WO2016011570A1 - 复合式遮光模块 - Google Patents

复合式遮光模块 Download PDF

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Publication number
WO2016011570A1
WO2016011570A1 PCT/CN2014/082575 CN2014082575W WO2016011570A1 WO 2016011570 A1 WO2016011570 A1 WO 2016011570A1 CN 2014082575 W CN2014082575 W CN 2014082575W WO 2016011570 A1 WO2016011570 A1 WO 2016011570A1
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Prior art keywords
mesh
expanded
composite light
light
meshes
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Application number
PCT/CN2014/082575
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English (en)
French (fr)
Inventor
欧建宗
Original Assignee
欧建宗
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Application filed by 欧建宗 filed Critical 欧建宗
Priority to PCT/CN2014/082575 priority Critical patent/WO2016011570A1/zh
Publication of WO2016011570A1 publication Critical patent/WO2016011570A1/zh

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Classifications

    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B9/00Screening or protective devices for wall or similar openings, with or without operating or securing mechanisms; Closures of similar construction
    • E06B9/24Screens or other constructions affording protection against light, especially against sunshine; Similar screens for privacy or appearance; Slat blinds

Definitions

  • the present invention relates to a composite light-shielding module, and more particularly to a two-folded mesh comprising a front and rear fit configuration, and the mesh of each expanded mesh is formed by a slanted edge.
  • blinds with movable flaps can be used to block outdoor sunlight, prevent direct exposure to the room, cause lighting to be too bright and uncomfortable, or the temperature rises to an unsuitable level to keep it cool and comfortable. environment of.
  • the high floor can be high-far, with a wide vision and outdoor landscape, but because the height is too high, no side buildings or natural environment, so that the sun is more intense, and the general hundred
  • the window or the device with the horizontal grid plate can block the sunlight from above, it can not prevent the indoor activity from being exposed to the bottom, or it is easy to be sneaked or monitored, which seriously affects the privacy of the home or work environment.
  • the main object of the present invention is to provide a composite light shielding module comprising: a first expanded mesh comprising a plurality of first meshes, each first mesh being composed of a first inclined edge having a specific tilt angle, ⁇
  • the first inclined edge has a first inclined surface facing outward with respect to the upper portion of the first mesh;
  • a second expanded mesh comprising a plurality of second meshes, each second mesh being formed by a second inclined edge having a specific tilt angle, wherein the second inclined edge is in a position relative to the second mesh
  • the upper portion has a second inclined surface facing outward; a first frame for accommodating the first expanded net and the second expanded net, wherein the first expanded net and the second expanded net are vertically parallel to each other, the first inclined surface of the first net and the first
  • the second inclined faces of the second mesh are mirror images of each other.
  • the first mesh and the second mesh are at least one of a fish scale, a rectangle, a square, a circle, and an ellipse.
  • the appearance shape of the frame includes a rectangle, a square, a diamond, a circle, an ellipse, a polygon, a multi-lobed shape, or an irregular shape.
  • the method further includes at least one transparent plate member disposed between the first expanded mesh and the second expanded mesh or on both sides of the composite light shielding module.
  • Each expansion net comprises a plurality of meshes, and the meshes may be at least one of a fish scale, a rectangle, a square, a circle and an ellipse, wherein each mesh edge is a sloped edge having a specific inclination angle
  • the oblique directions of the inclined edges of the first expanded net and the second expanded net are configured to be mirror images of each other. For example, if the inclined edge of the first expanded web is inclined downward from the rear to the front, the inclined edge of the second expanded web is inclined obliquely from the rear to the front. Similarly, if the inclined edge of the first expanded web is obliquely upward and backward from the back, the inclined edge of the second expanded web is obliquely inclined from the rear to the front.
  • the inclined edge of the first expanded net is obliquely backward from the front to the front, and the inclined edge of the second expanded net is obliquely upward from the back, the obliquely upward incident light after the travel is to be the second expanded net.
  • the inclined edge portion is partially shielded, and the obliquely non-incident light from the rearward direction is partially obscured by the inclined edge portion of the first expanded mesh, and similarly, the obliquely upward incident light from the rearward direction is inclined by the inclined edge of the first expanded mesh. Partially obscured, while obliquely downward incident light from the back to the front is obscured by the inclined edge portion of the second expanded web.
