TWM484262U - Device for emitting infrared ray - Google Patents
Device for emitting infrared ray Download PDFInfo
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- TWM484262U TWM484262U TW103205526U TW103205526U TWM484262U TW M484262 U TWM484262 U TW M484262U TW 103205526 U TW103205526 U TW 103205526U TW 103205526 U TW103205526 U TW 103205526U TW M484262 U TWM484262 U TW M484262U
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Description
本新型是有關於一種發射裝置,特別是指一種紅外線發射裝置。The present invention relates to a launching device, and more particularly to an infrared emitting device.
紅外線遙控應用於燈光控制系統的技術在近年來逐步興起,擺脫了傳統僅限於電視機等家電的侷限性。利用紅外線發射裝置對燈具進行操控,可以减少人為手動操作牆壁開關所帶來的體力損耗,並能避免麻煩。但是用於操控燈具的紅外線遙控設備,仍然受到一般傳統遙控結構設計的影響,即遙控作用的範圍通常只能達到20公尺左右,如同電視機遙控一樣,如果用戶離開較遠距離,遙控器所發出去的紅外線信號就會在傳輸途中逐漸衰减,無法正常遙控。尤其是在演唱會、大型會議場所,如果燈控系統的接收裝置安裝在會場中心位置,則運用現有的紅外線遙控裝置之結構設計,就無法滿足遠距離遙控的要求,因此有必要針對此缺失進行改良。The technology of infrared remote control applied to lighting control systems has gradually emerged in recent years, freeing itself from the limitations of traditional home appliances limited to televisions. The use of an infrared emitting device to control the luminaire can reduce the physical loss caused by manually operating the wall switch and avoid trouble. However, the infrared remote control device used to control the luminaire is still affected by the design of the conventional remote control structure, that is, the range of the remote control can only reach about 20 meters, just like the remote control of the TV, if the user leaves a long distance, the remote control The emitted infrared signal will gradually decay during transmission and cannot be remotely controlled. Especially in concerts and large conference venues, if the receiving device of the lighting control system is installed at the center of the venue, the structural design of the existing infrared remote control device cannot meet the requirements of remote remote control. Therefore, it is necessary to Improvement.
因此,本新型之目的,即在提供一種可提升紅外線信號傳輸距離、信號傳輸效果佳的紅外線發射裝置。Therefore, the object of the present invention is to provide an infrared emitting device capable of improving the transmission distance of an infrared signal and having a good signal transmission effect.
於是,本新型紅外線發射裝置,包含:一基座,及至少一紅外線模組。該紅外線模組安裝在該基座上,並包括一紅外線發射器,該紅外線發射器包括一反光杯座、數個安裝在該反光杯座上的紅外線發射件,以及數個分別位於該等紅外線發射件上的聚光透鏡,該反光杯座包括一杯座基壁,以及數個設置在該杯座基壁上的反光壁,每一反光壁呈環形並具有一界定出一反光空間的反光面,該等紅外線發射件分別安裝於該等反光壁的反光空間,且該等紅外線發射件發出的紅外線能分別被該等反光壁的反光面朝所述聚光透鏡反射,所述聚光透鏡再將紅外線聚光後射出。Therefore, the novel infrared emitting device comprises: a base, and at least one infrared module. The infrared module is mounted on the base and includes an infrared emitter, the infrared emitter includes a reflector holder, a plurality of infrared emitters mounted on the reflector holder, and a plurality of infrared rays respectively located in the infrared reflector a collecting lens on the emitting member, the reflector cup comprising a base wall and a plurality of reflective walls disposed on the base wall of the cup, each reflective wall being annular and having a reflective surface defining a reflective space The infrared emitting elements are respectively mounted on the reflective spaces of the reflective walls, and the infrared rays emitted by the infrared emitting elements are respectively reflected by the reflective surface of the reflective walls toward the collecting lens, and the collecting lens is further The infrared rays are collected by light and then emitted.
