KR102166135B1 - Sunlight-tracking type vertical blind apparatus and method for controlling sunlight thereof - Google Patents

Abstract

The present invention relates to a sun-following blind device, by adjusting the angle of the blade to smoothly perform the awning function without damaging neighboring buildings, while also performing a light-emitting function like a conventional vertical blind. Of course, according to the current season, time, and solar altitude angle, the optical sensor adjusts the inclination angle of the blade differently to solve the problem of excessive glare to the residents of neighboring buildings, and solve the problem of shading, lighting, and blade shading. Maximization of solar power generation efficiency is possible. In addition, it is possible to adjust the indoor brightness and indoor temperature by varying the direct sunlight directly or indirectly entering the room for each season, and the angle and separation distance of adjacent blades can be adjusted automatically as well as manually according to the solar altitude angle. A remote control or fully automatic control is possible using a mobile phone through wireless communication.

Description

A solar-following blind device and light control method {SUNLIGHT-TRACKING TYPE VERTICAL BLIND APPARATUS AND METHOD FOR CONTROLLING SUNLIGHT THEREOF}

The present invention relates to a solar-following blind device and a light control method, and more specifically, while operating with the same mechanism as the existing blind, it is possible to additionally adjust the vertical tilt angle as well as the left and right rotation according to the movement of the sun, The present invention relates to a sun-following blind device and a light control method capable of remotely controlling or fully automatically controlling a user through a mobile phone through the Internet.

In general, vertical blinds are installed on windows of a building and used for the purpose of allowing a certain amount of light and shade, and are configured to be angle-adjustable while changing directions and reciprocating motions.

For vertical blinds, a plurality of band-shaped blind pieces (blades) draped in the vertical direction of the window are arranged to change the direction of each blind and gather or spread to one edge of the window while performing an operation such as shading and lighting. Allow.

In this case, in order to block strong sunlight in the summer, the vertical blind may increase the shading effect by attaching a reflective sheet having a property of reflecting light such as silver foil to each of the blinds.

However, there is a problem that such reflective sheets sometimes cause excessive glare to residents of neighboring buildings and act as a factor such as civil complaints.

Therefore, it is urgent to develop blinds that fundamentally block the glare phenomenon that is a cause of civil complaints as above, operate with the same mechanism as the existing blinds, but can additionally adjust the vertical tilt angle and left and right rotation according to the movement of the sun. .

Domestic registration No. 10-1378538 Korean Patent Publication No. 10-2016-0103196

The present invention is to solve the above-described problem, by adjusting the angle of the blade, it is possible to perform a shading function smoothly without damaging neighboring buildings, while also performing a light-emitting function such as a conventional vertical blind. Of course, according to the current season, time, and solar altitude angle, the optical sensor adjusts the angle of inclination of the blade differently to solve the problem of shading, lighting, and blade shading, thereby maximizing solar power generation efficiency. Its purpose is to provide a control method.

The present invention is a frame (1) mounted on the upper end of the window; A plurality of unit blinds 110 that are connected and installed by a blade wire 10 in which a plurality of blades 111 have different heights; A tilting unit 120 for adjusting the inclination angle of the blade 111 in the vertical direction; A panning unit 130 for adjusting the left and right angle by rotating the blade 111 in the left and right direction; And a folding unit 140 selectively folding the unit blind 110 by up-down, comprising: an optical sensor 153 installed on the blade 111 to detect light; And a controller 155 for controlling the tilting unit 120 and the panning unit 130 according to the amount of light measured by the photosensor 153.

The tilting unit 120 is installed to be movable left and right along the frame 1, and therein, a pair of vertical rods 122 and the vertical rods 122 supporting the upper end of the blade wire 10 A horizontal rod 123 connecting each other is installed, a vertical rod 124 is installed vertically to rotate the horizontal rod 123, and power transmission between the horizontal rod 123 and the vertical rod 124 The housing 121 having a bevel gear 125 for; A first pinion gear 126 installed on the vertical rod 124; A first rotation shaft 127 installed in the frame 1 to be elongated in the horizontal direction, having a polygonal cross section, and rotatably installed around the center of the cross section; A first rotation shaft driving unit 128 installed on the frame 1 so as to rotate the first rotation shaft 127; And a first movable worm gear fitted to the first rotation shaft 127 so as to be slidably installed along the longitudinal direction of the first rotation shaft 127, and installed so as to engage with the first pinion gear 126 ( 129) may be included.

