KR102056933B1 - Height-adjustable light Shelf - Google Patents

Abstract

The present invention relates to a light shelf capable of height adjustment. The present invention provides a guide frame (20, 20 ') installed in the window 10 or the window frame, a moving module (30, 30') moving along the guide frame (20, 20 '), and the moving module ( 30, 30 'is connected to the guide frame (20, 20') with the moving module (30, 30 ') and the light half plate 50 consisting of a light panel that reflects light outside Include. Through this, the light panel of the present invention can be adjusted in height and angle of the light panel according to the external illumination. Therefore, in the present invention, it is possible to actively respond to the external environment by adjusting the height and angle of the light beam according to the incident angle and the incident amount of sunlight that change with time.

Description

Height-adjustable light Shelf}

The present invention relates to a light shelf that can be adjusted in height, and more particularly, to a light panel capable of opening and closing operation by adjusting the height to achieve the optimal light performance while varying the height according to the external illuminance. .

Recently, as the level of culture improves, the demand for quality improvement of architectural space is increasing. As one of them, a technology for introducing natural light into a room has been developed. When natural light is introduced into a room, energy can be saved, and a bright and comfortable indoor environment can be provided. This not only improves the living efficiency of residents, but also has a positive psychological and physiological effect on the residents.

As described above, in order to introduce natural light into the interior space, windows have been installed where necessary in a building to allow natural light to flow into the interior space. When natural light is introduced into the indoor space through the windows, the daylight illuminance near the window is increased, while the daylight illuminance far from the window is low, resulting in an imbalance.

As such, a light shelf is used to solve a problem caused when natural light is introduced into an indoor space through only a window or a window. Light panel refers to a shelf-type device for reflecting the natural light flowing into the ceiling to be used as indoor lighting. Such light shelves may be classified into indoor light shelves and outdoor light shelves depending on where they are installed.

Among them, outdoor light panels can introduce more natural light into the building, but because they have a fixed shape, they do not actively cope with external illumination, and thus have difficulty in achieving optimal light performance.

In addition, the conventional outdoor light board may obstruct the view of the indoor user. Especially at nighttime or in low weather conditions, the light beam may not play its role and may only damage the view.

In addition, if the light board is installed in a high floor and is subjected to high wind pressure, there is a risk of breakage, but it is necessary to remove it, but the outdoor light board has a problem in which such work is not easy.

Republic of Korea Patent No. 10-1400993

The present invention is to solve the problems of the prior art as described above, an object of the present invention is to increase the light-emitting performance according to the external illumination through the height adjustment of the light beam.

Another object of the present invention is to fold the light shelves as needed to ensure viewing rights, so that the light shelves are less affected by the external environment such as strong wind.

According to a feature of the present invention for achieving the object as described above, the present invention is a guide frame which is installed in the window or window frame, a moving module to automatically move along the guide frame by the built-in motor, the movement A light beam plate connected to a module and configured to move along the guide frame together with the moving module and have a light panel for reflecting light on an outer surface thereof, wherein the moving module has a fastening groove penetrated in a vertical direction. The groove is inserted into the engaging frame relatively inserted between the front frame and the installation body and the front frame protruding forward from the installation body of the guide frame, the moving module is a module housing having an installation space therein, A motor built in the installation space to generate power, and a power supply unit supplying power to the motor In addition, the moving module moves along the guide frame or rotates the light disk plate by the power of the motor, the guide frame is installed in both the window or window frame in the vertical direction, the light disk plate Is installed in a direction crossing the pair of guide frames, both of the light plate is rotatably connected to the moving module, the sensor module is provided at a position adjacent to the guide frame or the guide frame, the sensor module When the external wind speed or the external wind speed more than a predetermined speed is detected, the mobile module is automatically operated, the sensor module is connected to the main control unit, the main control unit by operating the mobile module according to the external illuminance or wind speed Raise or rotate the light plate and rotate the light plate The teuneun rotated in a state of moving to the top or bottom of the guide frame be brought into close contact with the outer wall adjacent to the windows the damage of the light shelf plate can be prevented.

The light plate is configured to be rotatable about the moving module.

