board The heating element 4 may be provided with a self-regulating member, such as.

In the above, when the use of the air conditioner 17 is stopped, the power is cut off by the annealing wire 5 connected to the outdoor unit 18, and the heating element 4 does not generate heat, so the actuator of the shape memory spring 1 loses its temperature. The shape memory spring 1 of the present invention is designed to be about the wind temperature (38 to 42 ℃) at which the heat exchange of the outdoor unit 18 is heat-exchanged under the transformation temperature condition by the heating element 4 of the present invention, while the air conditioner 17 is not maintained. During operation, the outdoor unit room temperature including the outdoor unit 18 rises, but when the heating element 4 stops working, the actuator continues to open the louver 13 due to the outdoor unit temperature condition higher than the transformation temperature, and then the outdoor unit room temperature is natural. When the temperature drops to the outside temperature with convection, the actuator also gradually lowers the temperature and closes the louver 13 while performing reverse transformation.

In the above, as another power supply means 7 for supplying power to the heating element 4 to achieve the purpose of interlocking the operation and stopping of the air conditioner 17 and automatically opening and closing the louver 13, it is connected to the shape memory spring 1 A power supply is wired to one heating element 4, and an object detection sensor like known ones for detecting vibration, noise, etc. of the outdoor unit 18 is provided to recognize whether the outdoor unit 18 is operating from the object detection sensor. Like the electrical and electronic systems of It is composed of a power supply means (7) that automatically opens and closes the louver (13) depending on whether the air conditioner (17) is operated.

The automatic opening and closing ventilation window 11 by the actuator of the shape memory spring 1 as described above is a well-known ventilation window ( It is natural that the manual handle for manual opening and closing configured in 11) may be provided in the ventilation window 11 in combination.

1. Shape memory spring 2. Bias spring 3. Fixing means
4. Heating element 5. Interlocking wire 6. Wiring
7. Power supply means
11. Ventilation window 12. Frame 13. Louver
14. Rotating shaft 15. Lifting platform 16. Linkage
17. Air conditioner 18. Outdoor unit

Claims (2)

In the interlocking body in which each of the plurality of louvers installed on the window frame are coupled with a pair of hoisting platforms and the rotating shaft is constrained and interlocked with a pair of elevators, a manual handle is provided and operated to manually open and close the louvers and combine them with a shape memory spring and a bias spring In the ventilation window that automatically opens and closes the louver,
Outdoor unit interlocking automatic opening and closing ventilation window of a power-type shape memory spring actuator, characterized in that the displacement of the shape memory spring of the automatic opening and closing is dependent on the heating element wired using an interlocking power supply between the air conditioner and the outdoor unit
The method of claim 1,
Automatic opening and closing ventilation window linked to the outdoor unit of the power-type shape memory spring actuator, characterized in that the displacement of the shape memory spring of the automatic opening and closing depends on the heating element wired according to the recognition of the detection sensor that detects the vibration and noise of the outdoor unit

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