KR102558402B1 - Thermo sensitivity automatic button unit and louver system using the same - Google Patents

Abstract

The present invention provides a button unit that is operated by itself when not only manually operated but also automatically senses the temperature of the room and is exposed to a certain temperature or higher, and a louver system that opens the louver of the louver system when the room temperature is higher than a certain temperature by using it to induce ventilation, thereby preventing fire in the room in advance.
A temperature response automatic button unit according to a preferred embodiment of the present invention includes a front button cap; a rear button cap screwed to the front button cap; an inner button disposed between the front button cap and the rear button cap and protruding out of the front button cap; a push button inserted into the rear button cap and protruding a certain amount to the outside; A shape memory alloy spring made of a shape memory alloy, disposed between the inner button and the push button, and expanding and expanding itself when exposed to a certain temperature or higher to protrude the inner button.

Description

Temperature responsive automatic button unit and louver system using the same {Thermo sensitivity automatic button unit and louver system using the same}

The present invention relates to a button unit that responds to temperature and a louver system using the same, and more particularly, to a button unit that operates by itself when a button is operated manually as well as automatically senses an indoor temperature and is exposed to a certain temperature or higher, and a louver system that opens a louver of the louver system when a certain temperature is detected using the button unit to induce ventilation, thereby preventing a fire inside the room.

In general, a louver is used as a way to reduce visual exposure to the outside, block sunlight, prevent inflow of rainwater in rainy weather, and ensure ventilation (ventilation) in places where a lot of ventilation is required.

There are fixed and rotating louvers, and fixed louvers are configured to be tilted at 45 ° to 50 °, and the inclination angle of the louver is applied differently depending on the purpose or situation in which it is installed. In the case of a rotating louver, it can be opened and closed, and due to its superior airtightness and airtightness according to use compared to a fixed louver, it is widely installed in places where boilers of apartments, officetels and residential-commercial buildings are installed or where the outdoor unit of an air conditioner is installed.

On the other hand, when the louver blade is opened and closed manually, the outdoor unit is exposed to dust or rainwater in many cases where the louver is open throughout the summer. Therefore, it is necessary to develop a safety device that responds to the current of the outdoor unit when the air conditioner is operating, opens the louver of the outdoor unit room, and allows heat to be discharged from the outdoor unit. When the current sensor is broken, the temperature sensor is activated so that the louver can be opened automatically when the temperature of the outdoor unit room rises.

The currently developed electrical induction device or temperature sensor operates electrically, and when a problem occurs in the electricity supply or electrical circuit, the opening of the louver is not made, resulting in an unreliable safety device.

As a background technology of the present invention, Korea Patent Registration No. 10-1552064 (Patent Document 1) proposes a 'ventilation window for both manual and automatic opening and closing of a louver'. In a ventilation window equipped with a manual opening/closing means for manually opening/closing a louver by operating a manual handle by fixing a manual handle to a pivoting shaft fixed to one of the pivoting links, and a shape memory spring and a return spring, the automatic opening/closing means for automatically opening/closing the louver, the displacement of the shape memory spring constituting the automatic opening/closing means is controlled outdoors. The louver is automatically opened and closed depending on the wind temperature of the fan, and the manual opening and closing means allows the position of the pivot shaft to be varied by manipulating the manual handle during manual opening and closing, and allows the pivot shaft to move freely during automatic opening and closing.

However, the background art has the advantage of using no power as a structure that opens the louver with only the displacement of the shape memory spring, whereas the shape memory spring has to have a larger expansion force than the return spring to open the louver. For example, it is difficult to have reliability that can open and operate the louver sensitively with only the rising temperature of the outdoor unit.

Korea Patent Registration No. 10-1552064

An object of the present invention is to provide a button unit that is operated by itself when not only manually operated but also automatically senses the temperature of the room and is exposed to a certain temperature or higher, and a louver system that opens the louver of the louver system when the room temperature is higher than a certain temperature using the button unit to induce ventilation, thereby preventing fire in the room in advance.

A temperature response automatic button unit according to a preferred embodiment of the present invention includes a front button cap; a rear button cap screwed to the front button cap; an inner button disposed between the front button cap and the rear button cap and protruding outward from the front button cap; a push button inserted into the rear button cap and protruding a certain amount to the outside; A shape memory alloy spring made of a shape memory alloy, disposed between the inner button and the push button, and expanding and expanding itself when exposed to a certain temperature or higher to protrude the inner button.

