M439131 五、新型說明: 【新型所屬之技術領域】 本創作係為一種發光裝置,尤指一種用於燈具上並且 可提高照明亮度之發光裝置。 【先前技術】 請參照圖8所示’係為一種既有的照明燈泡,其包含 φ 有: 一燈座40 ; 複數發光元件41’係設置於該燈座40頂面,並且各發 光元件41之間係存有一間距;及 一燈罩42,係蓋設於該燈座40頂面,並將各發光元件 41包覆於其中。 睛參照圖9所示,當使用者將既有的照明燈泡設置於 天花板50上時,其照明範圍係以該照明燈泡為圓心向外散 • 射’故經常被用來作為室内全域照明的裝置,以避免在部 份照明範圍内有昏暗的情況發生。 然而’在某些情況下使用者並不需要如此大的照明範 圍’例如:在書桌讀書的時候、用餐的時候或是不需要經 常移動位置的情況,均只需要較小的照明範圍即可;但, 以上所述之情況卻是非常需要高亮度照明。 為了能夠符合使用者對於上述情況高亮度照明的需 求’一般最直接的做法係增加其裝設的數量,即可進_步 提向亮度。 3 M439131 可疋,僅僅只是為了提高某特定照明範圍的亮度而增 a又了許多照明燈泡,並非為一最佳的解決方案,故有必要 針對此種情況提出更好的解決方案。 【新型内容】 有鑑於上述增設許多照明燈泡,並非為一最佳提高特 定照明範圍亮度的解決方案;故本創作主要目的提供一種 用於燈具上並且可提高照明亮度之發光裝置。 欲達上述目的所使用的主要技術手段係令該可提高照 明亮度之發光裝置,包含有: 一底板; 至少一反射板,各反射板係分別傾斜地設置於該底板 的頂面’並具有一反光鏡面;其中各反射板的反光鏡面與 該底板的頂面之間形成一夾角,該夾角係為一鈍角; 至少一發光元件’各發光元件係分別設置於該底板之 頂面上,且位在該鈍角之範圍内。 由於本創作係透過各反射板將各發光元件所散射出來 的光線集中至一特定方向,並藉此令各發光元件的光線路 徑統一;因此,當使用者將本創作設置於既有的照明燈具 的燈座頂面時,係可在不額外增設任何照明燈具數量的前 提之下,有效提高特定照明範圍的亮度。 【實施方式】 請參照圖1 A及圖1 B所示,係為本創作可提高照明亮 M439131 度之發光裝置之第一實施例,其包含有: 一底板1 Oa ; 至少一反射板20a,各反射板20a係分別傾斜地設置 於該底板10a的頂面,並具有一反光鏡面21a;其中各反 射板20a的反光鏡面21a與該底板10a的頂面之間形成有 一夹角’該夾角係為一鈍角0 ;於本實施例中,該反射板 20a之底邊係連接於該底板i〇a之頂面;及 φ 至少一發光元件30a,各發光元件30a係分別設置於 該底板10a之頂面上,且位在該鈍角$之範圍内;於本實 施例中,該發光元件30a係為發光二極體(LED)。 请參照圖2A及圖2B所示,係為本創作第二實施例, 其結構大致與第一實施例相同;惟,其不同處係在於各反 射板20b的具體結構;於本實施例中.,各反射板2〇b係於 其底邊分別設置有一橫向固定板22b ’各橫向固定板22b 均平行於該底板1 〇b並分別設置於該底板彳〇b的頂面;又 • 各橫向固定板22b係分別與與各反光鏡面21b的相對面之 間形成一夾角,該夾角係為一銳角必。 请參照圖3A及3B所示,係為本創作第三實施例,其 結構大致與第一實施例相同;惟,其不同係在於該底板1 〇c 的具體結構;於本實施例中,該底板1〇c的頂面與各反光 鏡面21c的相對面之間形成有一夾角,該夾角係為一銳角 切;又該底板1GC頂面上對應各反射板2Qe形成有第一開 α 11 c,該第一開口 u c位於銳角少範圍。 請參照圖4A及4B所示,係為本創作第四實施例,其 結構大致與第—實施例相同,·惟,其不同係在於該底板1〇d 5 M439131 的具體結構;於本實施例中,該底板1 〇d係包含有一上底 板101d及一結合於該上底板1〇id底部之下底板i〇2d,且 該上底板101d係令各反射板20d傾斜地設置於該上底板 1〇1d的頂面;其中該上底板i〇1d係分別於各反射板2〇d 之鈍角Θ範圍形成有一第二開口 i2d,且各發光元件30d 係分別位於各第二開口 12d内並設置於該下底板1 〇2d之頂 面 ° δ青合併參照圖1B、圖2B、圖3B及圖4B所示,上述 各反射板20a、20b、20c及20d係透過其反光鏡面21a、 21b、21c及21d將各發光元件30a、30b、30c及30d所 射入的光線向外折射,並且集中至一特定方向;故可進一 步提高本創作在某一特定照明範圍的亮度;此外,當本發 明僅使用一反射板20a、20b、20c及20d以及一發光元件 30a、30b、30c及30d時,其所增加亮度的特定照明範圍 係指該反射板20a、20b、20c及20d其反射鏡面21a、21b、 21c及21d所朝向的方向;又當本發明改採兩反射板2〇a、 20b、20c及20d且兩反射板20a、2〇b' 20c及2〇d係相 互對稱,又其反射鏡面21a、21b、21c及21d係相互對應 時,其所增加亮度的特定照明範圍係指該各發光元件3〇a、 30b、30c及30d垂直向上所指的方向。 請參照® 5並參酌圖2A及圖2B所示,係為本創作第 二實施例應用於既有的照明燈泡的一種例子,其包含有: 一愛迪生螺旋底座(Edison Screw Base); 一底板1〇b,係設置於該愛迪生螺旋底座之頂面; 複數反射板20b,各反射板2〇b係分別傾斜地設置於 M439131 該底板1〇b的頂面,並具有一反光鏡面21t>;其中各反射 板20b的反光鏡面21b與該底板10b的頂面之間形成有— 夾角’該夾角係為一鈍角0 ;又各反射板20b係於其底邊 分別設置有一橫向固定板22b ’各橫向固定板22b均平行 於該底板1〇b並分別設置於該底板i〇b的頂面;又各橫向 固定板22b係分別與與各反光鏡面21 c的相對面之間形成 一夾角’該夾角係為一銳角0 ; 複數發光元件30b,各發光元件30b係分別設置於該 底板1〇b之頂面上,且位在該鈍角θ之範圍内;及 一燈殼,係蓋設於該愛迪生螺旋底座之頂面,且其外形 呈現半圓形。 又請參照圖6並參酌圖3A及圖3B所示,係為本創作 第三實施例應用於日光燈的一種例子,其包含有: 一日光燈底座; 一底板10c ’係設置於該日光燈底座之頂面; 複數反射板20b’各反射板20b係分別傾斜地設置於 該底板1〇b的頂面,並具有一反光鏡面21b;其中各反射 板20b的反光鏡面21b與該底板1〇b的頂面之間形成有一 夾角,該夾角係為一鈍角Θ ;又各反光鏡面21c的相對面 與該底板1〇c的頂面之間形成有一夾角,該夾角係為一銳 角φ,又該底板1〇c頂面上對應各反射板2〇c形成有第一 開口 1 1 c,該第一開口杓c位於銳角p範圍; 複數發光元件3 0 b,各發光元件3 0 b係分別設置於該 底板10b之頂面上’且位在該鈍角0之範圍内;及 該燈殼11係為管形燈管,且令該日光燈底座穿設於其 7 M439131 中。 6月參照圖7所不,當使用者將設置有本創作之照明燈 泡設於天花板上時,其光線係透過上述具有相同反射方向 的各反射板將其集中至某部份照明範圍内,並且進一步提 向上述某部份照明範圍的亮度;再者,若欲使本創作的照明 範圍與既有的照明燈泡相同’則可令本創作各反射板分別朝 向不同的方向;由於本創作具有令光線集中的效果,故雖 然其照明範圍與既有的照明燈泡無異,但其亮度卻明顯增亮 了。午夕,因此,設置有本創作之照明燈泡係無需增加其數量 即可達到符合使用者對於高亮度照明的需求。 【圖式簡單說明】 圖1A :本創作第一實施例之立體外觀圖。 圖1 B :本創作第一實施例之側視圖。 