  • the present invention has the effect of partially shielding the light before and after, especially the incident light obliquely obliquely upward, and is obviously suitable for use in windows, floor-to-ceiling windows, and exterior walls of buildings.
  • 1 is an exploded perspective view showing a composite light shielding module according to a first embodiment of the present invention.
  • Fig. 2 is a front elevational view showing the composite light shielding module of the first embodiment of the present invention.
  • Figure 3 is a schematic view of the first partial enlarged area of Figure ⁇ .
  • FIG. 4 is a schematic view of a second partial enlarged area of FIG. 1.
  • FIG. 5 is a schematic view showing the application operation of the composite light shielding module according to the first embodiment of the present invention.
  • Fig. 6 is a view showing the operation of the composite light-shielding module of the second embodiment of the present invention.
  • FIG. 1 and FIG. 2 are respectively an exploded perspective view and a front view of a composite light-shielding module according to a first embodiment of the present invention.
  • the composite light shielding module of the first embodiment of the present invention includes a first expanded mesh 10, a second expanded mesh 20, and a frame 30, wherein the first expanded mesh 10 and the second expanded mesh 20 are front and rear. They are vertically parallel and are integrated into the frame 30 to form a window, a floor-to-ceiling window, a fence, and an exterior wall.
  • the first expanded web 10 and the second expanded web 20 may be made of a metal material, including aluminum, stainless steel, iron, galvanized stainless steel or galvanized iron.
  • the frame 30 in the drawing is an example of a rectangular frame, which is convenient for explaining the features of the present invention.
  • the shape of the frame 30 is not limited thereto, and may substantially include a rectangle, a square, a diamond, Round, machine round, polygonal, multi-lobed, or irregular.
  • the frame 30 may be made of a metal material such as an aluminum frame, a stainless steel frame, an iron frame, a galvanized stainless steel frame, a galvanized iron frame, and the like.
  • first expanded mesh 10 and the second expanded mesh 20 respectively include a plurality of first meshes 12 and second meshes 22, wherein the first meshes 12 and the second meshes 22 may be fish scales, rectangles, At least one of a square, a circle, and a bridge circle.
  • first meshes 12 and the second meshes 22 may be fish scales, rectangles, At least one of a square, a circle, and a bridge circle.
  • the present embodiment is a fish-scale mesh as an exemplary example to clearly illustrate the features of the present invention.
  • FIG. 3 and FIG. 4 which are schematic diagrams of the first partial enlarged area A and the second partially enlarged area B of FIG. 1, respectively, wherein each of the first mesh 12 and the second mesh 22 is formed by a specific tilt angle.
  • the first inclined edge 14 and the second inclined edge 24 are formed. More specifically, the first inclined edge 14 in FIG. 3 has a first inclined surface F1 facing outward (ie, the left side in the drawing) with respect to the upper portion in the first mesh 12, and similarly, the second inclined in FIG.
  • the edge 24 has a second inclined surface F2 facing outward (i.e., the right side in the drawing) with respect to the upper portion in the second mesh 22.
  • FIG. 5 is a schematic diagram of an application operation of the composite light-shielding module according to the first embodiment of the present invention, wherein the composite light-shielding module i of the first embodiment is disposed in the wall W of the building, and the composite light-shielding module 1 is illustrated in the figure.
  • the left side is outdoor and the right side is indoor.
  • the first expanded web 10 and the second expanded web 20 are configured such that the first inclined surface F1 and the second inclined surface F2 are mirror images of each other.
  • the first inclined surface F1 faces the left side
  • the second The inclined surface F2 is facing to the lower right.
  • the oblique left side light L1 l such as the image of the sun or the sky, can pass through the first expanded net 10
  • the obliquely downward left side light L1] at the upper left of the net 10 can achieve the shading effect.
  • the obliquely upward left side light L12 is almost blocked by the first inclined surface F1 of the first expanded net 10 and cannot be transferred to the right side, so that the observer located on the right side of the second expanded net 20 cannot see from the first
  • the obliquely upper left ray L12 of the lower left of the expanded mesh 10 is expanded.
  • the light incident from the left side of the first expanded net 10 obliquely upward or obliquely downward toward the right that is, the oblique downward left side light L11 and the oblique upper left side light L12, cannot reach the second expanded net.
