KR20190012529A - Height-adjustable light Shelf - Google Patents

Abstract

The present invention relates to a height-adjustable light shelf, comprising: guide frames (20, 20′) installed in a window (10) or a window frame; movement modules (30, 30′) moving along the guide frames (20, 20′); and a light shelf plate (50) connected to the movement modules (30, 30′) to move along the guide frames (20, 20′) with the movement modules (30, 30′), and having an outer surface which is formed with a light shelf used to reflect light. Accordingly, the light shelf of the present invention has a height and an angle, adjustable in accordance with external illumination. Therefore, the height and angle of the light shelf can be adjusted in accordance with an incidence angle and an incidence amount of sunlight, which are changed over time, to actively respond to external environments.

Description

[0001] Height-adjustable light shelf [0002]

The present invention relates to a light shelf capable of height adjustment, and more particularly, to a light shelf capable of performing optimal opening and closing operations by adjusting the height, .

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

In order to introduce natural light into the interior space, conventionally, a window was installed at a necessary place in the building to allow natural light to enter the interior space. When the natural light is introduced into the indoor space through the window, the daylight illuminance near the window increases, while the daylight illuminance at the window and the distant place is low, resulting in an imbalance.

A light shelf is used to solve the problem that occurs when natural light enters the indoor space through the window only. The light shelf refers to a shelf-like device for reflecting the natural light introduced into the room to the ceiling for use as room lighting. Such a light shelf can be classified into an indoor light shelf and an outdoor light shelf depending on the installation place.

Among these, the outdoor type light shelf can introduce more natural light into the inside of the building, but it has a fixed shape, and thus can not actively cope with external illuminance, so that it is difficult to exhibit optimum lighting performance.

In addition, the conventional outdoor type light shelf can hinder the view of the user by covering the view of the indoor user. Especially, at nighttime and at low weather conditions, the light shelf can not play a role and can only damage the view.

If the light shelf is installed in a high-rise building and the environment receives high wind pressure, there is a risk of breakage, and it is necessary to remove it. However, the outdoor light shelf has a problem that such an operation is not easy.

Korean Patent No. 10-1400993

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art, and it is an object of the present invention to increase the mining performance according to the external illuminance by adjusting the height of the light beam.

Another object of the present invention is to secure a view right by folding a light shelf according to need, and to allow a light shelf to be less affected by an external environment such as a strong wind.

According to an aspect of the present invention for achieving the above object, the present invention provides a mobile communication terminal including a guide frame installed in a window or a window frame, a movement module moving along the guide frame, And a light shelf plate, which is composed of a light shelf that moves along the guide frame and reflects light on its outer surface.

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

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

Wherein the moving module includes a module housing having an installation space therein, a motor built in the installation space for generating power, and a power supply for supplying power to the motor, And moves along the guide frame or rotates the light shelf plate.

Wherein the guide frame is vertically installed on both sides of the window or window frame, the optical shelf plate is installed in a direction crossing the pair of guide frames, and both sides of the optical shelf plate are rotatably .

A sensor module is provided at a position adjacent to the guide frame or the guide frame, and the sensor module senses the external illuminance so that the mobile module is automatically operated.

The sensor module is connected to the main control unit, and the main control unit operates the moving module according to the external illuminance to elevate or rotate the optical shelf plate.

The light shelf plate may rotate while moving to the upper or lower end of the guide frame, and may be in close contact with an outer wall adjacent to the window.

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

The light shelf of the present invention can adjust the height and angle of the light beam according to the external illuminance. Therefore, according to the present invention, by adjusting the height and angle of the light beam according to the incident angle and incident amount of sunlight varying with time, it is possible to actively cope with the external environment, thereby achieving optimal lightening performance, .

In addition, the light shelf of the present invention allows the user to arbitrarily adjust the amount of natural light that flows into the room according to the external weather change or the position of the sun through height adjustment and angle adjustment. Particularly, in a weather condition in which nighttime or external illumination is low, the light shelf is moved to the outside of the window, or the light shelf is folded toward the exterior wall of the building, thereby maximizing the viewing right.

In addition, in an external situation where there is a risk of damage due to strong winds, the light shelf is brought into close contact with the outer wall of the building to lessen the influence of the external environment, thereby enhancing durability and safety of the light beam.