本新型之功效:藉由反光杯座的反光壁對紅外線發射件發出的紅外線進行一次聚光與反射,再透過聚光透鏡進行二次聚光,使紅外線控制信號的有效傳輸距離可加長,並能提升信號強度與信號傳輸效果,故確實能達成本新型之目的。The effect of the novel: the infrared light emitted by the infrared emitting device is concentrated and reflected by the reflective wall of the reflector cup, and then concentrated by the collecting lens, so that the effective transmission distance of the infrared control signal can be lengthened, and It can improve the signal strength and signal transmission effect, so it can achieve the purpose of this new type.
1‧‧‧基座1‧‧‧Base
11‧‧‧基壁11‧‧‧ base wall
12‧‧‧支架12‧‧‧ bracket
13‧‧‧掛環13‧‧‧ hanging loop
2‧‧‧發射單元2‧‧‧ Launching unit
3‧‧‧紅外線模組3‧‧‧Infrared module
30‧‧‧間隙30‧‧‧ gap
31‧‧‧安裝座31‧‧‧ Mounting
311‧‧‧座基壁311‧‧‧ base
312‧‧‧座圍壁312‧‧‧Fence
4‧‧‧紅外線發射器4‧‧‧Infrared emitter
41‧‧‧殼體41‧‧‧Shell
410‧‧‧安裝空間410‧‧‧ installation space
411‧‧‧第一殼壁411‧‧‧ first shell wall
412‧‧‧第二殼壁412‧‧‧Second shell wall
42‧‧‧反光杯座42‧‧‧Reflecting cup holder
421‧‧‧杯座基壁421‧‧‧ cup base
422‧‧‧反光壁422‧‧‧ Reflective wall
423‧‧‧第一面423‧‧‧ first side
424‧‧‧第二面424‧‧‧ second side
425‧‧‧出光口425‧‧‧Light outlet
426‧‧‧反光面426‧‧‧ Reflective surface
427‧‧‧反光空間427‧‧‧Reflective space
428‧‧‧安裝口428‧‧‧Installation port
43‧‧‧電路基板43‧‧‧ circuit board
44‧‧‧紅外線發射件44‧‧‧Infrared emitting parts
441‧‧‧發射本體441‧‧‧ launching ontology
442‧‧‧接腳442‧‧‧ feet
45‧‧‧聚光透鏡45‧‧‧ Concentrating lens
46‧‧‧透鏡壓板46‧‧‧Lens platen
461‧‧‧固定部461‧‧‧ Fixed Department
5‧‧‧電池5‧‧‧Battery
本新型之其他的特徵及功效,將於參照圖式的實施方式中清楚地呈現,其中:圖1是本新型紅外線發射裝置的一較佳實施例的立體組合圖;圖2是該較佳實施例的一紅外線發射器的立體組合圖;圖3是該紅外線發射器的部分元件的立體分解圖; 圖4是該紅外線發射器的組合剖視圖;及圖5是一局部組合剖視圖,主要顯示該較佳實施例的一紅外線發射件的紅外線傳輸路徑。Other features and effects of the present invention will be apparent from the following description of the drawings. FIG. 1 is a perspective view of a preferred embodiment of the novel infrared emitting device; FIG. 2 is a preferred embodiment. An analytic view of an infrared emitter of an example; FIG. 3 is an exploded perspective view of a portion of the components of the infrared emitter; 4 is a sectional view showing the combination of the infrared ray emitter; and FIG. 5 is a partial sectional view showing the infrared ray transmission path of an infrared ray emitting member of the preferred embodiment.
參閱圖1、2,本新型紅外線發射裝置之一較佳實施例,包含:一基座1,以及二個安裝在該基座1上的發射單元2。Referring to Figures 1 and 2, a preferred embodiment of the novel infrared emitting device comprises a base 1 and two firing units 2 mounted on the base 1.