In addition, the panning unit 130 may include a second pinion gear 131 installed on the outer surface of the housing 121; A second rotation shaft (132) installed in the frame (1) in a horizontal direction, having a polygonal cross section, and rotatably installed around the center of the cross section; A second rotary shaft driving unit 133 installed on the frame 1 to rotate the second rotary shaft 132; And a second movable worm gear fitted to the second rotation shaft 132 so as to be slidably installed along the longitudinal direction of the second rotation shaft 132 and installed so as to engage with the second pinion gear 131 ( 134) may be included.

In addition, on the outer surface of the housing 121, a guide wing inserted into the lower guide groove 1a of the frame 1 so as to contact the lower inner surface of the frame 1 when the housing 121 slides. 121a) can be formed.

In addition, the vertical rod 124 is installed inside the housing 121, the upper end of the vertical rod 124 protrudes in the upper direction of the housing 121, and the first pinion gear 126 is The vertical rod 124 may be installed at a portion of the housing 121 that protrudes upward.

In addition, the vertical rod 124 is rotated by the rotation of the first pinion gear 126, and the housing 121 is rotated by the rotation of the second pinion gear 131, the first pinion gear The rotation center of 126 and the rotation center of the second pinion gear 131 may be located on the same line.

In addition, a belt (161) installed in the frame (1) to move a plurality of the unit blinds (110); And a drive motor 162 installed on the frame to drive the belt 161. It may further include.

In addition, the folding unit 140 includes a lower plate 141 installed under the unit blind 110 to up-down the unit blind 110; An up-down wire 142 connected to the lower plate 141 to up-down the lower plate 141; A support roller 143 rotatably installed in the frame 1 to support the up-down wire 142; And a stopper 144 for controlling the up-down length of the up-down wire 142.

In addition, a wireless communication network 157 for manipulating the control unit 155 may be further included.

In addition, the blade 111 may have a diffusion type reflector 111b attached to the solid paulownia wood 111a.

As described above, by adjusting the angle of the blade, the awning function can be smoothly performed without damaging neighboring buildings, and the current season and time of day as well as the ability to allow lighting such as the existing vertical blinds can be performed. And according to the solar altitude angle, the optical sensor adjusts the angle of inclination of the blade differently to solve the problem of causing excessive glare to the residents of neighboring buildings, and to maximize the solar power generation efficiency by solving the problem of shading, lighting, and blade shading. Is possible.

In addition, it is possible to adjust the indoor brightness and indoor temperature by varying the direct sunlight directly or indirectly entering the room according to the season, and the angle and separation distance of adjacent blades can be adjusted automatically as well as manually according to the solar altitude angle. Remote control or fully automatic control is possible with a mobile phone through wireless communication.

In addition, since the tilting unit and the panning unit can be used to freely adjust and control the front and rear inclination angles and the left and right rotation angles of the blades of the unit blind, the reflected light while having the existing shading function can be controlled in a specific direction, for example, of a neighboring building. It has the function of guiding the residents in a direction that does not cause excessive glare.

Further, it is also possible to attach a reflective film or a reflective film for reflecting light or attach a light absorbing film to the blade surface.

1 is a front view showing the appearance of the sun-following blind device of the present invention
2 is a front view showing the internal configuration of the sun-following blind device of the present invention
3 is a front view showing a modified example of the sun-following blind device of the present invention
4 is a view showing the folding of the unit blind of the present invention
5 is a longitudinal sectional view of FIG. 2
6 is a cross-sectional view showing a blade with a diffusion type reflector attached to a solid paulownia wood

Hereinafter, a solar-following blind device and a light control method of the present invention will be described with reference to the accompanying drawings.