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

FIG. 1 is an exploded view of an embodiment of a height-adjustable light beam according to the present invention. FIG.
FIG. 2 (a) and FIG. 2 (b) are explanatory views showing the state in which the inclination angles of the light ray halves are changed to different directions in FIG.
FIG. 3 is an enlarged perspective view of the configuration of a moving module constituting the embodiment shown in FIG. 1; FIG.
FIGS. 4 and 5 are operation states showing a process of folding a height-adjustable light shelf according to the present invention and bringing it into close contact with an outer wall.
FIG. 6 is a flowchart illustrating a process of controlling a height-adjustable light shelf according to an embodiment of the present invention; FIG.

Hereinafter, some embodiments of the present invention will be described in detail with reference to exemplary drawings. It should be noted that, in adding reference numerals to the constituent elements of the drawings, the same constituent elements are denoted by the same reference symbols as possible even if they are shown in different drawings. In the following description of the embodiments of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the understanding why the present invention is not intended to be interpreted.

In describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), and (b) may be used. These terms are intended to distinguish the constituent elements from other constituent elements, and the terms do not limit the nature, order or order of the constituent elements. When a component is described as being "connected", "coupled", or "connected" to another component, the component may be directly connected or connected to the other component, Quot; may be "connected," "coupled," or "connected. &Quot;

The length adjustable light shelf according to the present invention adjusts the height and angle of the light shelf so that the user can arbitrarily or automatically adjust the amount of light entering the room I. [ To this end, the moving shelf 30, 30 'is connected to the light shelf, and the moving modules 30, 30' are movably installed along the guide frames 20, 20 '. Hereinafter, the configuration of the present invention will be described. For reference, reference numeral 'I' designates the indoor side and 'O' designates the outdoor side with respect to the window 10.

A height adjustable light shelf (hereinafter referred to as 'light shelf') of the present invention is installed in a window 10. More precisely, the light shelf can be installed in a window frame (not shown) surrounding the window 10 or the window 10. In this embodiment, the guide frames 20 and 20 ' 10). 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 this embodiment, the guide frames 20 and 20 'are vertically installed on both sides of the window 10. The guide frames 20 and 20 'are movement paths of the movement modules 30 and 30' and the light shelf plate 50 connected thereto, which will be described below. The guide frames 20 and 20 'are not necessarily installed in the vertical direction but may be installed in the left and right directions or all along the four sides of the window 10. [ The guide frames 20 and 20 'installed in the left and right direction can move the light shelf to the left or right so as not to block the window 10.

The structure of the guide frames 20 and 20 'can be seen in FIG. 3. The guide frames 20 and 20' have an installation body 21 which is in close contact with an outer wall, And a fastening channel 23 is formed between the mounting body 21 and the front frame 25 in a relatively recessed form. The retaining channel 23 and the front frame 25 are engaged with the engaging grooves 35 of the moving module 30, 30 ', which will be described below. Of course, the guide frames 20 and 20 'do not necessarily have such a structure, and various modifications are possible if they can guide the movement path of the movement modules 30 and 30'.

The movement modules 30 and 30 'are connected to the guide frames 20 and 20'. The moving modules 30 and 30 'move along the guide frames 20 and 20' to raise and lower the optical shelf plate 50. The moving modules 30 and 30 'are coupled to the guide frames 20 and 20', respectively. The moving modules 30 and 30 'not only lift and lower the light shelf plate 50 but also serve as rotation centers of the light shelf plate 50. To this end, the light shelf plate 50 is rotatably connected to the moving module 30, 30 ', the detailed structure of which will be described below.

As shown in FIG. 3, the moving module 30, 30 'has a substantially hexahedral shape and is movably coupled to the guide frames 20, 20'. The skeleton of the moving modules 30 and 30 'is formed by a module housing 31, and a space is provided inside the module housing 31. A motor (not shown) is provided in the installation space to automatically raise and lower the moving modules 30 and 30 '. Of course, the motor is omitted in the movement module 30, 30 ', and the user may manually move the movement module 30, 30'. In this case, the movable modules 30 and 30 'and the guide frames 20 and 20' have fixing grooves and fixing protrusions corresponding to each other, so that the optical shelf plate 50 can be fixed at a specific height .

The motors built in the moving modules 30 and 30 'generate power to move the moving modules 30 and 30' along the guide frames 20 and 20 '. The motor is connected to a power source, It is supplied. The power unit may be installed inside the module housing 31 or outside the module housing 31. For example, the power unit may be installed on the guide frames 20 and 20 'and may be connected to the motors through wires, or may be connected to terminals and guide frames 20 and 20' provided in the movement modules 30 and 30 ' The terminals may be in contact with each other to supply power. The motor may be configured to be divided into an elevating motor for raising and lowering the moving modules 30 and 30 'and a rotating motor for rotating the light rack plate 50.

