TWM516722U - Night vision telescope - Google Patents
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- TWM516722U TWM516722U TW104217241U TW104217241U TWM516722U TW M516722 U TWM516722 U TW M516722U TW 104217241 U TW104217241 U TW 104217241U TW 104217241 U TW104217241 U TW 104217241U TW M516722 U TWM516722 U TW M516722U
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- 230000004297 night vision Effects 0.000 title claims abstract description 30
- 238000005286 illumination Methods 0.000 claims abstract description 7
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- 230000002452 interceptive effect Effects 0.000 claims 1
- 238000013461 design Methods 0.000 description 5
- 230000000694 effects Effects 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 229920001296 polysiloxane Polymers 0.000 description 2
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Abstract
Description
本創作涉及一種望遠鏡,特別涉及一種具夜視功能之望遠鏡。 The present invention relates to a telescope, and more particularly to a telescope with night vision function.
習知的夜視望遠鏡,價格十分昂貴,並且夜視距離有限。一般而言,習知的夜視望遠鏡,其夜視距離約為50呎至80呎,因此無法提供充足的望遠功能。此外,在習知的夜視望遠鏡中,從顯示螢幕所發出的斜向光線,常常會通過目鏡而進入使用者的眼睛,讓使用者感受到炫光,造成使用者眼睛的不適,也降低了夜視望遠鏡的觀賞品質。 The conventional night vision telescope is very expensive and has a limited night vision distance. In general, the conventional night vision telescope has a night vision distance of about 50 呎 to 80 呎, so it does not provide sufficient telescopic function. In addition, in the conventional night vision telescope, the oblique light emitted from the display screen often enters the user's eyes through the eyepiece, allowing the user to feel the glare, causing discomfort to the user's eyes and reducing the discomfort. The viewing quality of night vision telescopes.
本創作即為了欲解決已知技術的問題而提供的一種夜視望遠鏡,包括一望遠鏡殼體、一影像擷取鏡頭以及一至少一紅光發光二極體。望遠鏡殼體包括一物鏡端以及一目鏡端,該物鏡端與該目鏡端相對。影像擷取鏡頭設於該物鏡端。紅光發光二極體設於該物鏡端,其中,當處於一夜間模式時,該等紅光發光二極體提供照明,以協助該影像擷取鏡頭擷取影像,其中,每一紅光發光二極體之主要出光角度小於18°。 The present invention is a night vision telescope provided to solve the problems of the prior art, comprising a telescope housing, an image capturing lens and an at least one red light emitting diode. The telescope housing includes an objective end and an eyepiece end opposite the eyepiece end. The image capturing lens is disposed at the end of the objective lens. The red light emitting diode is disposed at the end of the objective lens, wherein when in a night mode, the red light emitting diodes provide illumination to assist the image capturing lens to capture an image, wherein each red light is illuminated The main light exit angle of the diode is less than 18°.
在一實施例中,該等紅光發光二極體包括一第一紅光發光二極體群組以及一第二紅光發光二極體群組,該第 一、第二紅光發光二極體群組分別位元於該影像擷取鏡頭的兩側。 In one embodiment, the red light emitting diodes comprise a first red light emitting diode group and a second red light emitting diode group, the first 1. The second red light emitting diode group is respectively located on both sides of the image capturing lens.
在一實施例中,該第一紅光發光二極體群組包括複數個第一紅光發光二極體,該第二紅光發光二極體群組包括複數個第二紅光發光二極體,該等第一紅光發光二極體以及該等第二紅光發光二極體均以矩陣方式排列。 In one embodiment, the first red light emitting diode group includes a plurality of first red light emitting diodes, and the second red light emitting diode group includes a plurality of second red light emitting diodes The first red light emitting diodes and the second red light emitting diodes are arranged in a matrix.
在一實施例中,該等第一紅光發光二極體以及該等第二紅光發光二極體的功率大於1.5W。 In one embodiment, the first red light emitting diodes and the second red light emitting diodes have a power greater than 1.5W.
在一實施例中,該等第一紅光發光二極體以及該等第二紅光發光二極體的數量為12顆,並以3×4方式排列。 In one embodiment, the first red light emitting diodes and the second red light emitting diodes are twelve in number and arranged in a 3×4 manner.
在一實施例中,該等第一紅光發光二極體以及該等第二紅光發光二極體的排列間距為~。 In one embodiment, the first red light emitting diodes and the second red light emitting diodes have an arrangement pitch of ~.