1 is a front view showing the exterior of the sun-following blind device of the present invention, FIG. 2 is a front view showing the internal configuration of the sun-following blind device of the present invention, and FIG. 3 is a modification of the sun-following blind device of the present invention An example front view, FIG. 4 is a view showing the folding of the unit blind of the present invention, FIG. 5 is a longitudinal cross-sectional view of FIG. 2, and FIG. 6 is a cross-sectional view showing a blade with a diffuser reflector attached to a solid paulownia wood. .

Referring to the above drawings, the sun-following blind device of the present invention includes a frame 1 mounted on an upper end of a window (not shown); A plurality of unit blinds 110 that are connected and installed by a blade wire 10 in which a plurality of blades 111 have different heights; A tilting unit 120 for adjusting the tilt angle (tilting angle) of the blade 111 in the vertical direction; A panning unit 130 for adjusting the left and right angle by rotating the blade 111 in the left and right direction; And a folding unit 140 for selectively folding the unit blind 110 by up-down.

The frame 1 may be configured in a square box shape, and may be detachably installed at the upper end of the window. The installation location of the frame 1 is not limited to windows and doors, and any place that requires a shade such as a living room or balcony may be used.

Screws or bolts may be used as the fastening means of the frame 1, and may be conveniently detached using a detachable bracket (not shown).

Position fixing protrusions (not shown) are formed on the blade wire 10 at regular intervals to fix each blade position. Since the positioning protrusion corresponds to a known common technique, a description and drawings thereof will be omitted.

The blade 111 may have a configuration in which a diffusion type reflecting plate 111b is attached on the solid paulownia wood 111a (see FIG. 6 ).

Hereinafter, the configuration of the tilting unit 120 will be described.

The tilting unit 120 includes a housing 121, a first pinion gear 126, a first rotation shaft 127, a first rotation shaft drive unit 128, and a first movable worm gear 129.

The housing 121 may be installed to be movable left and right along the frame 1, and a guide wing 121a contacting the lower inner surface of the frame 1 for slide movement of the housing 121 on the outer surface of the housing 121 ) Can be formed. That is, the guide wing 121a may be configured to be inserted into the lower guide groove 1a of the frame 1.

Inside the housing 121, a pair of vertical rods 122 supporting the upper end of the blade wire 10 and a horizontal rod 123 connecting the vertical rods 122 are installed, and the horizontal rod 123 Vertical rod 124 is installed vertically to rotate.

In order to transmit power between the horizontal rod 123 and the vertical rod 124, each of the horizontal rod 123 and the vertical rod 124 is provided with bevel gears 123a and 124a.

That is, the bevel gear 123a of the horizontal bar 123 and the bevel gear 124a of the vertical bar 124 are configured to engage.

Therefore, the rotation of the vertical bar 124 is transmitted to the horizontal bar 123, and the vertical bar 122 moves up and down by the rotation of the horizontal bar 123, so that the vertical inclination angle of the unit blind 110 is adjusted. Can be.

The first pinion gear 126 is installed in the middle of the vertical rod 124, and the first rotating shaft 127 is installed horizontally in the frame 1, is rotatably installed, and has a polygonal cross section. The reason for having a polygonal cross section is to cause the first movable worm gear 129 to rotate together with the first rotation shaft 127, that is, to prevent it from spinning.

The method of preventing the first movable worm gear 129 from spinning with respect to the first rotating shaft 127 is not limited to having a polygonal cross section, and as an example of another method, a guide groove is formed in the first rotating shaft 127 In accordance with this, it is also possible to form a guide protrusion on the first movable worm gear 129.

The first rotation shaft drive unit 128 is fixedly installed on the frame 1 to rotate the first rotation shaft 123.

The first movable worm gear 129 is fitted to the first rotating shaft 127 to be slidably installed along the longitudinal direction of the first rotating shaft 127, and is installed to be engaged with the first pinion gear 126.

In addition, the configuration of the panning unit 130 will be described.

The panning unit 130 includes a second pinion gear 131, a second rotation shaft 132, a second rotation shaft driving part 133, and a second movable worm gear 134.

The second pinion gear 131 is installed on the outer surface of the housing 121. The second pinion gear 131 may be installed by being fitted to the outer surface of the housing 121 or may be integrally formed.