In addition, the front button cap is characterized in that it has a front button hole for protruding the inner button, and a female screw hole for fastening the rear button cap.

In addition, the rear button cap is characterized in that it has a male screw portion for screwing into the female screw hole of the front button cap, and a plurality of guide grooves for guiding the movement of the push button on the inner circumferential surface.

In addition, the inner button and the push button are characterized in that each has a guide protrusion that is slidably coupled to the guide groove of the rear button cap.

On the other hand, the louver system using the temperature-responsive automatic button unit according to the present invention is for automatically detecting the indoor temperature with the temperature-responsive automatic button unit to open the louver blade on the louver window frame side, a lever for unlocking that unlocks the closing lock of the operating lever by being pushed by the temperature-responsive automatic button unit while being hinged to the operating lever that operates the louver blade; It is characterized in that it includes an actuator for automatic opening that is connected to a hinge in which the control lever and the lever for unlocking are commonly connected to supply an operating force to the control lever.

In addition, the temperature response automatic button unit is characterized in that it is mounted in a box-type housing installed on the vertical frame side of the window frame side of the louver where the control lever is disposed.

According to the present invention, the temperature response automatic button unit can induce a mechanical starting operation by automatically pushing the internal button by expanding and expanding itself when the shape memory alloy spring automatically senses the temperature of the room and is exposed to a certain temperature or more. In addition, since it is not electrically operated, a separate power connection is not required, and the reliability of the button operation is high because it operates without power.

In addition, when the temperature response automatic button unit is applied to the louver system, when the indoor temperature is above a certain level, the temperature response automatic button unit operates by itself, unlocking lever is released, and the control lever receives the operating force of the automatic opening actuator to open the louver and induce external ventilation to occur. Therefore, when a certain temperature or higher occurs in the room in which the louver system is installed, the louver is automatically opened and ventilation proceeds, so that, for example, a heating fire in the room where the outdoor unit is installed can be prevented.

In addition, even if overheating does not occur in the room, when it is necessary to open the louver, the louver can be easily opened by manually pushing the rear button cap and operating the internal button with the elastic repulsive force of the shape memory alloy spring.

The following drawings attached herein illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the invention, so that the present invention is limited to the matters described in the accompanying drawings. It should not be construed.
1 is a perspective view of a temperature response automatic button unit according to the present invention.
Figure 2 is a longitudinal sectional view of the temperature response automatic button unit shown in Figure 1;
Figure 3 is an exploded perspective view of the temperature response automatic button unit shown in Figure 1;
Figure 4a is an operating state according to the manual operation of the automatic temperature response button unit of Figure 1;
Figure 4b is an operating state according to the temperature response of the shape memory alloy spring included in the temperature response automatic button unit shown in Figure 1;
5 is a diagram of one form of a louver system to which an automatic temperature response button unit according to the present invention is applied.
6 is an operational state in which the louver blades are closed as seen from one side of the louver system shown in FIG. 5;
Figure 7 is an operating state of the open louver blade viewed from one side of the louver system shown in Figure 5;

Below, the present invention will be described in detail with reference to the embodiments presented in the accompanying drawings, but the presented embodiments are illustrative for a clear understanding of the present invention, and the present invention is not limited thereto.

The temperature response automatic button unit 40 according to the present embodiment shown in FIGS. 1 to 4 may be applied to the louver system 10 of FIG. 5 as an example. The louver system 10 is a system that opens and closes the louver blade 16 on the louver window frame 12 side. The temperature response automatic button unit 40 can manually open the louver blades 16 of the louver system 10, and when the temperature of the room in which the louver window frame 12 is installed reaches a certain level, the louver blades 16 are automatically opened to induce ventilation. As described above, the temperature response automatic button unit 40 performs ventilation in response to the indoor temperature and discharges hot air to the outside, so that, for example, a fire in the indoor outdoor unit in which the louver system 10 is installed can be prevented.