圖2A :本創作第二實施例之立體外觀圖。 圖2B :本創作第二實施例之侧視圖。 圖3A :本創作第三實施例之立體外觀圖。 圖3B :本創作第三實施例之側視圖。 圖4A :本創作第四實施例之立體外觀圖。 圖4B :本創作第四實施例之側視圖。 圖5 :設置有本創作第二實施例之照明燈具之立體外觀 圖〇 圖6 :設置有本創作第三實施例之曰光燈之立體外觀 圖。 圖7 :設置有本創作第二實施例之照明燈具之於使用時 M439131 之示意圖。 圖8 :既有的照明燈泡之立體外觀圖。 圖9 :既有的照明燈泡於使用時之示意圖。M439131 V. New description: [New technical field] This creation is a kind of light-emitting device, especially a light-emitting device used on lamps and which can improve the brightness of illumination. [Prior Art] Please refer to FIG. 8 as an existing illumination bulb, which includes φ: a lamp holder 40; a plurality of light-emitting elements 41' are disposed on the top surface of the socket 40, and each of the light-emitting elements 41 There is a gap between the two; and a lamp cover 42 is disposed on the top surface of the lamp holder 40, and the light-emitting elements 41 are covered therein. Referring to FIG. 9, when the user places the existing illumination bulb on the ceiling 50, the illumination range is scattered outward from the illumination bulb, so it is often used as a device for indoor global illumination. To avoid dim conditions in some areas of illumination. However, 'in some cases, the user does not need such a large illumination range', for example, when reading a desk, when dining, or when there is no need to frequently move the position, only a small illumination range is required; However, the above mentioned situation is highly desirable for high brightness illumination. In order to be able to meet the user's need for high-brightness illumination in the above situation, the most direct way to increase the number of installations is to increase the brightness. 3 M439131 It's awkward, just to increase the brightness of a particular lighting range. A lot of lighting bulbs are not an optimal solution, so it is necessary to propose a better solution for this situation. [New content] In view of the above-mentioned addition of many illumination bulbs, it is not a solution for optimally improving the brightness of a specific illumination range; therefore, the main object of the present invention is to provide an illumination device for use on a luminaire and which can improve illumination brightness. The main technical means for achieving the above purpose is to enable the illumination device to improve the illumination brightness, comprising: a bottom plate; at least one reflection plate, each of the reflection plates being obliquely disposed on the top surface of the bottom plate respectively and having a reflective a mirror surface; an angle formed between the mirror surface of each of the reflectors and the top surface of the bottom plate, the angle being an obtuse angle; at least one of the light-emitting elements 'each of the light-emitting elements are respectively disposed on the top surface of the bottom plate, and are located at Within the range of the obtuse angle. Since the present invention condenses the light scattered by each of the illuminating elements into a specific direction through the respective reflecting plates, thereby aligning the light paths of the respective illuminating elements; therefore, when the user sets the creation