KR100762119B1 - Slat for shading device - Google Patents

Abstract

A slat for a shading device is provided to regulate the quantity of solar radiation entering the interior of a room according to external weather conditions or the altitude of the sun with a simple structure without operating manually or using a driving device. A slat(100) for a shading device for securing a field of vision for outdoors through a window and regulating the quantity of solar radiation entering the interior of a room according to external weather conditions or the attitude of the sun includes a main plate member(10) made of metal, plastics or wood, an auxiliary plate member(30) placed parallel to the main plate member and connected to the main plate member, and a support member(50) made of shape memory alloys and attached on the top or the bottom of the auxiliary plate member to be deformed by a variation of temperature to vary the whole width of the auxiliary plate member.

Description

Sunshade Slats {SLAT FOR SHADING DEVICE}

Since these drawings are for reference in describing exemplary embodiments of the present invention, the technical idea of the present invention should not be construed as being limited to the accompanying drawings.

1 is a perspective view illustrating a slat for sunshade according to a first exemplary embodiment of the present invention.

FIG. 2 is a schematic cross-sectional view of FIG. 1.

3A and 3B are schematic cross-sectional diagrams for explaining the operation of the awning device slat according to the first exemplary embodiment of the present invention.

Fig. 4 is a perspective view showing a slat for sunshade according to a second exemplary embodiment of the present invention.

Fig. 5 is a cross sectional view showing the shading device according to the third exemplary embodiment of the present invention.

Fig. 6 is a cross sectional view showing the shading device according to the fourth exemplary embodiment of the present invention.

Fig. 7 is a schematic cross-sectional view showing the shading device according to the fifth exemplary embodiment of the present invention.

8A and 8B are schematic cross-sectional diagrams for explaining the operation of the sunshade device slats according to the fifth exemplary embodiment of the present invention.

Fig. 9 is a cross sectional view showing the shading device according to the sixth exemplary embodiment of the present invention.

Fig. 10 is a cross-sectional configuration diagram showing a slat for sunshade according to the seventh exemplary embodiment of the present invention.

<Description of reference numerals for the main parts of the drawings>

10 ... Main plate member 30 ... Auxiliary plate member

31 ... First Edition 32 ... Second Edition

33 ... rotating shaft 50 ... supporting member

410 ... slat body

The present invention relates to a sunshade for slats, and more particularly to a sunshade for adjusting the amount of solar radiation flowing into the room.

In general, as the use of curtain walls in buildings increases, the heating and cooling loads through the skin are greatly increased. In particular, in consideration of visual openness in the office space, the glass use area in the outer cover is greatly increased, the indoor inflow of direct sunlight through the summer glass has a great influence on the cooling load.

In addition, since solar radiation is introduced into the room through glass, glare from the excessive brightness difference occurs in indoor spaces.In most buildings, blinds are installed indoors to block the inflow of solar radiation and use lighting equipment during the day. Doing.

Recently, as interest in energy saving and indoor environment has increased, various methods in terms of architectural planning such as reduction of external aperture ratio, window planning according to azimuth, and installation of sunshade to reduce the effects of heating and heating load and indoor environment caused by such solar radiation Are being applied. However, in office buildings, the reduction of the external aperture ratio and the planning of the window according to the orientation are inevitably limited in terms of design, and thus the solar radiation flowing into the room is controlled through the blinds.

In this way, when the awning device is installed indoors, the occupant can be arbitrarily operated and easy to maintain, but in order to reduce the heating and cooling load due to the solar in terms of energy saving, it is advantageous to install the awning outside. For example, according to an existing study analyzing the effect on the cooling load of a building by applying an external awning, such as a fixed awning, it can be seen that the cooling load can be reduced by about 23% when an external awning is installed southward. Can be.

However, since the sun angle introduced into the room varies depending on the altitude of the sun, it can be seen that the fixed shade device alone has a limitation in controlling the heat gain of the room due to direct solar radiation. That is, when the sun is high or the amount of insolation is large, the slat angle of the sunshade should be adjusted directly by using a manual operation or a driving device. It causes an increase in manufacturing cost.