  • the oblique downward right ray L21 (such as indoor light or image) and the oblique upward right ray L22 from the right side of the second expanded net 20 are respectively the first expanded net 10
  • the inclined surface F1 and the second inclined surface F2 of the second expanded web 20 are blocked from reaching the left side of the first expanded net 10, thereby achieving the function of shielding the light from the right side, thereby protecting the privacy of the indoor activity.
  • the horizontal light IX incident from the left side of the first expanded net 10 to the right may simultaneously pass through the first mesh 12 of the first expanded net 10 and the second mesh of the second expanded net 20. twenty two.
  • light rays (not shown) that are horizontally incident from the right side of the second expanded mesh 20 to the left may simultaneously pass through the second mesh 22 of the second expanded mesh 20 and the first mesh of the first expanded mesh 10. Head 12. Therefore, the first embodiment of the present invention cannot block horizontally incident light, that is, the composite light-shielding module i of the first embodiment of the present invention can block obliquely downward or obliquely upward light, but can allow horizontal incident light to pass through, specifically Partial shading function.
  • the composite light-shielding module of the present invention is very suitable for buildings for upper floors or super-high floors, such as windows, floor-to-ceiling windows, and exterior walls, because the present invention can not only block sunlight from above, but also prevent it from being Possible voyeurism or monitoring from below to dramatically improve the privacy of the home or work environment.
  • horizontal light can be injected to maintain proper daylighting in the room, or to view outdoor scenery in the horizontal direction, thereby eliminating the possibility of claustrophic pressure, that is, providing both sun protection and privacy protection.
  • the present invention may further comprise at least one transparent plate member (not shown), such as a tempered glass plate, which may be disposed between the first expanded mesh 10 and the second expanded mesh 20, or located in the composite light shielding module 1 On the two sides, it strengthens the sound insulation effect and prevents the interference of lb outdoor noise. At the same time, for indoor air-conditioning applications, it can prevent the indoor air from mixing with the outdoor, thus maintaining the efficiency of the air conditioner.
  • a transparent plate member such as a tempered glass plate
  • FIG. 6 a schematic diagram of an application operation of a composite light-shielding module according to a second embodiment of the present invention, wherein the composite light-shielding module 2 of the second embodiment is a composite light-shielding module 1 similar to the first embodiment, and the main difference is
  • the relative arrangement of the first inclined surface F1 of the first expanded net 10 and the second inclined surface F2 of the second expanded net 20 is different, that is, although they are mutually mirrored, the first inclined surface F1 faces the upper left.
  • the second inclined surface F2 faces the upper right side.
  • the composite light shielding module 2 of the second embodiment can block the oblique downward left side light L1] by the first inclined surface F1 of the first expanded net 10, and by the second The second inclined surface F2 of the expanded net 20 blocks the oblique downward left side light L12, and the obliquely downward right side light L2] and the obliquely upward right side light L22 are respectively blocked by the second inclined surface F2 and the first inclined surface F1. Therefore, the second embodiment has the same functions as those of the first embodiment, and the features of the same components will not be described herein.
  • the main feature of the present invention is that it can partially shield the front and rear obliquely upward and obliquely downward incident light, and can block sunlight at the same time to prevent exposure, and can prevent indoor light and image exposure to protect indoor privacy, especially It is also possible to pass horizontal incident light to maintain proper lighting in the room.
  • the first and second meshes themselves allow air to circulate, providing a ventilating effect. Therefore, the present invention is well suited to the improvement of indoor home or work environment quality in windows, floor-to-ceiling windows, and exterior walls of buildings, especially on upper floors or super-high floors.
  • the technology of the present invention is not found in published publications, periodicals, magazines, media, exhibition venues, and thus novelty, J can break through the current technical bottleneck and implement it concretely, and it is indeed progressive. Further, the present invention can solve the problem of the conventional technology, improve the overall efficiency, and achieve the value of industrial utilization.