The guide frame and the moving module are provided in pairs on both sides of the window or the window frame, respectively.

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The light shelf that can adjust the height according to the present invention as described above has the following effects.

The light panel of the present invention can be adjusted in height and angle of the light panel according to the external illumination. Therefore, in the present invention, by adjusting the height and angle of the light beam according to the incident angle and the amount of incidence of sunlight that changes with time, it is possible to actively respond to the external environment, thereby obtaining the optimal light performance, thereby improving the efficiency of the light beam There is.

In addition, the user may arbitrarily adjust the amount of natural light flowing into the room according to the external weather change or the position of the sun through height adjustment and angle adjustment. In particular, at night or in low weather conditions, it is possible to secure the viewing area as much as possible by moving the light beam to the outside of the window or folding the light beam toward the outer wall of the building.

In addition, in an external situation in which there is a risk of damage, such as a strong wind, by bringing the light board close to the outer wall of the building to be less affected by the external environment, there is also an effect that can increase the durability and safety of the light board.

In addition, in the present invention, such an operation is automatically performed through the sensor module and the controller, thereby improving user convenience.

Figure 1 is a state of use showing the appearance of one embodiment of a height adjustable light panel according to the present invention is applied.
Figure 2 (a) and Figure 2 (b) is a state diagram showing the state in which the inclination angle of the light beam is changed in different directions in FIG.
3 is an enlarged perspective view illustrating a configuration of a moving module constituting the embodiment shown in FIG. 1;
Figure 4 and Figure 5 is an operating state showing the process of bringing the height adjustable according to the invention in close contact with the outer wall folded.
Figure 6 is a flow chart sequentially showing the process of controlling the height adjustable light panel according to the present invention.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are assigned to the same components as much as possible even though they are shown in different drawings. In addition, in describing an embodiment of the present invention, if it is determined that the detailed description of the related known configuration or function is to interfere with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in explaining the component of the Example of this invention, terms, such as 1st, 2nd, A, B, (a), (b), can be used. These terms are only for distinguishing the components from other components, and the nature, order or order of the components are not limited by the terms. If a component is described as being "connected", "coupled" or "connected" to another component, that component may be directly connected or connected to that other component, but between components It will be understood that may be "connected", "coupled" or "connected".

The adjustable light ray panel according to the present invention allows the user to arbitrarily or automatically adjust the amount of light flowing into the room (I) by adjusting its height and angle. To this end, the present invention is connected to the moving module (30, 30 '), the moving module (30, 30') is installed to be movable along the guide frame (20, 20 ') again. Hereinafter, the configuration of the present invention will be described. For reference, reference numeral 'I' denotes an indoor side and reference numeral 'O' denotes an outdoor side based on the window 10.

The height controllable light panel according to the present invention (hereinafter referred to as "light shelf") is installed in the window (10). More precisely, the light board may be installed in the window 10 or a window frame (not shown) surrounding the window 10. In this embodiment, the guide frames 20 and 20 'constituting the light panel are windows ( 10) are installed on both sides. More precisely, the guide frames 20 and 20 'are installed on both sides of the window 10 corresponding to the outer wall of the building.

In the present embodiment, the guide frames 20 and 20 'are installed on both sides of the window 10 in the vertical direction. The guide frames 20 and 20 'become the movement paths of the moving modules 30 and 30' and the light plate 50 connected thereto. The guide frames 20 and 20 'are not necessarily installed in the up and down direction, and may be installed in the left and right directions or may be installed along all four sides of the window 10. The guide frames 20 and 20 'installed in the left and right directions may move the light shelves to the left or the right so as not to cover the windows 10.

The structure of the guide frame (20, 20 ') can be seen in Figure 3, the guide frame (20, 20') is an installation body 21 in close contact with the outer wall, and protrudes forward from the installation body 21 Consists of the front frame 25, there is a locking channel 23 of the relatively concave shape between the installation body 21 and the front frame 25. The locking channel 23 and the front frame 25 are engaged with the fastening groove 35 of the moving module 30, 30 'to be described below. Of course, the guide frames 20 and 20 'do not have to have such a structure, and various modifications are possible if the guide frames 20 and 20' can guide the moving paths of the moving modules 30 and 30 '.