The second rotation shaft 132 is installed to be elongated in the horizontal direction on the frame 1, has a polygonal cross section, and is rotatably installed around the center of the cross section. The reason for having a polygonal cross section is to cause the second movable worm gear 134 to rotate together with the second rotation shaft 132, that is, to prevent it from spinning.

The second rotation shaft driving unit 133 is installed on the frame 1 to rotate the second rotation shaft 132.

The second movable worm gear 134 is fitted to the second rotation shaft 132 to be slidably installed along the longitudinal direction of the second rotation shaft 132, and is installed to be engaged with the second pinion gear 131.

The folding unit 140 includes a lower plate 141, an up-down wire 142, a support roller 143, and a stopper 144.

A handle portion 142' is formed at an end portion of the up-down wire 142, and the user is configured to operate the folding unit 140 by pulling the handle portion 142'.

The lower plate 141 is installed under the unit blind 110 in order to up-down the unit blind 110.

The up-down wire 142 is connected to the lower plate 141 in order to up-down the lower plate 141.

One end of the up-down wire 142 is supported by the lower plate 141, and the handle portion 142' of the up-down wire 142 is exposed to the lower right side of the frame 1 so that the user can pull it and stretches long.

The support roller 143 is rotatably installed in the frame 1 to support the up-down wire 142.

A pair of stoppers 144 is configured to serve to elastically control the length of the up-down wire 142.

That is, if the handle portion 142' of the up-down wire 142 is pulled once and released, the lower plate 141 is pulled upwards by the stopper 144 to maintain the raised state (folding), and once again the handle portion When 142' is pulled out, the lower plate 141 is lowered (unfolded) by releasing the stopper 144.

In addition, the blind device of the present invention includes a belt 161 installed in the frame 1 to move a plurality of unit blinds 110; And a drive motor 162 installed on the frame 1 to drive the belt 161.

The belt 161 may be configured to be inserted into the upper guide groove 1b of the frame 1.

In this embodiment, the belt 161 is rotated by the driving of the driving motor 162. As shown in FIG. 2, the upper end of the first vertical rod 124 is the coupling portion 161a of the belt 161 ), while the upper end of the remaining vertical rod 124 is not fixed to the belt 161. In other words, the first vertical rod 124 is connected to the belt 161 while the remaining vertical rods 124 are not connected to the belt 161.

Therefore, when the belt 161 rotates, the first unit blind moves together with the belt 161, and the remaining unit blinds move according to the guide of the first unit blind, so that the unit blinds maintain a certain distance from each other. do.

On the other hand, in this embodiment, the optical sensor 153 is installed on the blade 111 to detect light, and the tilting unit 120 and the tilting unit 120 according to the amount of light measured by the optical sensor 153 A control unit 155 for controlling the panning unit 130 may be installed. The user can remotely manipulate the control unit 155 using a mobile phone through the wireless communication network 157, for example, the Internet.

That is, by operating the control unit 155 through the Internet using an application (app) installed on a mobile phone (personal mobile phone) to drive the tilting unit 120 and the panning unit 130, the vertical inclination angle of the blade 111 And it is also possible to adjust the left and right rotation angle.

In addition, the amount of light is measured by the optical sensor 113, and the control unit 155 automatically drives the tilting unit 120 and the panning unit 130 according to the amount of light measured by the optical sensor 153. It is also possible to make the blade 111 move toward the sun.

When the blade 111 moves toward the sun, it is possible to solve the problem of shading, lighting, and shading of the blade, thereby maximizing solar power generation efficiency.

In addition, in the present embodiment, a solar cell 158 for solar power is installed on the blade 111, and the charger 159 collected by the solar cell 158 is charged, and the charged electricity is first and second. It may be used by supplying the rotating shaft supply units 128 and 132, and extra electricity may be supplied to an externally required place.

In this case, in addition to the configuration in which the diffusion type reflector 111b is attached on the solid paulownia wood (111a), the blade 111 is also equipped with a flexible solar cell instead of the solid paulownia wood (111a) on the blade 111 can do.

The operation and effect of the blind device according to the present invention configured as described above will be described.