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  • Engineering & Computer Science (AREA)
  • Structural Engineering (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Building Environments (AREA)

Abstract

一种复合式遮光模块,包括第一扩张网(10)、第二扩张网(20)以及边框(30),其中第一及第二扩张网(10,20)是前后垂直平行配置,并容置于边框(30)内而结合成一体,且每个扩张网(10,20)包含多个网目(12,22),每个网目(12,22)是由具有特定倾斜角的倾斜边缘(14,24)构成,且第一及第二扩张网(10,20)的倾斜边缘(14,24)相对于网目(12,22)的倾斜面(F1,F2)是配置成互为镜像。因此,该复合式遮光模块具有部分遮蔽来自前后方光线的功效,尤其是来自上方或下方的斜向入射光线,非常适合高楼层或超高楼层的建筑,可应用于窗户、落地窗,不仅可阻挡来自上方的阳光,同时能防止来自下方的可能偷窥或监看,大幅改善居家或工作环境的隐私。

Description

本发明是有关于一种复合式遮光模块, 尤其是包含前后贴合配置的二扩 张网, 且每个扩张网的网目是由倾斜边缘构成。
对于一般建筑物, 可使用具有活动挡片的百叶窗以遮挡户外的阳光, 防 止直接曝晒到的室内, 导致采光太亮而使视觉不舒服, 或温度上升到太不适 宜的程度, 以保持凉爽、 舒适的环境。
口密度的增加, 为提高 地利 ^率, 世界上较为进步的都会区无
Figure imgf000003_0001
所用。 高楼层虽然可居高临 -远处, 具有广远的良好视野及户外景观, 不过也因为高度太高, 较无旁边建筑物或自然环境的遮挡, 使得阳光的照射 更为强烈, 而一般的百时 '窗或具有水平格栅板的装置即使能阻挡来自上方的 阳光, 但是却无法防止室内活动外露到下方, 或容易被偷窥或监看, 严重影 响居家或工作环境的隐私。
因此, 很需要一种复合式遮光模块, 可同日寸遮挡上方的阳光进入室内, 并防止室内活动外露到下方的户外,且能让户外的水平光线或影像射入室内, 维持适当的采光量, 藉以解决上述常 ^技术的问题。
本发明的主要目的在提供一种复合式遮光模块, 包括- 一第一扩张网, 包含多个第一网目, 每个第一网目是由具有特定倾斜角 的第一倾斜边缘构成, ϋ该第一倾斜边缘在相对于该第一网目内的上部朝外 是具有一第一倾斜面;
一第二扩张网, 包含多个第二网目, 每个第二网目是由具有特定倾斜角 的第二倾斜边缘而构成, 且该第二倾斜边缘在相对于该第二网目内的上部朝 外是具有一第二倾斜面; 以及 一边框, 用以容置该第一扩张网及该第二扩张网而结合成一体, 第一扩 张网及该第二扩张网是前后垂直平行配置, 该第一网目的第一倾斜面以及该 第二网目的第二倾斜面是互为镜像配置。
其中, 该第一网目及该第二网目为鱼鳞形、 长方形、 方形、 圆形及椭圆 形的至少其中之一。
其中, 该边框的外观形状包含长方形、 方形、 菱形、 圆形、 椭圆形、 多 边形、 多凸角形, 或不规则形。
其中, 进一步包含至少一透明板件, 是设置于该第一扩张网及该第二扩 张网之间, 或位于该复合式遮光模块的二侧。
本发明提供的复合式遮光模块包括第一扩张网、 第二扩张网以及边框, 其中第一扩张网及第二扩张网是前后垂直平行配置, 并容置于边框内而结合 成一体, 可用以遮蔽来自前后方 的部分或全部的斜向下光及 /或部分或全部 的斜向上光, 并同时让水平入射光穿透。
每个扩张网包含多个网目, 而该等网目可为鱼鳞形、 长方形、 方形、 圆 形及橢圆形的至少其中之一, 其中每个网目的边缘为具有特定倾斜角的倾斜 边缘, 同时第一扩张网及第二扩张网的倾斜边缘的倾斜方向是配置成互为镜 像。 例如, 如果第一扩张网的倾斜边缘为由后往前斜向下时, 第二扩张网的 倾斜边缘为由后往前斜向上。 同样的, 如果第一扩张网的倾斜边缘为由后往 前斜向上日寸, 第二扩张网的倾斜边缘为由后往前斜向不。