 Therefore, to solve this problem, it is necessary to adjust the amount of inflow into the room according to the external climatic conditions and the altitude azimuth condition of the sun. In other words, in order to control the amount of solar radiation flowing into the room, it is necessary to improve physical properties such as structure and shape of the slat, installation location, reflectance, transmittance, and emissivity. In particular, in order to save energy in buildings and improve the indoor environment, technology development regarding slats of sunshade devices such as blinds is required more.

The present invention was created to improve the above problems, the purpose of which is a simple structure without a separate manual operation or drive device can be easily adjusted to the amount of solar radiation flowing into the room according to the external weather conditions or the altitude of the sun shade It is to provide a slat for the device.

In order to achieve the above object, the shading device slat according to an exemplary embodiment of the present invention is to adjust the amount of solar radiation flowing into the room, the main plate member having a predetermined width and length, and parallel to the main plate member An auxiliary plate member installed to be connected to at least one edge portion of the main plate member, and a support member installed on the auxiliary plate member to change its shape according to a temperature change and to change the width of the auxiliary plate member. Include.

In the awning for the sunshade, the support member may be made of a shape enterprise alloy material.

In the awning for the sunshade, the auxiliary plate member may be made to be bent along the width direction.

In the shading device slat, the auxiliary plate member may include a first plate connected to the edge portion of the main plate member, and a second plate rotatably connected to the first plate. In this case, the first plate and the second plate may be hinged by a rotation shaft.

In the awning for the sunshade, the auxiliary plate member may be made of a metal plate that is elastically deformed by the support member while having a predetermined width and length. Alternatively, the auxiliary plate member may be formed as a fiber material of a predetermined thickness.

In the shading device slat, the support member may be disposed in the width direction of the auxiliary plate member while being spaced along the longitudinal direction of the auxiliary plate member. In this case, the support member may be formed in a linear or plate shape.

In addition, the sunshade for slats according to another exemplary embodiment of the present invention includes a slat body that is bent while having a predetermined width and length, and a support member installed on the slat body to vary the width of the slat body The support member is made of a shape memory alloy material whose shape is deformed with temperature change.

In the shading device for the sunshade, the slat body may include a first body and a second body rotatably connected to the first body.

In the sunshade for the sunshade, the slat body may be made of a metal plate that is elastically deformed by the support member.

In addition, the sunshade for slats according to another exemplary embodiment of the present invention includes a slat body having a predetermined width and length, the slat body is made of a shape memory alloy material that is deformed in accordance with the temperature change.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. As those skilled in the art would realize, the described embodiments may be modified in various different ways, all without departing from the spirit or scope of the present invention.

The sunshade device to which the present invention is applied is to adjust the amount of solar energy flowing into the room through a curtain wall or window of a building. More specifically, the present invention can be applied to a variety of fixed shade devices, such as venetian blinds, external louvers, awnings and vertical blinds, installed indoors or outdoors, as well as between windows of a multi-layer structure. Can be. Hereinafter, various types of slats employed as a plurality of ordinary blinds will be described as an example. However, the present invention is not limited thereto, and the technical spirit of the present invention may be applied to all of the various shading devices as described above.

FIG. 1 is a perspective view illustrating a slat for sunshade according to a first exemplary embodiment of the present invention, and FIG. 2 is a schematic cross-sectional view of FIG.

Referring to these drawings, a sunshade 100 for a sunshade according to the first embodiment of the present invention, the sunshade 100 for the sunshade device is a separate drive device or manual operation while ensuring the outdoor view through the window It is made as a structure that can control the amount of solar radiation flowing into the room while the shape is deformed according to the intensity of solar radiation without.

Specifically, the sunshade 100 for the sunshade according to the present embodiment is the main plate member 10, the auxiliary plate member 30 is installed to be connected to the main plate member 10, and the auxiliary plate member 30 It is configured to include a support member 50 is installed.

In the above, the main plate member 10 is formed in various forms such as a conventional slat structure having a predetermined width and length, for example, plate type, C-TYPE (curved type), Z-TYPE (zigag type). However, in the present embodiment, as shown in the drawings will be described with an example in which the main plate member 10 is made of a plate shape.