The moving modules 30 and 30 'are connected to the guide frames 20 and 20'. The moving module 30, 30 ′ serves to elevate the light plate 50 while moving along the guide frames 20, 20 ′. The moving modules 30 and 30 'are paired to be connected to the guide frames 20 and 20', respectively. The moving modules 30 and 30 'may not only elevate the light plate 50, but may also be the center of rotation of the light plate 50. To this end, the light plate 50 is rotatably connected to the moving module (30, 30 '), a detailed structure will be described below.

As shown in FIG. 3, the moving modules 30 and 30 'have a substantially hexahedral shape and are movably coupled to the guide frames 20 and 20'. The skeleton of the mobile module (30, 30 ') is formed by the module housing 31, there is an installation space inside the module housing (31). The installation space is provided with a motor (not shown) to automatically move up and down the mobile module (30, 30 '). Of course, the motor is omitted in the moving module (30, 30 '), the user may manually move the moving module (30, 30'). In this case, there is a fixing groove and a fixing protrusion structure corresponding to each of the moving modules 30 and 30 'and the guide frames 20 and 20', thereby allowing the light plate 50 to be fixed at a specific height. .

Motors built into the moving modules 30 and 30 'generate power to cause the moving modules 30 and 30' to be lifted along the guide frames 20 and 20 '. The motor is connected to a power source to supply electricity. To be supplied. The power supply unit may be installed inside the module housing 31 or may be installed outside the module housing 31. For example, the power supply unit is installed on the guide frames 20 and 20 'and connected to the motor and wires, or to the terminals and guide frames 20 and 20' provided in the moving modules 30 and 30 '. Power may be provided by contact between the terminals provided. The motor may be divided into a lifting motor for lifting the moving modules 30 and 30 'and a rotating motor for rotating the light plate 50.

The moving module (30, 30 ') has a fastening groove 35, the fastening groove 35 is formed by penetrating the moving module (30, 30') in the vertical direction. The locking channel 23 is fitted with the locking channel 23 and the front frame 25 of the guide frame 20, 20 ′ between the guide frame 20, 20 ′ and the moving module 30, 30 ′. Should not be separated. The guide frames 20 and 20 'may be fitted through the lower portion of the fastening groove 35, and as shown in FIG. 3, through the top surfaces 21' and 25 'of the guide frames 20 and 20'. Can be fitted.

Although not shown, a main control unit may be connected to the moving modules 30 and 30 ', and the moving modules 30 and 30' may be controlled through the main control unit. The main control unit may be built in the mobile module 30, 30 ', or may be installed separately from the mobile module 30, 30' and connected to the mobile module 30, 30 'in a wired or wireless manner. Modules 30 and 30 ′ serve to control lifting or rotating the light plate 50. The main controller controls the moving modules 30 and 30 'based on information detected through the sensor module 70 to be described below, or controls the moving modules 30 and 30' by a user's operation. can do.

The light plate 50 is connected to the moving modules 30 and 30 '. The light plate 50 is for reflecting light, and reflects the sunlight to enter the room (I). Both ends of the light plate 50 are connected to the pair of moving modules 30 and 30 'so as to cross the window 10 from side to side. The light plate 50 is formed in a thin plate shape, in this embodiment is a rectangular shape. The light plate 50 may be made of a light and high strength material, for example, aluminum or high strength resin. The shape of the light beam plate 50 is not necessarily limited to a quadrangle and may be made of a flexible material. In addition, the length and width of the light beam plate 50 need not be specified, and may have various lengths and widths.

A reflection surface 51 is formed on an outer surface of the light beam plate 50. The reflective surface 51 is a portion that substantially reflects sunlight, and is treated with a glossy finish. However, because the staining pattern may occur on the ceiling surface of the room (I) due to staining or contamination of the reflective surface 51, it may be finished with a prismatic film.