The moving modules 30 and 30 'are provided with locking grooves 35 which are formed by vertically passing the moving modules 30 and 30'. The engaging channel 23 and the front frame 25 of the guide frame 20 and 20 'are inserted into the engaging groove 35 and the guide frame 20 and the moving frame 30' . The guide frames 20 and 20 'can be inserted through the lower portions of the coupling grooves 35. The guide frames 20 and 20' can be inserted through the upper surfaces 21 'and 25' of the guide frames 20 and 20 ' Can be inserted.

Although not shown, a main control unit is connected to the movement modules 30 and 30 ', and the movement modules 30 and 30' can be controlled through the main control unit. The main control unit is installed in the mobile module 30 or 30 'or separately from the mobile module 30 or 30' and is connected to the mobile module 30 or 30 'in a wired or wireless manner, And controls the modules 30 and 30 'to move the optical shelf plate 50 up or down. The main control unit controls the movement modules 30 and 30 'based on the information sensed through the sensor module 70 to be described below or controls the movement modules 30 and 30' can do.

A light shelf plate (50) is connected to the moving module (30, 30 '). The light shelf plate 50 is for reflection of light, and reflects sunlight to enter the room I. Both ends of the light shelf plate 50 are connected to the pair of moving modules 30 and 30 ', respectively, and the window 10 is horizontally traversed. The light shelf plate 50 is formed in a thin plate shape, which is rectangular in this embodiment. The light shelf plate 50 may be made of a lightweight material having high strength, for example, aluminum or high strength resin. The shape of the light shelf plate 50 is not necessarily limited to a rectangular shape, and may be made of a flexible material. In addition, the length and width of the light shelf plate 50 need not be specified, and can have various lengths and widths.

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

The light shelf plate 50 is moved up and down along the movement modules 30 and 30 '. The position of the light shelf plate 50 can be changed according to the incidence angle of the sunlight or the amount of incident light. In this embodiment, the light shelf plate 50 can be moved upward or downward along the movement modules 30 and 30 '. Further, the light shelf plate 50 can be rotated by the movement modules 30 and 30 '. A rotating shaft 55 is connected to the optical lathe plate 50 in the left and right direction and a rotating end 55 'coupled to the moving modules 30 and 30' is provided at both ends of the rotating shaft 55. The rotation of the light shelf plate 50 makes it possible to finely control the reflection angle of the sun light reflected by the light shelf plate 50. 2 (a) and 2 (b) show a state in which the angles of the light shelf plates 50 are adjusted to different directions, respectively.

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

The sensor module 70 may include a plurality of sensors. In this embodiment, the sensor module 70 includes an illuminance sensor and an air velocity sensor. The illuminance sensor can determine whether to reflect sunlight using the light shelf plate 50 according to the external illuminance. If the external illuminance is lower than the reference value, the efficiency is lowered, so that the light shelf plate 50 can be folded to secure a field of view. It is possible to prevent breakage of the light shelf plate 50 by using the wind speed sensor. When the wind speed sensor detects a wind speed of a predetermined speed or higher, the main control unit can control the light shelf plate 50 in a direction to close the outer shelf plate 50 as shown in FIG. 5 in order to prevent breakage of the light shelf plate 50.

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

FIG. 6 is a flowchart showing an example of a control method for controlling the light shelf of the present invention. Referring to FIG. 1, first, it is detected whether or not there is a room occupant in the room I, which may be an infrared sensor installed in the room I (S10). If there is room occupation, the light shelf plate 50 should be used because it is necessary to increase the illuminance of the room I. However, if the external illuminance is low, light can not be introduced through the light shelf plate 50, or the amount of incoming light may be small. In this case, it is more advantageous to prevent the light shelf plate 50 from covering the window 10 in order to secure a view.

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

Of course, the height of the light shelf plate 50 can be adjusted according to the external environment without fixing the height of the light shelf plate 50 to a specific position. For example, the external illuminance sensed by the sensor module 70 is compared with the indoor illuminance introduced by the light shelf plate 50 using a room illuminance sensor (not shown), and the indoor illuminance can be further increased The height or inclination angle of the light shelf plate 50 can be adjusted. Therefore, in the present invention, the height and angle of the light shelf plate 50 can be actively controlled according to the incident angle and incident amount of sunlight varying with time.