In this case, the main plate member 10 is provided as a metal, plastic, wood plate material, the main plate member 10 is employed as a plurality in the sunshade device to each other by the usual support means, for example, wire or guide protrusion / groove It is well known that it can be supported.

In the present embodiment, the auxiliary plate member 30 is made of a metal plate having the same length as the main plate member 10, and is disposed in parallel with the main plate member 10 and one side of the main plate member 10. It is installed to be connected to the edge part. In this case, it is preferable that the auxiliary plate member 30 has a width thereof smaller than the width of the main plate member 10.

The auxiliary plate member 30 is provided to be bent along its width direction. For this purpose, the auxiliary plate member 30 is integrally connected to the longitudinal side edge portion of the main plate member 10. 31 and a second plate 32 rotatably connected to the first plate 31.

Here, when the main plate member 10 is made of a metal material, the first plate 31 is fixedly connected to the edge portion of the main plate member 10 by welding or bolting. Alternatively, when the main plate member 10 is made of plastic or wood, the first plate 31 may be fixedly connected to the edge portion of the main plate member 10 by an adhesive method using an adhesive.

The first plate 31 and the second plate 32 are hinged to each other by the rotation shaft 33, the rotation shaft 33 is the rotation of the second plate 31 with respect to the first plate 31. Makes it possible. The rotary shaft 33 has a longitudinal edge portion of the first plate 31 (the edge portion opposite to the edge portion connected to the edge portion of the main plate member) and the longitudinal edge of the second plate 32 corresponding thereto. Hinged to the part.

Therefore, in the auxiliary plate member 30 according to the present embodiment, as the second plate 32 is rotatably supported on the first plate 31 by the rotation shaft 33 as described above, the second plate 32 ) Is rotated in the downward direction by the support member 50 to be described later further the width of the electric field is reduced or the width of the electric field is increased as it is rotated upward from the position.

In the present embodiment, the support member 50 supports the auxiliary plate member 30, as well as to change the width of the auxiliary plate member 30 as described above while the shape thereof is changed according to the temperature change. .

The support member 50 is installed to be attached to the upper surface or the lower surface of the auxiliary plate member 30, preferably the lower surface, shape memory alloy (shape memory effect) having the property of repeating the deformation and restoration of the shape according to the temperature change ) Is made of material. The shape memory alloy is made of a titanium-nickel alloy or an aluminum alloy, and has a property of restoring to its original shape when the plastic-deformed material is heated above a critical point of the material. In this case, the support member 50 according to the present embodiment is elongated as a predetermined length when it is heated above the critical point by solar radiation or outside air, and the original member before being stretched when the auxiliary plate member 30 is cooled below the critical point. Has the feature of restoring to form.

More specifically, the support member 50 is formed as a linear disposed in the width direction with respect to the bottom surface of the auxiliary plate member 30 while being spaced apart along the longitudinal direction of the auxiliary plate member 30 as shown in the figure. do. The supporting member 50 is in the form of a wire, one end of which is welded to the bottom of the first plate 31, and the other end of the support member 50 is welded to the bottom of the second plate 32.

Referring to the action of the sunshade 100 for the sunshade device according to the first embodiment of the present invention configured as described above, first, the slat 100 is disposed in the horizontal direction with respect to the glass window, spaced apart a predetermined interval along the vertical direction It is in a state of being arranged. At this time, the spacing of the slats 100 is appropriate enough to secure a view of the outdoors through the space between them.

In this case, as shown in FIG. 3A, the slat 100 is in a state in which the second plate 32 of the auxiliary plate member 30 is bent downward while being supported by the rotation shaft 33. At this time, the full length of the auxiliary plate member 30 is indicated by " L ".

In this state, when the altitude of the sun increases, the distance from which the solar radiation energy reaches the atmosphere is shortened so that the intensity of the solar radiation increases or the outside temperature rises, the temperature of the auxiliary plate member 30 gradually rises. Then, since the support member 50 is made of a shape memory alloy material, the support member 50 is stretched to a shape at the time of original molding while being heated above the critical point by receiving the above-described heat.