As shown in FIGS. 1 to 4, the temperature response automatic button unit 40 includes a front button cap 401, a rear button cap 402 screwed to the front button cap 401, an internal button 403 disposed between the front button cap 401 and the rear button cap 402 and protruding outward from the front button cap 401, and a push button inserted into the rear button cap 402 and protruding outward by a certain amount The button 404 and the shape memory alloy spring 405 made of shape memory alloy and disposed between the internal button 403 and the push button 404 and expands and expands on its own when exposed to a certain temperature or higher to protrude and operate the internal button 403. Arranged inside the rear button cap 402, one end supported by the front button cap 401 and the other end supported by the internal button 403, after pressing the push button 404 It includes a push button return spring 406 that performs a return.

The front button cap 401 has a front button hole 401a for protruding the inner button 403 and a female screw hole 401b for fastening the rear button cap 402 thereto. The rear button cap 402 has a male screw portion 402a for screwing into the female screw hole 401b of the front button cap 401, and a plurality of guide grooves 402a for guiding the movement of the push button 404 on the inner circumferential surface. The inner button 403 and the push button 404 each have guide protrusions 403a and 404a that are slidably coupled to the guide groove 402a of the rear button cap 402.

Therefore, the temperature response automatic button unit 40 is operated in two ways.

First, as shown in FIG. 4A, when the push button 404 is pressed in a manual manner, the internal button 403 protrudes a certain amount (S) from the front button cap 401 via the shape memory alloy spring 405, thereby releasing the lock by pressing the lever 28 for unlocking.

Second, when the shape memory alloy spring 405 is exposed to a temperature at which the shape memory alloy spring 405 can expand and expand in an automatic manner, as shown in FIG.

Such a temperature response automatic button unit 40 may be operated in the louver system 10 configured as shown in FIGS. 5 to 7 as an example.

Here, the louver system 10 includes a rotary arm 18 having one end hinged to both sides of the louver blade 16 and the other end rotatably hinged to the vertical frame 14, an interlocking link 20 connected to each other end of a plurality of louver blades 16 through a hinge to simultaneously open and close all the louver blades 16, and an arm control shaft 22 connected to the hinge of the other end of any one of the rotating arms 18 , A control lever 24, one end of which is coupled to the arm control shaft 22 and has a control handle 242 at the other end to open and close the louver blade 16 by rotating the arm control shaft 22, one end supported by the vertical frame 14 and the other end hinged to the control lever 24 to generate a rotational control force on the control lever 24 by compressed gas or elastic spring force to open the louver blade 16. A locking pull 26 having a group 30, a locking pin guide slot 262 having a lever locking jaw 262a and disposed above the control lever 24, and a locking pin 27 that moves along the locking pin guide slot 262 at one end and is pivotally connected to the control lever 24 and is caught in the lever locking jaw 262a section to suppress upward rotation of the control lever 24. A rim lever 28, one end of which is supported by the control lever 24 and the other end of which is supported by the unlocking lever 28, maintains the unlocking lever 28 in a locked state with an elastic force. Includes a lever spring 32.

Therefore, when the temperature response automatic button unit 40 is exposed to a certain temperature or higher, the lever 28 for unlocking is pressed and operated in FIG.

Therefore, when the automatic temperature response button unit 40 of the present invention is installed in an enclosed space where the outdoor unit of the air conditioner system is installed in summer, the louver blades 16 are opened before the outdoor unit overheats to release the heat to the outside, thereby preventing a fire caused by overheating of the outdoor unit.

Here, the temperature response automatic button unit 40 may be mounted on the box-shaped housing 50 installed on the side of the vertical frame 14 where the control lever 24 is disposed. At this time, a guide cover 52 is installed on the box-type control cover 50 to prevent separation of the control lever 24 by contacting the guide pin 25 installed on the control lever 24 side.

The operation of the temperature response automatic button unit 40 configured as described above will be described.

<Manual opening operation>

First, as shown in FIG. 6, when the push button 404 of the automatic temperature response button unit 40 is pressed while the louver blade 16 is closing the opening of the window frame 12, the louver blade 16 is opened.

That is, when the push button 404 of the temperature response automatic button unit 40 is pressed, the inner button 403 protrudes from the front button cap 401 via the shape memory alloy spring 405 to press the lower part of the lever 28 for unlocking, and the unlocking lever 28 side locking pin 27 locks the locking pin guide slot 262 side lever locking jaw 2 of the lever locking sphere 26 62a) Out of section. As a result, the operating force of the actuator 30 for automatic opening rotates the operating lever 24 counterclockwise in FIG. The return of the push button 404 is achieved by the elastic restoring force of the push button return spring 406 .