The light plate 50 is elevated along the moving modules 30 and 30 '. The light plate 50 may be changed in position according to the incident angle or the amount of incidence of sunlight. In the present embodiment, the light plate 50 may be moved upward or downward along the moving modules 30 and 30 '. In addition, the light plate 50 may be rotated by the moving module (30, 30 '). Rotating shaft 55 is connected to the light plate 50 in the left and right direction, and both ends of the rotating shaft 55 have a rotating end 55 'coupled to the moving modules 30 and 30'. Rotation of the light half plate 50 allows to finely adjust the reflection angle of the sunlight reflected by the light half plate 50. For reference, FIGS. 2 (a) and 2 (b) show a state in which angles of the light plate plates 50 are adjusted in different directions.

The sensor module 70 is installed at positions adjacent to the guide frames 20 and 20 '. The sensor module 70 is for sensing an external environment and is installed on the outer wall adjacent to the guide frames 20 and 20 ', and is connected to the main controller in a wired or wireless manner to transmit the sensed information. Of course, the sensor module 70 may be directly installed in the guide frame (20, 20 ').

The sensor module 70 may include a plurality of sensors, and in this embodiment, includes an illumination sensor and a wind speed sensor. The illuminance sensor may determine whether to reflect sunlight by using the light plate 50 according to the external illumination. If the external illuminance is lower than the reference value, the efficiency is lowered so that the light plate 50 may be folded to secure the field of view. It is possible to prevent damage to the light plate 50 by using the wind speed sensor. When the wind speed is sensed by the wind speed sensor more than a predetermined speed to prevent the breakage of the light plate 50, the main control unit can control the light plate 50 in the direction in close contact with the outer wall as shown in FIG.

Hereinafter, a process of operating the light beam according to the present invention will be described.

6 shows an example of a control method for controlling the light spot of the present invention in a flow chart. Referring to this, first, it is detected whether there is an occupant in the room I, which may use an infrared sensor installed in the room I (S10). If there are occupants, it is necessary to increase the illuminance of the room (I), so the light plate 50 should be used. However, when the external illuminance is low, the light may not be introduced through the light plate 50, or the amount of light introduced may be small. In this case, it is more advantageous that the light plate 50 does not cover the window 10 in order to secure the viewing rights.

Therefore, the sensor module 70 measures the external illuminance, and the main controller determines whether the measured external illuminance is greater than or equal to the reference value (S20). If the determination result is greater than or equal to the reference value, the main control unit operates the moving modules 30 and 30 'to move the light plate 50 to the front of the window 10 (S30). Since the moving modules 30 and 30 'may move along the guide frames 20 and 20', the light plate 50 connected to the moving modules 30 and 30 'also moves together. At this time, the movement of the moving module (30, 30 ') may be made manually, but in this embodiment is automatically operated by the motor. 1 is a state in which the light plate 50 is deployed in front of the window 10 can reflect the sunlight. For reference, since the light plate 50 may reflect the sun light most efficiently when it is 1.8 meters high from the ground, the main controller may move the light plate 50 50 to a height of 1.8 meters to fix it.

Of course, the main controller may adjust the height to suit the external environment without fixing the height of the light plate 50 at a specific position. For example, by comparing the external illuminance detected by the sensor module 70, the indoor illuminance introduced by the light board plate 50 by using an indoor illuminance sensor (not shown), and to increase the indoor illuminance It is possible to adjust the height or the angle of inclination of the light plate 50. Therefore, in the present invention, it is possible to actively respond to the external environment by adjusting the height and angle of the light plate 50 according to the incident angle and the incident amount of sunlight that changes with time.

The user can arbitrarily adjust the amount of natural light flowing into the room according to the external weather change or the position of the sun by adjusting the height and the angle of the light plate 50. For example, if the user in the room wants to reduce the incoming sunlight, the height of the light plate 50 or the inclination angle can be adjusted arbitrarily.

On the other hand, the external environment may be changed in the process of the sunban plate 50 reflects the sunlight. For example, in the process of clouding or sun setting, the external illuminance may be lowered. In this case, the main control unit secures the viewing right by moving the light plate 50. That is, the sensor module 70 measures the external illuminance, and the main controller analyzes the value to determine whether the sensor module 70 is less than the reference value (S40). If the reference value is less than the main control unit stops using the light plate 50 (S50). The light plate 50 is moved so as not to cover the window 10.