to the existing lighting fixtures The top of the lamp holder can effectively increase the brightness of a specific illumination range without adding any additional lighting fixtures. [Embodiment] Please refer to FIG. 1A and FIG. 1B, which is a first embodiment of a light-emitting device capable of improving illumination illumination of M439131 degrees, comprising: a bottom plate 1 Oa; at least one reflection plate 20a, Each of the reflecting plates 20a is disposed obliquely on the top surface of the bottom plate 10a, and has a reflecting mirror surface 21a. The angle between the mirror surface 21a of each reflecting plate 20a and the top surface of the bottom plate 10a is formed. An obtuse angle 0; in this embodiment, the bottom edge of the reflector 20a is connected to the top surface of the bottom plate i〇a; and φ at least one light-emitting element 30a, and each of the light-emitting elements 30a is respectively disposed at the top of the bottom plate 10a. The surface is located within the obtuse angle $; in the embodiment, the light-emitting element 30a is a light-emitting diode (LED). 2A and 2B, which is a second embodiment of the present invention, the structure of which is substantially the same as that of the first embodiment; however, the difference lies in the specific structure of each reflecting plate 20b; in this embodiment. Each of the reflecting plates 2〇b is respectively provided with a lateral fixing plate 22b on the bottom side thereof. Each of the lateral fixing plates 22b is parallel to the bottom plate 1b and is respectively disposed on the top surface of the bottom plate b; The fixing plate 22b forms an angle with the opposite surface of each of the mirror surfaces 21b, and the angle is an acute angle. 3A and 3B, the third embodiment of the present invention is substantially the same as the first embodiment; however, the difference lies in the specific structure of the bottom plate 1 〇c; in this embodiment, An angle formed between the top surface of the bottom plate 1c and the opposite surface of each of the mirror surfaces 21c is formed by an acute angle cut; and a top opening α 11 c is formed on the top surface of the bottom plate 1GC corresponding to each of the reflective plates 2Qe. The first opening uc is located in a small range of acute angles. 4A and 4B, which is a fourth embodiment of the present invention, the structure of which is substantially the same as that of the first embodiment, except that the difference is the specific structure of the bottom plate 1〇d 5 M439131; The bottom plate 1 〇d includes an upper bottom plate 101d and a bottom plate i〇2d coupled to the bottom of the upper bottom plate 1〇id, and the upper bottom plate 101d is configured such that each reflecting plate 20d is obliquely disposed on the upper bottom plate 1〇 a top surface of the 1d; wherein the upper substrate i〇1d is formed with a second opening i2d in an obtuse angle 各 of each of the reflecting plates 2〇d, and each of the light emitting elements 30d is located in each of the second openings 12d and disposed on the first opening The top surface of the lower substrate 1 〇 2d is divided into δ blue. Referring