First, an operation of the tilting unit 120 for adjusting the inclination angle of each blade 111 of the plurality of unit blinds 110 in the vertical direction is as follows.

When the first rotation shaft drive unit 128 rotates the first rotation shaft 127, the first movable worm gear 129 rotates together with the first rotation shaft 127.

The first pinion gear 126 is rotated by the rotation of the first movable worm gear 129.

The vertical rod 124 is rotated by the first pinion gear 126. At this time, the housing 121 does not rotate and maintains its position.

By the bevel gear (123a) of the horizontal bar (123) and the bevel gear (124a) of the vertical bar 124 are engaged, the rotational force of the vertical bar (124) is transmitted to the horizontal bar (123), the horizontal bar (123) By the rotation of the pair of vertical rods 122 can be moved up and down.

According to the forward and reverse driving of the first rotation shaft driving unit 128, the vertical bar 122 may be in the opposite direction.

Since the blade wire 10 is connected to the vertical rod 122 by the blade wire 10, the vertical angle of each blade 111 of the unit blind 110 according to the vertical movement of the pair of vertical rods 122 Can be adjusted.

Meanwhile, the operation of the panning unit 130 for controlling the left and right angles by rotating the plurality of unit blinds 110 in the left and right directions will be described.

When the second rotation shaft driving unit 133 rotates the second rotation shaft 132, the second movable worm gear 134 rotates together with the second rotation shaft 132.

The second pinion gear 131 rotates by the rotation of the second movable worm gear 134. The housing 121 rotates by the second pinion gear 131.

At this time, the horizontal bar 123 and the vertical bar 122 rotate together with the housing 121. Since the blade wire 10 is connected to the vertical rod 122 by the blade wire 10, the left and right angles of the unit blind 110 can be adjusted according to the left and right rotation of the pair of vertical rods 122 .

In the present embodiment, the tilting unit 120 and the panning unit 130 may operate, respectively, or may operate simultaneously.

In addition, the operation of the folding unit 140 to up-down the unit blind 110 will be described.

The user pulls the handle portion 142' of the up-down wire 142 to pull the lower plate 141 upward, and when the handle portion 142' of the up-down wire 142 is released, a pair of stoppers 145 The lower plate 141 is pulled upwards (folding) due to the stopper 145 being caught, and if the handle part 142' is pulled out again, the lower plate ( 141) remains down (unfolding).

On the other hand, the blade control method of the sun-following blind according to the present invention controls the left and right inclination angles before and after the blade of the blind.

Furthermore, the method of controlling the light of the blind device of the present invention is a blind device in which a plurality of unit blinds 110 are installed in a longitudinal direction connected to each other at a predetermined distance from each other, the blade 111 Is characterized in that the front and rear and/or left and right directions are adjustable, so that light may be blocked or light reflected by the blade 111 may be sent in a desired direction.

As described above, by adjusting the angle of the blade, the awning function can be smoothly performed without damaging neighboring buildings, and the current season and time of day as well as the ability to allow lighting such as the existing vertical blinds can be performed. And, according to the solar altitude angle, the optical sensor adjusts the inclination angle of the blade differently to solve the problem of excessive glare to the residents of neighboring buildings, and it is possible to solve the problem of shading, lighting, and blade shading, maximizing solar power generation efficiency. Is possible.

In addition, it is possible to adjust the indoor brightness and indoor temperature by varying the direct sunlight directly or indirectly entering the room according to the season, and the angle and separation distance of adjacent blades can be adjusted automatically as well as manually according to the solar altitude angle. A remote control or fully automatic control is possible using wireless communication.

In addition, the tilting unit and the panning unit can be used to freely adjust and control the front and rear inclination angles and the left and right rotation angles of the blades of the unit blinds, so that the reflected light while having the existing shading function can be controlled in a specific direction, for example, of a neighboring building. It has the function of guiding the residents in a direction that does not cause excessive glare. A reflective film or a reflective film for reflecting light may be attached to the blade surface, or a light absorbing film may be attached.