該基座1包括一水平的基壁11、一自該基壁11向上延伸的支架12,以及一位於該支架12頂端的掛環13,該掛環13使本新型可吊掛於天花板或其他可懸掛物上,但本新型也可以藉由該基壁11而置於地面或其他平面上。The base 1 includes a horizontal base wall 11, a bracket 12 extending upward from the base wall 11, and a hanging ring 13 at the top end of the bracket 12, the hanging ring 13 allows the present invention to be hung from the ceiling or other It can be suspended, but the present invention can also be placed on the ground or other plane by the base wall 11.
該等發射單元2彼此上下間隔,並分別組裝於該基座1的支架12上。每一發射單元2包括數個圍繞該支架12的紅外線模組3,每一紅外線模組3包括一安裝座31,以及數個上下相鄰地組裝於該安裝座31上的紅外線發射器4。在本實施例中,每一發射單元2中的紅外線模組3的數量為十二個,並且以每三個紅外線模組3為一弧形體地緊鄰排列,因此每一發射單元2中形成四個弧形體,此四個弧形體圍繞該支架12,且每相鄰兩弧形體之間形成一間隙30。位於上方的該發射單元2的該等間隙30與位於下方的該發射單元2的該等間隙30的位置錯開(於實施時,亦可上下對應),使本新型整體在繞著該支架12的360度範圍內,都有紅外線模組3之存在,以發射紅外線信號。The firing units 2 are spaced apart from each other and assembled to the bracket 12 of the base 1 respectively. Each of the transmitting units 2 includes a plurality of infrared modules 3 surrounding the brackets 12. Each of the infrared modules 3 includes a mounting base 31 and a plurality of infrared emitters 4 assembled on the mounting base 31 up and down. In this embodiment, the number of the infrared modules 3 in each of the transmitting units 2 is twelve, and each three infrared modules 3 are arranged in an arc shape in close proximity, so that each of the emitting units 2 is formed. Four arcuate bodies surround the bracket 12 and a gap 30 is formed between each adjacent arcuate body. The gaps 30 of the transmitting unit 2 located above are offset from the positions of the gaps 30 of the transmitting unit 2 located below (in the case of implementation, they may also correspond to each other), so that the whole body is around the bracket 12 Within 360 degrees, there is an infrared module 3 to emit infrared signals.
參閱圖1、3、4,本實施例的每一紅外線模組3 的安裝座31包括一與該支架12組裝且由上往下延伸的座基壁311,以及一自該座基壁311周緣朝遠離該支架12方向延伸的座圍壁312。每一紅外線發射器4包括:一與該安裝座31組裝固定住的殼體41、一安裝在該殼體41上的反光杯座42、一位於該反光杯座42與該殼體41間的電路基板43、數個紅外線發射件44、數個聚光透鏡45,以及一透鏡壓板46。Referring to Figures 1, 3 and 4, each of the infrared modules 3 of the present embodiment The mounting base 31 includes a base wall 311 assembled from the bracket 12 and extending from the top to the bottom, and a seat wall 312 extending from the periphery of the base wall 311 toward the bracket 12. Each of the infrared emitters 4 includes: a housing 41 assembled and fixed to the mounting seat 31, a reflector holder 42 mounted on the housing 41, and a housing between the reflector holder 42 and the housing 41. The circuit substrate 43, a plurality of infrared ray emitting members 44, a plurality of condensing lenses 45, and a lens platen 46.
該殼體41可利用螺鎖或其他固定方式固定於該安裝座31上,並包括一鄰近該支架12的第一殼壁411,以及一自該第一殼壁411周緣朝遠離該支架12方向延伸的第二殼壁412,該第二殼壁412與該第一殼壁411共同界定一安裝空間410,該安裝空間410可供至少一電池5容裝於其中。The housing 41 can be fixed to the mounting seat 31 by using a screw lock or other fixing manner, and includes a first shell wall 411 adjacent to the bracket 12, and a direction away from the bracket 12 from the periphery of the first shell wall 411. The second housing wall 412 extends together with the first housing wall 411 to define a mounting space 410 for receiving at least one battery 5 therein.