to FIG. 1B, FIG. 2B, FIG. 3B and FIG. 4B, the respective reflecting plates 20a, 20b, 20c and 20d pass through the mirror surfaces 21a, 21b, 21c and 21d. The light incident on each of the light-emitting elements 30a, 30b, 30c, and 30d is refracted outwardly and concentrated to a specific direction; therefore, the brightness of the present creation in a certain illumination range can be further improved; moreover, when the present invention uses only one Reflecting plates 20a, 20b, 20c and 20d and a light-emitting element 30a And 30b, 30c, and 30d, the specific illumination range for which the brightness is increased refers to the direction in which the reflection mirrors 20a, 20b, 20c, and 20d face the mirror surfaces 21a, 21b, 21c, and 21d; The reflecting plates 2〇a, 20b, 20c and 20d and the two reflecting plates 20a, 2〇b' 20c and 2〇d are symmetrical to each other, and when the mirror faces 21a, 21b, 21c and 21d correspond to each other, the brightness is increased. The specific illumination range refers to the direction in which the respective light-emitting elements 3a, 30b, 30c, and 30d are vertically pointed upward. Please refer to ® 5 and as shown in FIG. 2A and FIG. 2B , which is an example of applying the second embodiment of the present invention to an existing lighting bulb, comprising: an Edison Screw Base; a bottom plate 1 〇b is disposed on the top surface of the Edison spiral base; the plurality of reflecting plates 20b are respectively disposed obliquely on the top surface of the bottom plate 1〇b of the M439131, and have a mirror surface 21t> An angle between the mirror surface 21b of the reflector 20b and the top surface of the bottom plate 10b is formed as an angle of obtuse angle 0; and each of the reflectors 20b is disposed at a bottom side thereof with a lateral fixing plate 22b' The plates 22b are all parallel to the bottom plate 1b and are respectively disposed on the top surface of the bottom plate i〇b; and each of the lateral fixing plates 22b forms an angle with the opposite surface of each of the mirror surfaces 21c. An acute angle 0; a plurality of light-emitting elements 30b, each of the light-emitting elements 30b is disposed on a top surface of the bottom plate 1b, and is located within the range of the obtuse angle θ; and a lamp housing is disposed on the Edison spiral The top surface of the base, and its shape is Semicircle. Referring to FIG. 6 and FIG. 3A and FIG. 3B, an example of applying the fluorescent lamp to the third embodiment of the present invention includes: a fluorescent lamp base; a bottom plate 10c' is disposed on the top of the fluorescent lamp base. The reflecting plates 20b of the plurality of reflecting plates 20b' are respectively disposed obliquely on the top surface of the bottom plate 1b, and have a reflecting surface 21b; wherein the reflecting surface 21b of each reflecting plate 20b and the top surface of the bottom plate 1b An angle formed between the angles is an obtuse angle Θ; and an opposite angle is formed between the opposite surface of each of the mirror surfaces 21c and the top surface of the bottom plate 1c, the angle is an acute angle φ, and the bottom