Accordingly, the second plate 32 of the auxiliary plate member 30 is rotated upward while being supported by the rotation shaft 33 as the supporting member 50 is stretched as shown in FIG. 3B. As a result, the full width L of the auxiliary plate member 30 is greater than the full width L of the supporting member 50 before deformation.

On the contrary, when the solar intensity is small or the outside air temperature decreases, the supporting member 50 is reduced in length while being restored to its original shape before being stretched at a temperature below the critical point, and the second plate 32 is reduced by its restoring force. It will rotate to its original position. Then, the width full length l of the auxiliary plate member 30 is smaller than the width full length L when the support member 50 is stretched.

As described above, in the slat 100 according to the present embodiment, the support member 50 is deformed in shape and length according to the altitude of the sun or the temperature change of the outside air, and thus the overall length of the auxiliary plate member 30 is variable. Therefore, it is possible to adjust the amount of solar radiation flowing into the room through the glass window without relying on a separate driving force. That is, in the summer when the solar radiation is large, the width of the auxiliary plate member 30 is increased by the above-described action to reduce the amount of solar radiation introduced into the room, and in the winter when the outside temperature is low, the auxiliary plate member 30 The width of the electric field is reduced, which increases the amount of solar radiation entering the room.

Fig. 4 is a trial showing the awning slat according to the second exemplary embodiment of the present invention.

Referring to the drawings, the sunshade 200 for the shading device according to the present embodiment can form a support member 150 made of a plurality of plate shape, based on the structure of the previous embodiment.

The support member 150 is provided to be spaced apart along the longitudinal direction of the auxiliary plate member 130 while having a predetermined width and length, and is disposed as the width direction with respect to the lower surface of the auxiliary plate member 130.

Since the rest of the configuration and operation of the awning device slat 200 according to the present embodiment is the same as the previous embodiment, a detailed description thereof will be omitted.

Fig. 5 is a cross sectional view showing the shading device according to the third exemplary embodiment of the present invention.

Referring to the drawings, the sunshade 300 for the sunshade device according to the present embodiment can form an auxiliary plate member 230, which is elastically deformed by the support member 250, based on the structure of the first embodiment. have.

The auxiliary plate member 230 is formed as a plate member of a metallic material having a predetermined width and length and having a resilient force relatively smaller than that of the support member 250, that is, the shape memory alloy. Preferably, this auxiliary plate member 230 is made of a C-TYPE (curved type).

Here, the support member 250 according to the present embodiment is made as the configuration as in the previous embodiments, so a detailed description thereof will be omitted.

Therefore, according to the present exemplary embodiment, when the auxiliary plate member 230 is bent and elastically deformed while being supported by the support member 250, when the insolation intensity is increased or the outside temperature is increased, the support member 250 is a critical point. While being heated above, it is stretched to the shape at the time of the original molding. As a result, the auxiliary plate member 230 is returned to its original shape by its elastic restoring force due to the extension of the supporting member 250, and the full length of the auxiliary plate member 230 is greater than the full width of the full width of the supporting member 250.

On the contrary, when the solar intensity is small or the outside air temperature decreases, the support member 250 is reduced in length while being restored to its original shape before being stretched at a temperature below the critical point, thereby reducing the auxiliary plate member 230 by its restoring force. It will elastically deform to its original form. Then, the full length of the auxiliary plate member 230 is reduced than the full length when the support member 250 is stretched.

Fig. 6 is a cross sectional view showing the shading device according to the fourth exemplary embodiment of the present invention.

Referring to the drawings, the sunshade device slat 400 according to the present embodiment may comprise a secondary plate member 330 made of a fiber material of a predetermined thickness while having a predetermined width and length.

Since the auxiliary plate member 330 is made of a fiber material, the auxiliary plate member 330 is flexible, so that the auxiliary plate member 330 is rounded or deformed by the deformation of the support member 350.

Since the rest of the configuration and operation of the awning device slat 400 according to the present embodiment is the same as in the previous embodiments, a detailed description thereof will be omitted.