該反光杯座42為一體成型,並包括一位於該殼體41的第二殼壁412上的杯座基壁421。該杯座基壁421具有一朝向該第一殼壁411也朝向該支架12的第一面423、一相反於該第一面423的第二面424,以及數個貫穿該第一面423與該第二面424且呈陣列式排列的出光口425。該反光杯座42還包括數個與該杯座基壁421一體成型的反光壁422,該等反光壁422分別圍繞該等出光口425地自該杯座基壁421的第一面423朝該第一殼壁411的方向延伸,進而伸入該殼體41的安裝空間410。每一反光壁422自該第一面423朝該第一殼壁411的方向逐漸徑縮,並具有一圍繞界定出一反光空間427的反光面426,該反光空間427 與該出光口425連通,並具有一位於遠離該出光口425的一端的安裝口428。The reflector cup holder 42 is integrally formed and includes a cup base wall 421 on the second housing wall 412 of the housing 41. The base wall 421 has a first surface 423 facing the first housing wall 411 and facing the bracket 12, a second surface 424 opposite to the first surface 423, and a plurality of first surfaces 423 extending through the first surface 423. The second surface 424 is in an array of light exits 425. The reflector cup holder 42 further includes a plurality of reflective walls 422 integrally formed with the base wall 421 of the cup holder. The reflective walls 422 respectively surround the first light outlet 425 from the first surface 423 of the base wall 421 of the cup holder. The first shell wall 411 extends in the direction and extends into the mounting space 410 of the housing 41. Each of the reflective walls 422 gradually tapers from the first surface 423 toward the first shell wall 411 and has a reflective surface 426 surrounding a reflective space 427. The reflective space 427 It is in communication with the light exit port 425 and has a mounting opening 428 located at an end away from the light exit port 425.
該電路基板43可固定於該殼體41的安裝空間410,並可供該等紅外線發射件44安裝,且該電路基板43設有用於控制該等紅外線發射件44啟閉的電路板。該電路基板43安裝於該安裝空間410後,能與該電池5電連接,從而能將該電池5之電力傳送給該等紅外線發射件44。The circuit board 43 can be fixed to the mounting space 410 of the housing 41 and can be mounted to the infrared emitting elements 44. The circuit board 43 is provided with a circuit board for controlling the opening and closing of the infrared emitting elements 44. After the circuit board 43 is mounted in the mounting space 410, it can be electrically connected to the battery 5, so that the power of the battery 5 can be transmitted to the infrared emitters 44.
該等紅外線發射件44分別對應該反光杯座42的該等反光壁422而安裝。每一紅外線發射件44包括一能經由該安裝口428伸入該反光壁422的反光空間427中的發射本體441,以及二自該發射本體441朝該電路基板43延伸插置的接腳442。每一紅外線發射件44為一能發出紅外線的發光二極體(LED),所述紅外線可帶有控制信號,例如用於控制一圖未示的燈光裝置點亮、熄滅等功能之控制信號。The infrared emitting elements 44 are mounted corresponding to the reflective walls 422 of the reflector cup holder 42, respectively. Each of the infrared emitting members 44 includes an emitting body 441 that can extend into the reflective space 427 of the reflective wall 422 via the mounting opening 428, and a pin 442 that extends from the transmitting body 441 toward the circuit substrate 43. Each of the infrared emitting elements 44 is a light emitting diode (LED) capable of emitting infrared rays, and the infrared rays may be provided with control signals, for example, control signals for controlling functions such as lighting, extinguishing, and the like of a light device not shown.
該等聚光透鏡45分別組裝在該反光杯座42的該等出光口425,進而分別位於該等紅外線發射件44上。每一聚光透鏡45可為一凸透鏡,所述凸透鏡可為一雙凸透鏡或一平凸透鏡。本實施例是以平凸透鏡為例,且平凸透鏡之平面朝向該紅外線發射件44,凸面則朝外,亦即朝向相反於該等紅外線發射件44所在的方向。The condensing lenses 45 are respectively assembled to the light exit ports 425 of the reflector cup holders 42 and are respectively located on the infrared ray emitting members 44. Each concentrating lens 45 can be a convex lens, and the convex lens can be a lenticular lens or a plano-convex lens. In this embodiment, a plano-convex lens is taken as an example, and the plane of the plano-convex lens faces the infrared ray emitting member 44, and the convex surface faces outward, that is, in a direction opposite to the direction in which the infrared ray emitting members 44 are located.
