TW201908852A - Assembling apparatus and method thereof - Google Patents
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Abstract
Description
本發明涉及一種裝配裝置及其方法,更具體地涉及用於裝配光學部件的裝配裝置和方法。 The present invention relates to an assembly apparatus and method therefor, and more particularly to an assembly apparatus and method for assembling an optical component.
當相機出現在各種電子設備上時,需要精確地裝配相機的光學元件。通常,使用一個筒支撐多個透鏡。透鏡鏡筒安裝在支架上,並提供圖像感應器透過鏡筒接收圖像。重要的是將多個透鏡裝配到所述鏡筒中,並且對於將鏡筒精確裝配到相應的支架上。 When the camera appears on a variety of electronic devices, it is necessary to accurately assemble the optical components of the camera. Typically, a single cylinder is used to support multiple lenses. The lens barrel is mounted on the bracket and provides an image sensor to receive images through the barrel. It is important to fit a plurality of lenses into the barrel and to accurately assemble the barrel to the corresponding bracket.
根據本發明的實施例,裝配裝置被設計用來裝配光學模塊。所述光學模塊包括容納多個透鏡的鏡筒。為了限制不必要的隨機光,可能會在鏡筒之間放置像SOMA這樣的遮光組件。 According to an embodiment of the invention, the assembly device is designed to assemble an optical module. The optical module includes a lens barrel that houses a plurality of lenses. In order to limit unnecessary random light, a light shielding component such as SOMA may be placed between the lens barrels.
裝配裝置可以包括一透鏡收集器和一鏡筒支撐器。 The assembly device can include a lens collector and a barrel support.
所述透鏡收集器設計用於從托盤板獲取透鏡以裝配至所述鏡筒。當鏡筒需要安裝多個鏡筒時,在一個裝配裝置中可能存在多個透鏡收集器。此外,可以有兩個或更多組這樣的設計用於同時間裝 配兩個或更多個鏡筒。 The lens collector is designed to take a lens from a tray plate to assemble to the lens barrel. When a lens barrel needs to be mounted with multiple lens barrels, there may be multiple lens collectors in one assembly device. In addition, there may be two or more sets of such designs for assembling two or more barrels at the same time.
所述透鏡收集器將透鏡移動到鏡筒支撐器上方。然後,所述鏡筒支撐器設計中有二個定位驅動器,用於向上移動鏡筒,以與由鏡片驅動的受控強度和位置契合。 The lens collector moves the lens over the barrel support. Then, there are two positioning drivers in the barrel support design for moving the barrel upward to match the controlled strength and position driven by the lens.
在一些實施例中,當所述鏡筒支撐器被控制向上移動以與透鏡接合時,存在依次發生的引入階段和主要裝配階段。在所述引入階段,透過所述定位驅動器將第一力施加到所述鏡筒支撐器。在所述主要裝配階段,透過所述定位驅動器將第二力施加到所述鏡筒支撐器。第一力比第二力小。例如,在所述引入階段,力可以為300g/cm 2,而在主要裝配階段,力可以是2000g/cm 2~3000g/cm 2。 In some embodiments, when the barrel support is controlled to move upward to engage the lens, there are successive introduction phases and major assembly phases. In the introduction phase, a first force is applied to the barrel support through the positioning drive. In the main assembly phase, a second force is applied to the barrel support through the positioning drive. The first force is smaller than the second force. For example, at the introduction stage, the force may be 300 g/cm 2 , and in the main assembly stage, the force may be 2000 g/cm 2 to 3000 g/cm 2 .
為了提供精確的控制效果,所述定位驅動器可以包括具有相應的驅動機制的伺服電動機,像一系列具有滾珠的連桿,用於驅動鏡筒支撐器以一個具控制的速度和力,向上或向下移動。使用光學測量裝置,這種定位驅動器可以在0.01mm的精度水平內進行控制。 In order to provide a precise control effect, the positioning drive may comprise a servo motor having a corresponding drive mechanism, like a series of links with balls for driving the barrel support with a controlled speed and force, up or towards Move down. Using an optical measuring device, this positioning drive can be controlled with an accuracy level of 0.01 mm.
在某些情況下,當透鏡收集器未完全對準鏡筒架時。例如,由透鏡收集器支撐的透鏡表面不平行於鏡筒的表面。在這種情況下,當透鏡插入鏡筒時,透鏡和鏡筒之間可能產生傾斜角度。為了使裝配上更加可靠,所述鏡筒支撐器可以向下移動一定距離,旋轉角度,然後再次接合透鏡。透過以一定角度改變鏡筒體然後在其上施加力,可以更可靠地裝配透鏡。這種方法可以被採用多於一次。換句話說,鏡筒支撐器可以以多個角度旋轉,用於與多個角度依序地與筒體接合。為了防止損壞,在更換另一個角度之前,支撐架可能向下移動,以再次與所述透鏡契合。 In some cases, when the lens collector is not fully aligned with the lens holder. For example, the surface of the lens supported by the lens collector is not parallel to the surface of the barrel. In this case, when the lens is inserted into the lens barrel, an inclination angle may be generated between the lens and the lens barrel. In order to make the assembly more reliable, the barrel support can be moved down a certain distance, rotated, and then the lens is re-engaged. By changing the barrel body at an angle and then applying a force thereon, the lens can be assembled more reliably. This method can be used more than once. In other words, the barrel support can be rotated at a plurality of angles for sequentially engaging the barrel with a plurality of angles. To prevent damage, the support frame may move down to match the lens again before changing another angle.