1: frame
10: blade wire
110: unit blind
111: blade
120: tilting unit
121: housing
122: vertical rod
123: horizontal bar
123a: bevel gear
124: vertical rod
124a: bevel gear
126: first pinion gear
127: first rotating shaft
128: first rotation shaft drive unit
129: first movable worm gear
130: panning unit
131: second pinion gear
132: second rotation shaft
133: second rotation shaft drive unit
134: second movable worm gear
140: folding unit
141: lower plate
142: up-down wire
142': handle part
143: support roller
145: stopper
153: optical sensor
155: control unit
157: wireless communication only
158: solar cell
159: charger

Claims (7)

Frame (1) mounted on the upper end of the window; A plurality of unit blinds 110 that are connected and installed by a blade wire 10 in which a plurality of blades 111 have different heights; A tilting unit 120 for adjusting the inclination angle of the blade 111 in the vertical direction; A panning unit 130 for adjusting the left and right angle by rotating the blade 111 in the left and right direction; And a folding unit 140 that selectively folds the unit blind 110 by up-down,
An optical sensor 153 installed on the blade 111 to detect light; And
And a control unit 155 for controlling the tilting unit 120 and the panning unit 130 according to the amount of light measured by the optical sensor 153,
The tilting unit 120 is
It is installed so as to be movable left and right along the frame 1, and therein, a pair of vertical rods 122 supporting the upper end of the blade wire 10 and a horizontal rod connecting the vertical rods 122 to each other ( 123) is installed, a vertical bar 124 is installed vertically to rotate the horizontal bar 123, and a bevel gear 125 for power transmission between the horizontal bar 123 and the vertical bar 124 Housing 121 having a;
A first pinion gear 126 installed on the vertical rod 124;
A first rotation shaft 127 installed in the frame 1 to be elongated in the horizontal direction, having a polygonal cross section, and rotatably installed around the center of the cross section;
A first rotation shaft driving unit 128 installed on the frame 1 so as to rotate the first rotation shaft 127; And
A first movable worm gear 129 that is fitted into the first rotation shaft 127 and is slidably installed along the longitudinal direction of the first rotation shaft 127, and is installed to be meshed with the first pinion gear 126 ), and
The panning unit 130 is
A second pinion gear 131 installed on the outer surface of the housing 121;
A second rotation shaft (132) installed in the frame (1) in a horizontal direction, having a polygonal cross section, and rotatably installed around the center of the cross section;
A second rotary shaft driving unit 133 installed on the frame 1 to rotate the second rotary shaft 132; And
A second movable worm gear 134 that is fitted to the second rotation shaft 132 and is slidably installed along the longitudinal direction of the second rotation shaft 132 and is installed to be meshed with the second pinion gear 131 ), and
On the outer surface of the housing 121, a guide wing 121a inserted into the lower guide groove 1a of the frame 1 so as to contact the lower inner surface of the frame 1 when the housing 121 slides. Is formed,
The vertical rod 124 is installed inside the housing 121, the upper end of the vertical rod 124 protrudes upward from the housing 121, and the first pinion gear 126 is the vertical rod 124 is installed at a portion protruding in the upper direction of the housing 121,
The vertical rod 124 is rotated by the rotation of the first pinion gear 126, and the housing 121 is rotated by the rotation of the second pinion gear 131, and the first pinion gear 126 ) And the rotation center of the second pinion gear 131 are located on the same line. delete The method according to claim 1,
A belt (161) installed in the frame (1) to move the plurality of unit blinds (110); And
A driving motor 162 installed on the frame to drive the belt 161; Solar-following blind device further comprising a. The method according to claim 1,
The folding unit 140 is
A lower plate 141 installed under the unit blind 110 to up-down the unit blind 110;
An up-down wire 142 connected to the lower plate 141 to up-down the lower plate 141;
A support roller 143 rotatably installed in the frame 1 to support the up-down wire 142; And
Solar-following blind device comprising a stopper (144) for controlling the up-down length of the up-down wire (142). The method according to claim 1,
Solar-following blind device further comprising a wireless communication network (157) for operating the control unit (155). The method according to claim 1,
The blade 111 is a solar-following blind device, characterized in that the configuration in which a diffusion type reflector (111b) is attached to the solid paulownia (111a). delete

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