Looking at the process, the moving module (30, 30 ') is operated to move to the top of the guide frame (20, 20'). The light plate 50 connected to the moving modules 30 and 30 'is also moved upward. In FIG. 4, it can be seen that the moving modules 30 and 30 ′ and the light plate 50 are moved to some extent upward. When the moving module 30, 30 ′ and the light plate 50 reach the upper ends of the guide frames 20, 20 ′, the moving module 30, 30 ′ rotates the light plate 50. Accordingly, the light plate 50 is rotated toward the outer wall direction, more precisely toward the outer wall located above the window 10. When the light plate 50 is completely rotated, as shown in FIG. 5, the light plate 50 is in close contact with the outer wall and is folded, and the bottom surface 53 of the light plate 50 is exposed.

In this case, the light panel 50 may not cover the field of view of the user of the room I at all, and the light panel 50 may not be damaged even in a strong wind environment. That is, the light plate 50 may damage the light plate 50 or the moving modules 30 and 30 'connected to the light plate 50 while the light plate 50 is resistant to strong wind. If the plate 50 is in close contact with the outer wall is to be in a state that does not resist the wind. Of course, unlike FIG. 5, the light plate 50 may move to the lower ends of the guide frames 20 and 20 'and be folded in the opposite direction.

And this operation can be arbitrarily adjusted by the user. For example, at night or in low weather conditions, the user may move the light plate 50 to the outside of the window, or fold the light plate 50 toward the outer wall of the building to secure the viewing area as much as possible.

In the foregoing description, the present invention is not necessarily limited to these embodiments, although all of the components constituting the embodiments according to the present invention are described as being combined or operating in combination. That is, within the scope of the present invention, all of the components may be selectively operated in combination with one or more. In addition, the terms "comprise", "comprise" or "having" described above mean that the corresponding component may be inherent unless specifically stated otherwise, and thus excludes other components. It should be construed that it may further include other components instead. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art unless otherwise defined. Terms used generally, such as terms defined in a dictionary, should be interpreted to coincide with the contextual meaning of the related art, and shall not be interpreted in an ideal or excessively formal sense unless explicitly defined in the present invention.

The above description is merely illustrative of the technical idea of the present invention, and those skilled in the art to which the present invention pertains may make various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical spirit of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

10: window 20,20 ': guide frame
30,30 ': Moving module 50: Light plate
70: sensor module

Claims (8)

A guide frame installed on the window or the window frame,
A moving module that automatically moves up and down along the guide frame by a built-in motor,
A light board plate connected to the moving module and configured to move along the guide frame together with the moving module, and a light board having an outer surface reflecting light;
The moving module has a fastening groove penetrated in the up and down direction, and the fastening grooves inserted between the front frame and the installation body and the front frame which protrude forward from the installation body of the guide frame are inserted into each other to be assembled to each other. Become,
The moving module
Module housing with installation space inside,
A motor built into the installation space and generating power;
It includes a power supply for supplying power to the motor,
The moving module moves along the guide frame or rotates the light plate by the power of the motor,
The guide frame is installed in both the window or window frame in the vertical direction, the light plate is installed in a direction crossing the pair of guide frame, both sides of the light plate to be rotatable to the moving module Connected,
A sensor module is provided at a position adjacent to the guide frame or the guide frame, and the sensor module automatically operates the moving module when it detects an external illuminance or an external wind speed of a predetermined speed or more.
The sensor module is connected to the main control unit, the main control unit to operate the mobile module according to the external illuminance or wind speed to raise or lower the light plate plate,
The light board is a height control panel that can be adjusted in height to prevent damage to the light board plate by being in close contact with the outer wall adjacent to the window by rotating in the state moving to the top or bottom of the guide frame.
The height-adjustable light beam of claim 1, wherein the light beam plate is configured to be rotatable about the moving module.
According to claim 1, The guide frame and the movable module is a height-adjustable light panel provided in pairs on both sides of the window or window frame respectively.
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