在一實施例中,該影像擷取鏡頭的孔徑為大於~。 In an embodiment, the aperture of the image capture lens is greater than ~.
在一實施例中,該望遠鏡更包括一顯示螢幕,設於該望遠鏡殼體之中,該顯示螢幕朝向該目鏡端,以顯示該影像擷取鏡頭所取得之影像。 In one embodiment, the telescope further includes a display screen disposed in the telescope housing, the display screen facing the eyepiece end to display an image obtained by the image capturing lens.
在一實施例中,該望遠鏡殼體更包括一第一內壁以及一第二內壁,該第一內壁以及該第二內壁從該顯示螢幕,以漸開方式朝該目鏡端延伸。 In one embodiment, the telescope housing further includes a first inner wall and a second inner wall, the first inner wall and the second inner wall extending from the display screen toward the eyepiece end in an involute manner.
在一實施例中,該第一內壁以及該第二內壁包括複數個散射結構,該等散射結構將顯示螢幕提供之一斜向光線散射,避免該斜向光線射向該目鏡端。 In one embodiment, the first inner wall and the second inner wall comprise a plurality of scattering structures that provide a diagonal light scatter to the display screen to prevent the oblique light from being directed toward the eyepiece end.
在一實施例中,該望遠鏡更包括一第一目鏡以及一第二目鏡,該第一目鏡以及該第二目鏡設於該目鏡端。 In an embodiment, the telescope further includes a first eyepiece and a second eyepiece, and the first eyepiece and the second eyepiece are disposed at the eyepiece end.
在一實施例中,該望遠鏡更包括一旋鈕、一第一齒條以及一第二齒條,該第一齒條連接該第一目鏡、該第二齒條連接該第二目鏡,該旋鈕連接該第一齒條以及該第二齒條,當該旋鈕轉動時,帶動該第一齒條以及該第二齒條相對移動,藉此調整該第一目鏡以及該第二目鏡之間的距離。 In an embodiment, the telescope further includes a knob, a first rack and a second rack, the first rack is connected to the first eyepiece, and the second rack is connected to the second eyepiece, the knob is connected The first rack and the second rack, when the knob rotates, drive the first rack and the second rack to move relative to each other, thereby adjusting a distance between the first eyepiece and the second eyepiece.
在一實施例中,該望遠鏡更包括一樞轉式遮罩,當處於該夜間模式時,該樞轉式遮罩呈開放狀態,以使光線充分進入該影像擷取鏡頭,當處於一日光模式時,該樞轉式遮罩呈遮蔽狀態,以限制進入該影像擷取鏡頭的光線。 In one embodiment, the telescope further includes a pivoting mask that is open when in the night mode to allow light to fully enter the image capturing lens when in a daylight mode The pivoting mask is shielded to limit the light entering the image capturing lens.
在本創作之實施例中,採用主要出光角度小於18°的紅光發光二極體,透過出光角度小於18°的紅光發光二極體搭配本創作在影像擷取鏡頭的特殊設計,本創作之夜視望遠鏡的夜視距離可以達到100公尺~200公尺,大幅提高了夜視距離。 In the embodiment of the present invention, a red light emitting diode with a main light-emitting angle of less than 18° is used, and a red light-emitting diode with a light-emitting angle of less than 18° is used in combination with the special design of the image capturing lens. The night vision distance of the night vision telescope can reach 100 meters to 200 meters, which greatly increases the night vision distance.
1‧‧‧望遠鏡 1‧‧‧ telescope
10‧‧‧望遠鏡殼體 10‧‧‧ Telescope housing
11‧‧‧物鏡端 11‧‧‧ Objective end
12‧‧‧目鏡端 12‧‧‧ eyepiece end
13‧‧‧第一內壁 13‧‧‧First inner wall
14‧‧‧第二內壁 14‧‧‧Second inner wall
15‧‧‧散射結構 15‧‧‧scattering structure
20‧‧‧影像擷取鏡頭 20‧‧‧Image capture lens
30‧‧‧紅光發光二極體 30‧‧‧Red light emitting diode
31‧‧‧第一紅光發光二極體群組 31‧‧‧First red light emitting diode group
32‧‧‧第二紅光發光二極體群組 32‧‧‧Second red light emitting diode group
33‧‧‧第一紅光發光二極體 33‧‧‧First red light emitting diode
34‧‧‧第二紅光發光二極體 34‧‧‧Second red light emitting diode
40‧‧‧顯示螢幕 40‧‧‧ Display screen
51‧‧‧第一目鏡 51‧‧‧ first eyepiece
52‧‧‧第二目鏡 52‧‧‧second eyepiece
53‧‧‧旋鈕 53‧‧‧ knob
54‧‧‧第一齒條 54‧‧‧First rack
55‧‧‧第二齒條 55‧‧‧second rack
60‧‧‧遮罩 60‧‧‧ mask
71‧‧‧電池盒 71‧‧‧ battery case
72‧‧‧控制板 72‧‧‧Control panel
73‧‧‧紅光發光二極體電路板 73‧‧‧Red light emitting diode circuit board
74‧‧‧矽膠護眼罩 74‧‧‧矽胶眼罩
75‧‧‧壓屏邊框 75‧‧‧Screen border
第1圖係顯示本創作之夜視望遠鏡的立體圖。 Figure 1 is a perspective view showing the night vision telescope of the present creation.