Fig. 7 is a schematic cross-sectional view showing the shading device according to the fifth exemplary embodiment of the present invention.

Referring to the drawings, the sunshade 500 for the shading device according to the present embodiment may be configured to include a slat body 410, and a support member 450 of the shape memory alloy material installed on the slat body 410. have.

In the above, the slat body 410 is formed in the form of a plate bent to be bent in the form of "형태", the first body 411 having a predetermined width and length, and the first rotation is possible relative to the first body 411 Two body 412.

Specifically, the first body 411 and the second body 412 is provided as a plate of a metal material. In this case, the second body 412 is made of a metal plate having the same length as the first body 411, and is disposed in parallel with the first body 411.

The first body 411 and the second body 412 are hinged to each other by a rotation shaft 413, the rotation shaft 413 is a relative rotation of the first body 411 and the second body 412 Make it possible.

Therefore, the slat body 410 according to the present embodiment is, as described above, the first body 411 and the second body 412 is rotatably supported by the rotation shaft 413, the first body 411 ) And the second body 412 is rotated to the support member 450 in the downward direction, the width of the full length is reduced or is rotated in the upward direction at the position to increase the width of the full length.

In the present embodiment, the support member 450 is to change the full length of the slat body 410 while the shape is deformed according to the temperature change as in the first embodiment, and is provided on the bottom surface of the slat body 410. It is installed to be attached.

The support member 450 is formed as a linear or plate shape disposed in the width direction with respect to the lower surface of the slat body 410 while being spaced apart along the longitudinal direction of the slat body 410. The supporting member 450 has one end attached to the bottom surface of the first body 411 as a weld type, and the other end portion is welded to the bottom surface of the second body 412.

According to the present exemplary embodiment configured as described above, the slat 500 has the first body 411 and the second body 412 of the slat body 410 supported by the rotating shaft 413 as shown in FIG. 8A. It is bent in the form of ∧ ". At this time, the full length of the slat body 410 is indicated by "ℓ".

In this state, when the solar intensity increases or the outside air temperature rises and the temperature of the slat body 410 rises, the support member 450 is stretched in the shape of the original molding while being heated above the critical point.

Accordingly, the slat body 410 is rotated upward while the first body 411 and the second body 412 are supported by the rotation shaft 33 as the support member 450 is stretched as shown in FIG. 8B. Done. As a result, the full width L of the slat body 410 is greater than the full width L of the supporting member 450 before deformation.

On the contrary, when the solar intensity is small or the outdoor temperature decreases, the length of the support member 450 is restored to its original shape before being stretched at a temperature below the critical point, and the length thereof is reduced. ) And the second body 412 is rotated to its original position. Then, the width full length ℓ of the slat body 410 is smaller than the width full length L when the support member 450 is stretched.

Fig. 9 is a cross sectional view showing the shading device according to the sixth exemplary embodiment of the present invention.

Referring to the drawings, the sunshade 600 for the sunshade device according to the present embodiment, unlike the previous embodiment, has an integral slat body 510 that is elastically deformed by the support member 550 while having a predetermined width and length. can do.

The slat body 510 is formed as a support member 550, that is, a plate of metal material having a relatively smaller elastic force than the restoring force of the shape memory alloy. Preferably, this slat body 510 is made as a C-TYPE (curved type).

Alternatively, the slat body 510 according to the present embodiment is not limited to being made of a metal plate as described above, but may be made of a fiber material having a predetermined thickness and having a predetermined width and length.

Here, the support member 550 according to the present embodiment is made of the same configuration as in the above embodiments, so a detailed description thereof will be omitted.

Therefore, according to the present embodiment, when the slat body 510 is supported by the support member 550 and the solar radiation intensity increases or the outside air temperature rises while being flexibly elastically deformed, the support member 550 is above the critical point. As it is heated, it is stretched to its original shape. As a result, the slat body 510 is returned to its original shape by its elastic restoring force because the support member 550 is elongated, and the full length of the slat body 510 is greater than the full width of the full width of the support member 550.