該透鏡壓板46為一體成型,並與該反光杯座42組裝結合。該透鏡壓板46包括數個分別對應該等聚光透鏡45的固定部461。每一固定部461可壓合固定在與其對應 的該聚光透鏡45上,使聚光透鏡45定位。而且由於每一固定部461呈環狀結構而圈界出一對應於該聚光透鏡45的空間,使該等紅外線發射件44的紅外線穿過該等聚光透鏡45後,可通過該固定部461圈界出的空間而向外射出。The lens holder 46 is integrally formed and assembled with the reflector holder 42. The lens platen 46 includes a plurality of fixing portions 461 respectively corresponding to the condenser lens 45. Each fixing portion 461 can be press-fitted and fixed corresponding thereto The condensing lens 45 is positioned on the condensing lens 45. Moreover, since each of the fixing portions 461 has an annular structure and a space corresponding to the condensing lens 45, the infrared rays of the infrared ray emitting members 44 pass through the condensing lenses 45, and the fixing portion can pass through the fixing portion. The space bounded by 461 circles was shot out.
參閱圖1、4、5,本新型使用時,由於每一紅外線發射件44分別對應該反光杯座42的該等反光壁422設置,且發射本體441伸入反光空間427內,因此紅外線發射件44發出的紅外線可先受到反光壁422的反光面426反射,並且是朝與每一紅外線發射件44相對應的該聚光透鏡45反射,此反射作用具有第一次的聚光效果,可縮小紅外線發射角度,使紅外線集中在較小的角度後再向前射出,如此可保有較大之信號強度,使紅外線控制信號向前傳輸距離變長。接著紅外線通過各個聚光透鏡45,並可受到聚光透鏡45聚光而向前集中射出,進而產生第二次的聚光效果,使紅外線發射角度變小並提升紅外線控制信號的傳輸距離,其傳輸距離大約可增長為150~200公尺左右。如此可提升本新型的應用性能,可適用於演唱會、大型會場等場所的燈控系統之無線遙控。在應用上,本新型可以與一中央控制系統訊號連接,例如訊號連接演唱會或大型會場之燈光控制操作系統,以將該燈光控制操作系統的控制訊號,經由本新型轉變成紅外線無線控制訊號而傳輸至燈具,從而控制燈具點亮、熄滅等功能。Referring to Figures 1, 4 and 5, in the present invention, since each of the infrared emitting members 44 is disposed corresponding to the reflective walls 422 of the reflector cup holder 42, and the emitting body 441 extends into the reflective space 427, the infrared emitting member The infrared rays emitted by the 44 are first reflected by the reflecting surface 426 of the reflective wall 422, and are reflected toward the collecting lens 45 corresponding to each of the infrared emitting members 44. This reflection has the first collecting effect and can be reduced. The infrared emission angle allows the infrared rays to be concentrated at a small angle and then emitted forward, so that a large signal intensity can be maintained, and the infrared control signal can be transmitted forward for a long distance. Then, the infrared rays pass through the respective condensing lenses 45, and can be concentrated by the condensing lens 45 to be concentrated and emitted forward, thereby generating a second condensing effect, making the infrared ray emission angle small and increasing the transmission distance of the infrared control signal. The transmission distance can be increased by about 150 to 200 meters. This can enhance the application performance of the new model, and can be applied to the wireless remote control of the lighting control system in concerts, large venues and the like. In application, the present invention can be connected to a central control system signal, such as a signal connection concert or a large venue lighting control operating system, to convert the control signal of the lighting control operating system into an infrared wireless control signal via the present invention. It is transmitted to the luminaire to control the illuminating and extinguishing of the luminaire.