第2圖係顯示本創作之夜視望遠鏡的俯視圖。 Figure 2 is a top view showing the night vision telescope of the present creation.
第3圖係顯示本創作之散射結構的另一實施例。 Figure 3 is a diagram showing another embodiment of the scattering structure of the present invention.
第4圖係顯示本創作實施例之目鏡瞳距調制機構。 Fig. 4 is a view showing the eyepiece pitch modulation mechanism of the present embodiment.
第5A圖顯示本創作實施例之樞轉式遮罩,其中,樞轉式遮罩呈開放狀態。 Fig. 5A shows a pivotal mask of the present embodiment in which the pivoting mask is in an open state.
第5B圖顯示本創作實施例之樞轉式遮罩,其中,樞轉式遮罩呈遮蔽狀態。 Fig. 5B shows a pivoting mask of the present embodiment in which the pivoting mask is in a shielded state.
請參考第1、2圖,第1圖為本創作之夜視望遠鏡的立體圖,第2圖為本創作之夜視望遠鏡的俯視圖。本創作之夜視望遠鏡1包括一望遠鏡殼體10、一影像擷取鏡頭20以及一至少一紅光發光二極體30。望遠鏡殼體10包括一物鏡端11以及一目鏡端12,該物鏡端11與該目鏡端12相對。影像擷取鏡頭20設於該物鏡端11。紅光發光二極體30設於該物鏡端11,其中,當處於一夜間模式時,該等紅光發光二極體30提供照明,以協助該影像擷取鏡頭擷取影像,其中,每一紅光發光二極體之主要出光角度小於18°。 Please refer to Figures 1 and 2, Figure 1 is a perspective view of the night vision telescope of the creation, and Figure 2 is a top view of the night vision telescope of the creation. The night vision telescope 1 of the present invention includes a telescope housing 10, an image capturing lens 20, and an at least one red light emitting diode 30. The telescope housing 10 includes an objective end 11 and an eyepiece end 12 opposite the eyepiece end 12. The image capturing lens 20 is disposed at the objective end 11. The red light emitting diodes 30 are disposed at the objective end 11 , wherein when in a night mode, the red light emitting diodes 30 provide illumination to assist the image capturing lens to capture images, wherein each The main light-emitting angle of the red light-emitting diode is less than 18°.
在此實施例中,採用主要出光角度小於18°的紅光發光二極體,在此說明書之中,「主要出光角度」係指每一紅光發光二極體50%之出光量的出光角度。透過主要出光角度小於18°的紅光發光二極體搭配本創作在影像擷取鏡頭20的特殊設計,本創作之夜視望遠鏡1的夜視距離可以達到100公尺~200公尺,大幅提高了夜視距離。 In this embodiment, a red light emitting diode having a main light exit angle of less than 18° is used. In the present specification, the “main light exit angle” refers to a light exit angle of 50% of the light output amount of each red light emitting diode. . Through the special design of the image capturing lens 20 with the red light emitting diode with the main light-emitting angle less than 18°, the night vision distance of the night vision telescope 1 of this creation can reach 100 meters to 200 meters, greatly improving The night vision distance.