On the contrary, when the solar intensity is small or the outside air temperature decreases, the support member 550 is restored to its original shape before being stretched at a temperature below the critical point, and the length thereof is reduced, and the slat body 510 is original by the restoring force. Elastic deformation in the form of. Then, the full length of the slat body 510 is smaller than the full length of the support member 550 when it is stretched.

Fig. 10 is a cross-sectional configuration diagram showing a slat for sunshade according to the seventh exemplary embodiment of the present invention.

Referring to the drawings, the awning slat 700 according to the present embodiment does not have a supporting member as in the previous embodiments, and includes a slat body 610 in the form of a plate, and the slat body ( 610 itself is made of a shape memory alloy.

In the above, the slat body 610 is made of a variety of forms, such as C-TYPE (curved type), Z-TYPE (zigag type), preferably as a C-TYPE as shown in the drawings as an example, the temperature change It has the inherent properties of shape memory alloys whose shape is deformed.

Therefore, according to the present embodiment, since the slat body 610 is made of a shape memory alloy material, when the solar intensity increases or the outside temperature rises, the slat body 610 is stretched to the shape at the time of the original molding when it is heated above the critical point, thereby extending its full length. Will increase the length of. On the contrary, when the solar intensity is small or the outdoor temperature falls, the length of the full width of the slat body 610 is reduced as the slat body 610 is restored to its original shape before being stretched at a temperature below the critical point.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited thereto, and various modifications and changes can be made within the scope of the claims and the detailed description of the invention and the accompanying drawings. Naturally, it belongs to the scope of the invention.

According to the present invention as described above, since the shape memory alloy is used as a structure for varying the width of the slat width field according to the outdoor weather conditions or the solar intensity (solar altitude, insolation angle), the amount of insolation flowing into the room is simple. It can be easily adjusted as a structure. Therefore, the heating and cooling load through the glass can be reduced, thereby contributing to energy saving, and it is possible to block direct solar radiation flowing into the room while securing an outdoor view, thereby improving the light environment of the room.

In addition, according to the present invention, there is no need for a manual operation or a separate drive device, the structure of the entire device is simplified, there is an effect that can reduce the manufacturing cost.

Claims (14)

Regarding the sunshade for adjusting the amount of solar radiation flowing into the room, A main plate member having a predetermined width and length; An auxiliary plate member disposed in parallel with the main plate member and installed to be connected to at least one edge portion of the main plate member; And The support member is installed on the auxiliary plate member to change the width of the auxiliary plate member while the shape is deformed according to temperature change Shades for sunshade comprising a. According to claim 1, A slat for sunshade, wherein the support member is made of a shape corporate alloy material. According to claim 1, A sunshade device slat made of the auxiliary plate member is bent along the width direction. The method of claim 3, wherein The auxiliary plate member, And a first plate connected to an edge of the main plate member and a second plate rotatably connected to the first plate. The method of claim 4, wherein The slat for sunshade device wherein the first plate and the second plate are hinged by a rotation shaft. According to claim 1, The auxiliary plate member has a predetermined width and length, the slats for sunshade device made of a metal plate that is elastically deformed by the support member. According to claim 1, A shading device slat, wherein the auxiliary plate member is made of a fiber material having a predetermined thickness. According to claim 1, The support member slats for the sunshade device is disposed in the width direction of the auxiliary plate member while being spaced along the longitudinal direction of the auxiliary plate member. The method of claim 8, A sunshade for said shading device, wherein said support member is linear. The method of claim 8, A sunshade for slats, wherein said support member is formed in a plate shape. Regarding the sunshade for adjusting the amount of solar radiation flowing into the room, A slat body configured to be bent while having a predetermined width and length; And Support member installed on the slat body to vary the width of the slat body Including; The support member is a sunshade device slats made of a shape memory alloy material that is deformed in shape with temperature changes. The method of claim 11, wherein The slat body is a slat for sunshade comprising a first body, and a second body rotatably connected to the first body. The method of claim 11, wherein The slat body is a slat for sunshade device made of a metal plate that is elastically deformed by the support member. delete

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