plate is 1〇 a first opening 1 1 c is formed on the top surface of the c corresponding to each of the reflecting plates 2 〇 c, and the first opening 杓 c is located in the acute angle p range; the plurality of light emitting elements 30 b are disposed on the bottom plate respectively The top surface of 10b is 'within the obtuse angle 0'; and the lamp housing 11 is a tubular lamp tube, and the fluorescent lamp base is placed in its 7 M439131. Referring to FIG. 7 in June, when the user sets the illumination bulb provided with the creation on the ceiling, the light is concentrated into a certain part of the illumination range through the respective reflection plates having the same reflection direction, and Further mentioning the brightness of a certain part of the illumination range; in addition, if the illumination range of the creation is the same as that of the existing illumination bulb, then the reflectors of the creation may be oriented in different directions; The effect of concentrating light, although its illumination range is the same as that of the existing lighting bulb, its brightness is obviously brightened. On the eve of the afternoon, therefore, the lighting bulbs provided with this creation can meet the user's demand for high-brightness lighting without increasing the number. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1A is a perspective view of a first embodiment of the present creation. Figure 1 B: Side view of the first embodiment of the present creation. Fig. 2A is a perspective view showing the second embodiment of the present creation. Fig. 2B is a side view of the second embodiment of the present creation. Fig. 3A is a perspective view showing the third embodiment of the present creation. Fig. 3B is a side view of the third embodiment of the present creation. Fig. 4A is a perspective view showing the fourth embodiment of the present creation. Fig. 4B is a side view of the fourth embodiment of the present creation. Fig. 5 is a perspective view of a lighting fixture provided with a second embodiment of the present invention. Fig. 6 is a perspective view of a neon lamp provided with a third embodiment of the present invention. Fig. 7 is a view showing the M439131 in use when the lighting fixture of the second embodiment of the present invention is provided. Figure 8: A stereoscopic view of an existing lighting bulb. Figure 9: Schematic diagram of an existing lighting bulb when in use.
【主要元件符號說明】 10a 底板 10b 底板 10c 底板 10d 底板 101d上底板 102d下底板 11c 第一開口 12d 第二開口 20a 反射板 20b 反射板 20c 反射板 20d 反射板 21a 反射鏡面 21b 反射鏡面 21c 反射鏡面 21d 反射鏡面 22b 橫向固定板 30a 發光元件 30b 發光元件 30c 發光元件 30d 發光元件 40 燈座 41 發光元件 42 燈罩 9[Main component symbol description] 10a bottom plate 10b bottom plate 10c bottom plate 10d bottom plate 101d upper plate 102d lower bottom plate 11c first opening 12d second opening 20a reflection plate 20b reflection plate 20c reflection plate 20d reflection plate 21a mirror surface 21b mirror surface 21c mirror surface 21d Mirror surface 22b lateral fixing plate 30a illuminating element 30b illuminating element 30c illuminating element 30d illuminating element 40 socket 41 illuminating element 42 lampshade 9