在上述實施例中每一紅光發光二極體之主要出光角度小於18°,在一變形例之中,每一紅光發光二極體之主要出光角度小於15°,在又一變形例之中,每一紅光發光二極體之主要出光角度小於12°。主要出光角度可以透過紅光發光二極體的封裝製程予以控制,具體而言,可以透過紅光發光二極體的透鏡封裝設計予以控制。 In the above embodiment, the main light-emitting angle of each of the red light-emitting diodes is less than 18°. In a modified example, the main light-emitting angle of each of the red light-emitting diodes is less than 15°, and in another modification The main light-emitting angle of each red light-emitting diode is less than 12°. The main light-emitting angle can be controlled by the packaging process of the red light-emitting diode, and specifically, can be controlled by the lens package design of the red light-emitting diode.
參考第1圖,該等紅光發光二極體30包括一第一紅光發光二極體群組31以及一第二紅光發光二極體群組32,該第 一紅光發光二極體群組31以及第二紅光發光二極體群組32分別位元於該影像擷取鏡頭20的兩側。該第一紅光發光二極體群組31包括複數個第一紅光發光二極體33,該第二紅光發光二極體群組32包括複數個第二紅光發光二極體34,該等第一紅光發光二極體33以及該等第二紅光發光二極體34均以矩陣方式排列。 Referring to FIG. 1 , the red light emitting diodes 30 include a first red light emitting diode group 31 and a second red light emitting diode group 32. A red light emitting diode group 31 and a second red light emitting diode group 32 are respectively located on both sides of the image capturing lens 20. The first red light emitting diode group 31 includes a plurality of first red light emitting diodes 33, and the second red light emitting diode group 32 includes a plurality of second red light emitting diodes 34. The first red light-emitting diodes 33 and the second red light-emitting diodes 34 are arranged in a matrix.
在一實施例中,該等第一紅光發光二極體以及該等第二紅光發光二極體的功率大於1.5W。透過高功率的紅光發光二極體,本創作之夜視望遠鏡1的夜視距離可以達到100公尺~200公尺,大幅提高了夜視距離。 In one embodiment, the first red light emitting diodes and the second red light emitting diodes have a power greater than 1.5W. Through the high-power red light-emitting diode, the night vision distance of the night vision telescope 1 of this creation can reach 100 meters to 200 meters, which greatly increases the night vision distance.
參考第1圖,在一實施例中,該等第一紅光發光二極體以及該等第二紅光發光二極體的功率為1.8W,數量為2顆。在另一實施例中,該等第一紅光發光二極體以及該等第二紅光發光二極體的功率為0.3W,數量為12顆,並以3×4方式排列。。透過上述設計,可以較少的紅光發光二極體提供較佳的望遠照明效果。 Referring to FIG. 1 , in an embodiment, the first red light emitting diodes and the second red light emitting diodes have a power of 1.8 W and a number of two. In another embodiment, the first red light emitting diodes and the second red light emitting diodes have a power of 0.3 W, a number of 12, and are arranged in a 3×4 manner. . Through the above design, fewer red light emitting diodes can provide better telescopic illumination effects.
在本創作之實施例中,該影像擷取鏡頭的孔徑為大於1.3mm。藉由較大孔徑的影像擷取鏡頭,可提高影像擷取鏡頭的進光量,以提高夜間望遠的觀賞品質。 In an embodiment of the present invention, the aperture of the image capture lens is greater than 1.3 mm. By capturing the lens with a larger aperture image, the amount of light entering the lens can be increased to improve the viewing quality at night.
參考第2圖,該望遠鏡1更包括一顯示螢幕40,設於該望遠鏡殼體10之中,該顯示螢幕40朝向該目鏡端12,以顯示該影像擷取鏡頭20所取得之影像。該望遠鏡殼體更包括一第一內壁13以及一第二內壁14,該第一內壁13以及該第二內壁14彼此相對,該第一內壁13以及該第二內壁14從該顯示螢幕40, 以漸開方式朝該目鏡端12延伸。在此實施例中,顯示螢幕40與目鏡之間存在獨立空間的觀看區,使得使用者的雙眼觀看顯示螢幕40時獲得較大的影像以及舒適效果。 Referring to FIG. 2, the telescope 1 further includes a display screen 40 disposed in the telescope housing 10, and the display screen 40 faces the eyepiece end 12 to display an image obtained by the image capturing lens 20. The telescope housing further includes a first inner wall 13 and a second inner wall 14. The first inner wall 13 and the second inner wall 14 are opposite to each other, and the first inner wall 13 and the second inner wall 14 are The display screen 40, Extending toward the eyepiece end 12 in an involute manner. In this embodiment, a viewing area with a separate space between the screen 40 and the eyepiece is displayed, so that the user's eyes can display a larger image and a comfortable effect when viewing the screen 40.