As described above, in the present invention, the louver blade 16 can be easily opened with the operating force of the automatic opening actuator 30 simply by pressing the push button 404 of the temperature response automatic button unit 40, and the opening of the window frame 12 is opened. Thus, ventilation can be performed.

<Auto open action>

On the other hand, as shown in FIG. 6, when a high temperature is generated on the indoor side of the louver window frame 12 in a state where the louver blade 16 closes the opening of the window frame 12 (for example, when the outdoor unit is overheated), the shape memory alloy spring 405 expands and expands.

That is, when the shape memory alloy spring 405 is exposed to a temperature at which the shape memory alloy spring 405 can expand and expand due to overheating of the outdoor unit, the internal button 403 protrudes a certain amount from the front button cap 401 due to the expansion and expansion force of the shape memory alloy spring 405. The unlocking lever 28 is pressed and operated. In the subsequent process, the unlocking lever 28 is unlocked through the same process as the manual operation, and the louver blade 16 is opened to ventilate, thereby preventing fire in advance.

At this time, the operating lever 24 is automatically operated with the help of rotational operation by obtaining the operating force of the actuator 30 for automatic opening, so that the louver blade 16 is opened.

On the other hand, when the manipulation handle 242 is lowered in the open state of the louver blade 16, the manipulation lever 24 closes the louver blade 16 via the rotating arm 18.

So far, the present invention has been described in detail with reference to the presented embodiments, but those skilled in the art can make various modifications and variations without departing from the technical spirit of the present invention with reference to the presented embodiments. The present invention is not limited by these variations and modifications, but is limited only by the claims appended below.

12: louvered window frame
14: vertical frame
16: Louver blade
17: upper rotation eccentric shaft
18: rotation arm
22: arm control axis
24: control lever
28: lever for unlocking
30: actuator for automatic opening
40: one-touch button
401: front button cap
402: rear button cap
403: inner button
404: push button
405: shape memory alloy spring
50: box type operation cover

Claims (6)

In the temperature response automatic button unit 40 that operates by automatically responding to temperature,
a front button cap 401;
a rear button cap 402 screwed to the front button cap 401;
an inner button 403 disposed between the front button cap 401 and the rear button cap 402 and protruding out of the front button cap 401;
a push button 404 that is inserted into the rear button cap 402 and protrudes a certain amount to the outside;
A shape memory alloy spring 405 made of shape memory alloy, disposed between the internal button 403 and the push button 404, and expands and expands itself when exposed to a certain temperature or higher to protrude the internal button 403; and
Disposed inside the rear button cap 402, one end supported by the front button cap 401 and the other end supported by the inner button 403 to perform a return after pressing the push button 404 A temperature-responsive automatic button unit comprising a return spring 406. According to claim 1,
The front button cap 401 has a front button hole 401a for protruding the inner button 403 and a female screw hole 401b for fastening the rear button cap 402. A temperature-responsive automatic button unit. According to claim 1,
The rear button cap 402 has a male screw portion 402a for screwing into the female screw hole 401b of the front button cap 401, and a plurality of guide grooves 402a for guiding the movement of the push button 404 on the inner circumferential surface. Temperature responsive automatic button unit, characterized in that it has. According to claim 1,
The internal button 403 and the push button 404 each have guide protrusions 403a and 404a that are slidably coupled to the guide groove 402a of the rear button cap 402. Temperature responsive automatic button unit. In the louver system 10 for opening the louver blade 16 on the side of the louver window frame 12 by automatically detecting the temperature of the room with the temperature response automatic button unit 40 of any one of claims 1 to 4,
A lever 28 for unlocking that is hinged to the control lever 24 that operates the louver blade 16 and pushed by the temperature response automatic button unit 40 to release the closing lock of the control lever 24;
A louver system using a temperature response automatic button unit, characterized in that it includes an actuator 30 for automatic opening that is connected to a hinge in which the control lever 24 and the unlocking lever 28 are commonly connected to supply an operating force to the control lever 24. According to claim 5,
The temperature response automatic button unit 40 is mounted on the box-shaped housing 50 installed on the vertical frame 14 side of the louver window frame 12 side where the control lever 24 is disposed Louver system using a temperature response automatic button unit.

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