此外, 如果第一扩张网的倾斜边缘为由后往前斜向不, 且第二扩张网的 倾斜边缘为由后往前斜向上, 则由前往后的斜向上入射光会被第二扩张网的 倾斜边缘部分遮蔽, 同时由前往后的斜向不入射光会被第一扩张网的倾斜边 缘部分遮蔽, 而同理, 由后往前的斜向上入射光会被第一扩张网的倾斜边缘 部分遮蔽, 同时由后往前的斜向下入射光会被第二扩张网的倾斜边缘部分遮 蔽。
因此, 本发明具有部分遮蔽前后光线的功效, 尤其是斜向不及斜向上的 入射光线, 显而易见的是很适合应用于建筑物的窗户、 落地窗、 外墙。 图 1显示本发明第一实施例复合式遮光模块的分解立体示意图。 图 2显示本发明第一实施例复合式遮光模块的正视图。
图 3为图〗的第一局部放大区的示意图。
图 4为图 1的第二局部放大区的示意图。
图 5显示本发明第一实施例复合式遮光模块的应用操作示意图。 图 6显示本发明第二实施例复合式遮光模块的应 ^操作示意图。 图标记说明
i复合式遮光模块
2复合式遮光模块
10第一扩张网
】2第一网目
14第一倾斜边缘
20第二扩张网
22第二网目
24第二倾斜边缘
30边框
A第一局部放大区
B ¾一 MJ njl Jjjl大区
F1第一倾斜面
F2第二倾斜面
L11斜向下左侧光线
L12斜向上左侧光线
L21斜向下右侧光线
L22斜向上右侧光线
LL水平光线
W墙体
Figure imgf000005_0001
了解该项技艺者在研读本说明书后能据以实施。
请同时参阅图 1 及图 2, 分别为本发明第一实施例复合式遮光模块的分 解立体图及正视示意图。 如图 1及图 2所示, 本发明第一实施例的复合式遮 光模块包括第一扩张网 10、 第二扩张网 20以及边框 30, 其中第一扩张网 10 及第二扩张网 20是前后垂直平行配置, 并容置于边框 30内而结合成一体, 可当作具遮光功能的窗户、 落地窗、 藩篱、 外墙。
第一扩张网 10及第二扩张网 20可用金属材料构成, 包含铝、 不绣钢、 铁材、 表面镀锌的不绣钢或表面镀锌的铁材。
要注意的是, 图式中的边框 30是以矩形框架为示范性实例, 藉以方便说 明本发明的特征, 然而边框 30的外观形状并非受限于此, 实质上可包含长方 形、 方形、 菱形、 圆形、 機圆形、 多边形、 多凸角形, 或不规则形。 此外, 边框 30可由金属材料构成, 比如可为铝框、 不绣钢框、 铁框、 表面镀锌的不 绣钢框、 表面镀锌的铁框, 等等。
具体而言, 第一扩张网 10及第二扩张网 20分别包含多个第一网目 12、 第二网目 22, 其中第一网目 12、 第二网目 22可为鱼鳞形、 长方形、 方形、 圆形及橋圆形的至少其中之一。 要注意的是, 在以下说明中, 本实施例是以 鱼鳞形的网目当作示范性实例, 藉以清楚说明本发明的特征。
进一步参考图 3及图 4, 分别为图 1的第一局部放大区 A及第二局部放 大区 B的示意图, 其中每个第一网目 12、 第二网目 22是由具有特定倾斜角 的第一倾斜边缘 14、 第二倾斜边缘 24而构成。 更加具体而言, 图 3中第一 倾斜边缘 14在相对于第一网目 12内的上部朝外 (即图中左侧)是具有第一倾斜 面 Fl, 同样的, 图 4中第二倾斜边缘 24在相对于第二网目 22内的上部朝外 (即图中右侧)是具有第二倾斜面 F2。
同时配合图 5, 本发明第一实施例复合式遮光模块的应用操作示意图, 其中第一实施例的复合式遮光模块 i是设置于建筑物的墙体 W中,而图中复 合式遮光模块 1 的左侧为户外, 右侧为室内。 第一扩张网 10及第二扩张网 20是配置成使得第一倾斜面 F1以及第二倾斜面 F2互为镜像配置, 比如图中 所示,第一倾斜面 F1是面向左 方,而第二倾斜面 F2是面向右下方。因此, 斜向不左侧光线 Ll l, 比如阳光或天空的影像, 几乎可穿过第一扩张网 10的 第一网目 12, 但是几乎被第二扩张网 20的第二倾斜面 F2阻挡而无法进一步 传送至右侧, 也就是, 位于第二扩张网 20右侧的观察者无法看到来自第一扩 张网 10的左上方的斜向下左侧光线 Ll】, 可达到遮阳效果。 相类似的, 斜向 上左侧光线 L12, 几乎被第一扩张网 10的第一倾斜面 F1阻挡而无法传送至 右侧, 使得位于第二扩张网 20右侧的观察者无法看到来自第一扩张网 10的 左下方的斜 上左侧光线 L12。 综合而言, 由第一扩张网 10的左侧斜向上或 斜向下朝右射入的光线,也就是斜向下左侧光线 L11及斜 上左侧光线 L12, 是无法到达第二扩张网 20的右侧, 藉以达成遮光功能。