需要說明的是,本實施例是以兩個發射單元2為例,且每一發射單元2分別包括數個紅外線模組3,每一 發射單元2的該數個紅外線模組3圍繞該基座1排列,使本新型整體之360度角皆能發出紅外線控制信號,達到全方位傳輸信號效果。但於實施時,本新型不以兩個發射單元2為必要,且本新型整體也可以僅包括一個紅外線模組3。It should be noted that, in this embodiment, two transmitting units 2 are taken as an example, and each transmitting unit 2 includes a plurality of infrared modules 3, each of which The plurality of infrared modules 3 of the transmitting unit 2 are arranged around the base 1 so that the 360 degree angle of the whole novel can emit an infrared control signal to achieve an all-round transmission signal effect. However, in the implementation, the present invention does not require two firing units 2, and the present invention as a whole may also include only one infrared module 3.
綜上所述,藉由反光杯座42的反光壁422對紅外線發射件44發出的紅外線進行一次聚光與反射,再透過聚光透鏡45進行二次聚光,使紅外線控制信號的有效傳輸距離可加長,並能提升信號強度與信號傳輸效果,故確實能達成本新型之目的。In summary, the infrared ray emitted from the infrared ray emitting device 44 is condensed and reflected by the reflective wall 422 of the reflector cup 42 and then condensed by the condensing lens 45 to make the effective transmission distance of the infrared control signal. It can be lengthened and can improve the signal strength and signal transmission effect, so it can achieve the purpose of this new type.
惟以上所述者,僅為本新型之較佳實施例而已,當不能以此限定本新型實施之範圍,即大凡依本新型申請專利範圍及專利說明書內容所作之簡單的等效變化與修飾,皆仍屬本新型專利涵蓋之範圍內。However, the above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, that is, the simple equivalent changes and modifications made in accordance with the scope of the present patent application and the contents of the patent specification, All remain within the scope of this new patent.
4‧‧‧紅外線發射器4‧‧‧Infrared emitter
41‧‧‧殼體41‧‧‧Shell
410‧‧‧安裝空間410‧‧‧ installation space
411‧‧‧第一殼壁411‧‧‧ first shell wall
412‧‧‧第二殼壁412‧‧‧Second shell wall
42‧‧‧反光杯座42‧‧‧Reflecting cup holder
421‧‧‧杯座基壁421‧‧‧ cup base
422‧‧‧反光壁422‧‧‧ Reflective wall
423‧‧‧第一面423‧‧‧ first side
424‧‧‧第二面424‧‧‧ second side
425‧‧‧出光口425‧‧‧Light outlet
426‧‧‧反光面426‧‧‧ Reflective surface
427‧‧‧反光空間427‧‧‧Reflective space
428‧‧‧安裝口428‧‧‧Installation port
43‧‧‧電路基板43‧‧‧ circuit board
44‧‧‧紅外線發射件44‧‧‧Infrared emitting parts
441‧‧‧發射本體441‧‧‧ launching ontology
442‧‧‧接腳442‧‧‧ feet
45‧‧‧聚光透鏡45‧‧‧ Concentrating lens
46‧‧‧透鏡壓板46‧‧‧Lens platen
461‧‧‧固定部461‧‧‧ Fixed Department
5‧‧‧電池5‧‧‧Battery
Claims (6)
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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TW103205526U TWM484262U (en) | 2014-03-31 | 2014-03-31 | Device for emitting infrared ray |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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TW103205526U TWM484262U (en) | 2014-03-31 | 2014-03-31 | Device for emitting infrared ray |
Publications (1)
Publication Number | Publication Date |
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TWM484262U true TWM484262U (en) | 2014-08-11 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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TW103205526U TWM484262U (en) | 2014-03-31 | 2014-03-31 | Device for emitting infrared ray |
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TW (1) | TWM484262U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI610541B (en) * | 2014-03-31 | 2018-01-01 | Li Ming Jun | Infrared emitting device |
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2014
- 2014-03-31 TW TW103205526U patent/TWM484262U/en unknown
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
TWI610541B (en) * | 2014-03-31 | 2018-01-01 | Li Ming Jun | Infrared emitting device |
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