The user can arbitrarily adjust the amount of natural light entering the room according to the external weather change or the position of the sun through the height adjustment and the angle adjustment of the light shelf plate 50. For example, if the user of the room desires to reduce sunlight, the height or inclination angle of the light shelf plate 50 can be arbitrarily adjusted.

On the other hand, the external environment may be changed in the process of reflecting the sunlight by the light shelf plate 50. For example, the external illuminance may be lowered in the course of clouds or sunshine. In this case, the main control unit moves the light shelf plate 50 to secure a view. That is, the sensor module 70 measures the external illuminance, and the main controller analyzes the value and determines whether it is less than the reference value (S40). If it is less than the reference value, the main control unit suspends the use of the light shelf plate 50 (S50). The light shelf plate 50 is moved so as not to cover the window 10.

In the process, the moving module 30, 30 'operates and moves to the upper portion of the guide frame 20, 20'. The light shelf plate 50 connected to the movement module 30, 30 'is also moved upward. In FIG. 4, the movement modules 30 and 30 'and the light shelf plate 50 are moved upward to some extent. When the moving modules 30 and 30 'and the optical shelf plate 50 reach the upper ends of the guide frames 20 and 20', the moving modules 30 and 30 'rotate the optical shelf plate 50. Thus, the light shelf plate 50 is rotated toward the outer wall, more precisely toward the outer wall located above the window 10. When the optical shelf plate 50 is completely rotated, the optical shelf plate 50 is brought into close contact with the outer wall and the bottom surface 53 of the optical shelf plate 50 is exposed as shown in FIG.

In this case, the light shelf plate 50 does not cover the user's field of view of the room I at all, and the light shelf plate 50 may not be damaged even in a strong windy environment. That is, the moving module 30, 30 'connected to the light shelf plate 50 or the light shelf plate 50 may be damaged in the process of the strong shelter of the light shelf plate 50, When the plate 50 is brought into close contact with the outer wall, it is in a state in which it does not resist wind. 5, the light shelf plate 50 may be moved to the lower ends of the guide frames 20 and 20 'and may be folded in the opposite direction.

This operation can be arbitrarily adjusted by the user. For example, the user can move the light shelf plate 50 to the outside of the window or fold the light shelf plate 50 toward the outer wall of the building in a wakefulness state where the nighttime or external illuminance is low.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments. That is, within the scope of the present invention, all of the components may be selectively coupled to one or more of them. Furthermore, the terms "comprises", "comprising", or "having" described above mean that a component can be implanted unless otherwise specifically stated, But should be construed as including other elements. All terms, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, unless otherwise defined. Commonly used terms, such as predefined terms, should be interpreted to be consistent with the contextual meanings of the related art, and are not to be construed as ideal or overly formal, unless expressly defined to the contrary.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the scope of the present invention but to limit the scope of the technical idea of the present invention. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

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

Claims (8)

A guide frame installed in a window frame or a window frame,
A movement module moving along the guide frame,
And a light shelf plate connected to the movement module, the light shelf plate comprising a light shelf for moving along the guide frame together with the movement module and reflecting light on its outer surface.
The light shelf according to claim 1, wherein the light shelf plate is rotatable about the moving module.
The height adjustable light shelf according to claim 1, wherein the guide frame and the moving module are provided on both sides of the window or window frame, respectively.
4. The system of claim 3,
A module housing having an installation space therein,
A motor built in the installation space for generating power,
And a power supply unit for supplying power to the motor,
Wherein the movable module moves along the guide frame by the power of the motor or rotates the optical shelf plate.
The apparatus according to any one of claims 1 to 4, wherein the guide frame is vertically installed on both sides of the window or window frame, the optical shelf plate is installed in a direction crossing the pair of guide frames, Wherein both sides of the light shelf plate are rotatably connected to the movement module.
2. The light shelf according to claim 1, wherein a sensor module is provided at a position adjacent to the guide frame or the guide frame, and the sensor module senses an external illuminance to automatically operate the movement module.
7. The light shelf according to claim 6, wherein the sensor module is connected to a main control unit, and the main control unit operates the moving module according to an external illuminance to elevate or rotate the optical shelf plate.
The light shelf according to claim 1, wherein the light shelf plate is rotatable in a state of being moved to an upper or lower end of the guide frame, and can be brought into close contact with an outer wall adjacent to the window.

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