同样的,在图 5中,来自第二扩张网 20的右侧的斜向下右侧光线 L21(比 如室内的光线或影像)及斜向上右侧光线 L22是分别被第一扩张网 10的第一 倾斜面 F1及第二扩张网 20的第二倾斜面 F2阻挡而无法到达第一扩张网 10 的左侧, 进而达成遮蔽来自右侧的光线的功能, 可保护室内活动的隐私。
不过更进一歩, 由第一扩张网 10的左侧朝右射入的水平光线 IX, 可同 时穿过第一扩张网 10的的第一网目 12以及第二扩张网 20的第二网目 22。 同样的, 由第二扩张网 20的右侧朝左水平射入的光线 (未显示), 可同时穿过 第二扩张网 20的第二网目 22以及第一扩张网 10的的第一网目 12。 因此, 本发明第一实施例无法阻挡水平入射的光线, 也就是本发明第一实施例的复 合式遮光模块 i可阻挡斜向下或斜向上的光线,但是可让水平入射光线通过, 具体达到部分遮光的功能。
就实用性而言, 本发明的复合式遮光模块非常适应用于较高楼层或超高 楼层的建筑, 比如窗户、 落地窗、 外墙, 因为本发明不仅可阻挡来自上方的 阳光, 同时能法防止来自下方的可能偷窥或监看, 大幅改善居家或工作环境 的隐私。 尤其是, 可让水平光线射入, 保持室内适当的采光, 或能观看到水 平方向的户外景物, 进而消除可能的幽闭压迫感, 也就是, 同时提供遮阳及 保护隐私的双重功效。
另外,本发明还可进一步包含至少一透明板件 (图中未显示), 比如强化玻 璃板, 可设置于第一扩张网 10及第二扩张网 20之间, 或位于复合式遮光模 块 1 的二侧, 藉以强化隔音效果, 防 lb户外噪音的干扰, 同时对于室内具有 空调的应用领域, 可防止室内的空气与户外混合, 进而维持空调的效率。 进一步参阅图 6,本发明第二实施例复合式遮光模块的应用操作示意图, 其中第二实施例的复合式遮光模块 2是类似于第一实施例的复合式遮光模块 1, 其主要的差异点在于第一扩张网 10的第一倾斜面 F1及第二扩张网 20的 第二倾斜面 F2的相对配置方式不同, 也就是虽然都是互为镜像配置, 但是第 一倾斜面 F1是面向左上方, 而第二倾斜面 F2是面向右上方, 因此, 第二实 施例的复合式遮光模块 2可用第一扩张网 10的第一倾斜面 F1阻挡斜向下左 侧光线 Ll】,而由第二扩张网 20的第二倾斜面 F2阻挡斜向下左侧光线 L12, 同时斜向下右侧光线 L2】及斜向上右侧光线 L22可分别被第二倾斜面 F2及 第一倾斜面 F1阻挡。 因此, 第二实施例具有与第一实施例相同的功效, 而相 同组件的特征在此不再赘述。
综上所述, 本发明的主要特点在于能部分遮蔽前后方斜向上及斜向下的 入射光线, 可同时遮挡阳光以防止曝晒, 并能阻 -±室内光线及影像外露以保 护室内隐私, 尤其是还可让水平入射光线通过, 维持室内的适当采光量。 此 外, 第一及第二网目本身可让空气流通, 提供通风的效应。 因此, 本发明很 适合应 ^于建筑物的窗户、 落地窗、 外墙, 尤其是较高楼层或超高楼层, 大 幅改善室内居家或工作环境质量。
由于本发明的技术内并未见于已公开的刊物、 期刊、 杂志、 媒体、 展览 场, 因而具有新颖性, J 能突破目前的技术瓶颈而具体实施, 确实具有进步 性。 此外, 本发明能解决常 ^技术的问题, 改善整体使 ^效率, 而能达到具 产业利用性的价值。
以上所述的仅为用以解释本发明的较佳实施例, 并 企图据以对本发明 做任何形式上的限制, 因此, 凡有在相同的发明精神下所作有关本发明的任 何修饰或变更, 都仍应包括在本发明意图保护的范畴。