參考第2圖,在一實施例中,該第一內壁13以及該第二內壁14包括複數個散射結構15,該等散射結構15將顯示螢幕40提供之一斜向光線B散射(反射),避免該斜向光線B射向該目鏡端12。在一實施例中,該等散射結構15可以為黑色或以吸光材質製造。在一實施例中,該等散射結構15可將光線導向該顯示螢幕40。參考第3圖,其係顯示散射結構15的另一實施例,其中,散射結構15可以為條紋結構。 Referring to FIG. 2, in an embodiment, the first inner wall 13 and the second inner wall 14 include a plurality of scattering structures 15 that scatter the oblique light B provided by the display screen 40 (reflection) ), the oblique light B is prevented from being directed toward the eyepiece end 12. In an embodiment, the scattering structures 15 may be black or fabricated in a light absorbing material. In an embodiment, the scattering structures 15 direct light to the display screen 40. Referring to Figure 3, there is shown another embodiment of a scattering structure 15 wherein the scattering structure 15 can be a striped structure.
參考第4圖,其係顯示本創作實施例之目鏡瞳距調制機構,在一實施例中,該望遠鏡1更包括一第一目鏡51以及一第二目鏡52,該第一目鏡51以及該第二目鏡52設於該目鏡端。該望遠鏡1更包括一旋鈕53、一第一齒條54以及一第二齒條55,該第一齒條54連接該第一目鏡51、該第二齒條55連接該第二目鏡52,該旋鈕53連接該第一齒條54以及該第二齒條55,當該旋鈕53轉動時,帶動該第一齒條54以及該第二齒條55相對移動,藉此調整該第一目鏡51以及該第二目鏡52之間的距離(瞳距)。 Referring to FIG. 4, the eyepiece pitch modulation mechanism of the present embodiment is shown. In an embodiment, the telescope 1 further includes a first eyepiece 51 and a second eyepiece 52, the first eyepiece 51 and the first A dimocular 52 is provided at the end of the eyepiece. The telescope 1 further includes a knob 53, a first rack 54 and a second rack 55. The first rack 54 is connected to the first eyepiece 51, and the second rack 55 is connected to the second eyepiece 52. The knob 53 is connected to the first rack 54 and the second rack 55. When the knob 53 rotates, the first rack 54 and the second rack 55 are relatively moved, thereby adjusting the first eyepiece 51 and The distance between the second eyepieces 52 (pitch).
參考第5A、5B圖,在一實施例中,該望遠鏡1更包括一樞轉式遮罩60,當處於該夜間模式時,該樞轉式遮罩60呈開放狀態(第5A圖),以使光線充分進入該影像擷取鏡頭20。當處於一日光模式時(第5B圖),該樞轉式遮罩60呈遮蔽狀態,以限制進入該影像擷取鏡頭20的光線。樞轉式遮罩60可包含紅外 線濾光片。 Referring to Figures 5A, 5B, in one embodiment, the telescope 1 further includes a pivoting mask 60 that, when in the night mode, is in an open state (Fig. 5A) to The light is sufficiently directed into the image capture lens 20. When in a daylight mode (Fig. 5B), the pivoting mask 60 is shielded to limit the light entering the image capturing lens 20. Pivot mask 60 can include infrared Line filter.
再搭配參照第1、2圖,本創作之望遠鏡1更包括電池盒71、控制板72、紅光發光二極體電路板73、矽膠護眼罩74等元件,矽膠護眼罩74的尺寸可加厚加寬,以增進使用者的舒適感。參照第3圖,在一實施例中,顯示螢幕40邊緣可設置壓屏邊框75,以防止翹起。 Referring to the first and second figures, the telescope 1 of the present invention further includes a battery case 71, a control board 72, a red light emitting diode circuit board 73, a silicone eye shield 74 and the like, and the size of the silicone eye shield 74 can be thickened. Widened to enhance user comfort. Referring to Fig. 3, in an embodiment, a screen border 75 may be provided at the edge of the display screen 40 to prevent lifting.
夜視望遠鏡大部分使用於登山/露營/打獵/安防/偵測...等等場合。基本上使用者都希望能夠看到目標物又遠又清晰,而且不被對方發現自己。因此本創作使用主動式紅外線(波長850-940nm)作為光源。在此波長紅外線無法用人眼見到被觀察物件,本創作使用特殊波長感測元件器(infrared sensor)紅外線面積型感測器收集被觀測物反射之紅外光波經DSP微處理器的程式軟件處理轉換成LCD顯示屏的可視影像而達成夜視望遠鏡的功能。 Most of the night vision telescopes are used in mountaineering/camping/hunting/security/detection...etc. Basically, users want to be able to see the target far and clear, and not be found by the other party. Therefore, this creation uses active infrared (wavelength 850-940 nm) as a light source. At this wavelength, infrared rays cannot be seen by the human eye. This design uses a special wavelength sensing sensor infrared area type sensor to collect the infrared light reflected by the observed object and convert it into the processing software of the DSP microprocessor. A visual image of the LCD display achieves the function of a night vision telescope.
為求紅外線光能在達到遠距離100米/200米,甚至在其他範例可達500米遠的被觀測物體反射紅外線強度能令影像攝取鏡頭的感測器獲得清晰的影像資料訊號,必須將紅外線光集中能量發射,因此經反覆實驗測試,紅外線發光二極體出光角度必須等於或小於18度,以後得到最大光照效率。 In order to obtain infrared light energy to reach a distance of 100 meters / 200 meters, even in other examples up to 500 meters away from the observed object to reflect the infrared intensity can make the image of the lens of the lens to obtain clear image data signals, must be infrared The light concentrates the energy emission. Therefore, after repeated experiments, the light-emitting diode output angle must be equal to or less than 18 degrees, and the maximum illumination efficiency is obtained later.
為了在白天也能作為電子望遠鏡使用,申請人在鏡頭前設計了樞轉式濾光片遮罩。在夜晚打開遮罩讓最大的紅外光進入.在白天關上遮罩以控制鏡頭的光圈及過濾自然陽光中會干擾影像彩色質量的紅外光波,以求得不論在晚上或白天都有最佳觀看影像質量。 In order to be used as an electronic telescope during the day, the applicant designed a pivotal filter mask in front of the lens. Open the mask at night to let the maximum infrared light enter. Turn off the mask during the day to control the aperture of the lens and filter the infrared light that would interfere with the color quality of the image in natural sunlight, so as to obtain the best viewing image at night or during the day. quality.
雖然本創作已以具體之較佳實施例揭露如上,然其並非用以限定本創作,任何熟習此項技術者,在不脫離本創作之精神和範圍內,仍可作些許的更動與潤飾,因此本創作之保護範圍當視後附之申請專利範圍所界定者為準。 Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention, and anyone skilled in the art can make some modifications and refinements without departing from the spirit and scope of the present invention. Therefore, the scope of protection of this creation is subject to the definition of the scope of the patent application attached.
1‧‧‧望遠鏡 1‧‧‧ telescope
10‧‧‧望遠鏡殼體 10‧‧‧ Telescope housing
11‧‧‧物鏡端 11‧‧‧ Objective end
12‧‧‧目鏡端 12‧‧‧ eyepiece end
20‧‧‧影像擷取鏡頭 20‧‧‧Image capture lens
30‧‧‧紅光發光二極體 30‧‧‧Red light emitting diode
31‧‧‧第一紅光發光二極體群組 31‧‧‧First red light emitting diode group
32‧‧‧第二紅光發光二極體群組 32‧‧‧Second red light emitting diode group
33‧‧‧第一紅光發光二極體 33‧‧‧First red light emitting diode
34‧‧‧第二紅光發光二極體 34‧‧‧Second red light emitting diode
71‧‧‧電池盒 71‧‧‧ battery case
72‧‧‧控制板 72‧‧‧Control panel
Claims (14)
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201420791437.7U CN204241758U (en) | 2014-12-12 | 2014-12-12 | Telescope with night vision function |
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TWM516722U true TWM516722U (en) | 2016-02-01 |
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TW104217241U TWM516722U (en) | 2014-12-12 | 2015-10-28 | Night vision telescope |
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TW (1) | TWM516722U (en) |
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US10466467B2 (en) * | 2017-10-03 | 2019-11-05 | Quan Xing Electronic Technology (ShenZhen) Co., Ltd. | Electronic telescope |
CN112782840A (en) * | 2019-11-11 | 2021-05-11 | 诠兴国际电子有限公司 | Optical telescope |
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2014
- 2014-12-12 CN CN201420791437.7U patent/CN204241758U/en not_active Expired - Fee Related
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2015
- 2015-10-28 TW TW104217241U patent/TWM516722U/en not_active IP Right Cessation
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