Claims

1 . 一种复合式遮光模块, 其特征在于, 包括:
一第一扩张网, 包含多个第一网目, 每个第一网目是由具有特定倾斜角 的第一倾斜边缘构成, ϋ该第一倾斜边缘在相对于该第一网目内的上部朝外 是具有一第一倾斜面;
一第二扩张网, 包含多个第二网目, 每个第二网目是由具有特定倾斜角 的第二倾斜边缘而构成, 且该第二倾斜边缘在相对于该第二网目内的上部朝 外是具有一第二倾斜面; 以及
一边.框, 用以容置该第一扩张网及该第二扩张网而结合成一体, 第一扩 张网及该第二扩张网是前后垂直平行配置, 该第一网目的第一倾斜面以及该 第二网目的第二倾斜面是互为镜像配置。
2. 根据权利要求 1所述的复合式遮光模块, 其特征在于, 该第一网目及 该第二网目为鱼鳞形、 长方形、 方形、 圆形及楠圆形的至少其中之一。
3. 根据权利要求 1所述的复合式遮光模块, 其特征在于, 该边框的外观 形状包含长方形、 方形、 菱形、 圆形、 楠圆形、 多边形、 多凸角形, 或不规 则形。
4. 根据权利要求 1所述的复合式遮光模块, 其特征在于, 进一步包含至 少一透明板件, 是设置于该第一扩张网及该第二扩张网之间, 或位于该复合 式遮光模块的二侧。
PCT/CN2014/082575 2014-07-21 2014-07-21 复合式遮光模块 WO2016011570A1 (zh)

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Citations (5)

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Publication number Priority date Publication date Assignee Title
DE202005017154U1 (de) * 2005-11-03 2007-03-29 Braun, Dirk Henning Transparentes Bauteil
CN201170048Y (zh) * 2008-01-25 2008-12-24 郑福梅 不锈钢遮阳卷帘
EP2128373A2 (en) * 2008-05-28 2009-12-02 Hunter Douglas Inc. Shutter for covering non-rectangular architectural openings
US20110259529A1 (en) * 2010-04-22 2011-10-27 The Regents Of The University Of California Window System Useful for Blocking Direct Sunlight
WO2012004563A1 (en) * 2010-07-09 2012-01-12 Intaview Limited A window unit

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE202005017154U1 (de) * 2005-11-03 2007-03-29 Braun, Dirk Henning Transparentes Bauteil
CN201170048Y (zh) * 2008-01-25 2008-12-24 郑福梅 不锈钢遮阳卷帘
EP2128373A2 (en) * 2008-05-28 2009-12-02 Hunter Douglas Inc. Shutter for covering non-rectangular architectural openings
US20110259529A1 (en) * 2010-04-22 2011-10-27 The Regents Of The University Of California Window System Useful for Blocking Direct Sunlight
WO2012004563A1 (en) * 2010-07-09 2012-01-12 Intaview Limited A window unit

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