如上所述,可以在鏡筒支撐器上設置測量裝置,以測量鏡筒支撐器的移動距離。當多個透鏡和其他部件一個接一個地堆疊成一個筒體時,每個操作可對應於測量的距離。透過計算多個測量距離,可以獲得透鏡的相對距離。這樣的結果可以反饋到鏡筒支撐器的控制。換句話說,例如:通過給予附加力按壓於鏡筒或透鏡上。如果有可能的話,存在任何不希望產生的錯誤都可以被調整。 As described above, a measuring device can be provided on the lens barrel holder to measure the moving distance of the lens barrel holder. When a plurality of lenses and other components are stacked one after another into a cylinder, each operation may correspond to a measured distance. By calculating a plurality of measured distances, the relative distance of the lenses can be obtained. Such results can be fed back to the control of the lens holder. In other words, for example, by pressing an additional force on the lens barrel or lens. Any undesired errors can be adjusted if possible.
在其他情況下,透鏡收集器可以具有相對於鏡筒支撐器調節相對角度的調節裝置。例如,可以應用於調整透鏡收集器角度的幾個調節螺釘。操作員可以調整這些調節螺釘,以確保透鏡收集器能更好地對準鏡筒支撐器。 In other cases, the lens collector can have adjustment means that adjust the relative angle relative to the barrel support. For example, it can be applied to several adjustment screws that adjust the angle of the lens collector. The operator can adjust these adjustment screws to ensure that the lens collector is better aligned with the lens holder.
在一些情況下,可以首先使用准直器與鏡筒支撐器對準,然後對準的准直器進一步用於調整透鏡收集器的調節裝置,用於對準透鏡收集器和鏡筒支撐器之間的相對角度。這種准直器具有發光源以在准直器內發射可移動的光線,然更進一步地移動到相對應的光學部件。例如,一面鏡子,在被引導到感應器之前,如果准直器完全平行於與光學部件放置的鏡架,則感應器接收透射光。否則,准直器會被調節至一個角度,直到准直器與鏡筒支撐器對準。在准直器與鏡筒支撐器對準之後,會調整透鏡收集器以與准直器對準,間接地確保透鏡收集器與鏡筒支撐器對準。 In some cases, the collimator can be first aligned with the barrel support, and then the aligned collimator is further used to adjust the adjustment of the lens collector for aligning the lens collector and the barrel support The relative angle between the two. Such collimators have a source of illumination to emit movable light within the collimator and then move further to the corresponding optical component. For example, a mirror receives the transmitted light if the collimator is completely parallel to the frame placed with the optical component before being guided to the sensor. Otherwise, the collimator will be adjusted to an angle until the collimator is aligned with the barrel support. After the collimator is aligned with the barrel support, the lens collector is adjusted to align with the collimator, indirectly ensuring that the lens collector is aligned with the barrel support.
此外,為了確保透鏡的中心與鏡筒對準,並且還可以將其他透鏡插入鏡筒中,可能有一個或一個以上的推桿。每個推動桿可以由彈簧推動的兩個收集部件製成。兩個收集部件夾住一個透鏡,並且具有不同力以使它們的彈簧以不同的力推動透鏡。而這將會使透鏡 與透鏡收集器末端的邊緣對齊。當所有透鏡與對應的透鏡收集器的邊緣對準時,這些透鏡也彼此對準,因此可以在這種條件下調節鏡筒支撐器。 Furthermore, in order to ensure that the center of the lens is aligned with the barrel, and other lenses can also be inserted into the barrel, there may be one or more push rods. Each push rod can be made of two collection members that are spring driven. The two collecting members clamp one lens and have different forces to cause their springs to push the lens with different forces. This will align the lens with the edge of the end of the lens collector. When all the lenses are aligned with the edges of the corresponding lens collector, the lenses are also aligned with each other, so the lens holder can be adjusted under such conditions.
在這種設計中,可以有多個透鏡收集器分別用於收集要裝配到鏡筒中的多個透鏡。存在具有多個推動桿的對準裝置。每個推動桿對應於一個透鏡,用於推動所述透鏡對齊對應的透鏡收集器邊緣。 In this design, there may be multiple lens collectors for collecting a plurality of lenses to be assembled into the lens barrel, respectively. There are alignment devices with multiple push rods. Each push rod corresponds to a lens for urging the lens to align with a corresponding lens collector edge.
所述推動桿具有兩個不同力的彈簧,用於將相對應的透鏡推到相應的透鏡收集器的一個邊緣。 The push rod has two springs of different forces for pushing the corresponding lens to one edge of the corresponding lens collector.
此外,所述透鏡收集器可具有用於收集與透鏡不同部件的吸引力。例如,空氣驅動泵可以用於產生低空氣壓力以產生吸力以吸引和附接透鏡。 Furthermore, the lens collector can have an attractive force for collecting different components from the lens. For example, an air driven pump can be used to generate low air pressure to create suction to attract and attach the lens.
為了控制這種裝配裝置,可以存在運行相應的軟件代碼控制裝置,如控制電路或微型計算機。所述控制裝置可以向操作者提供具有不同裝配參數的多個參數組。例如,操作裝配裝置的操作者可以設置用於獲得操作者的輸入和輸出的顯示器。操作者可以在操作中選擇要插入鏡筒的一種類型光學部件,並且控制裝置為操作者提供若干選項以從中選擇。在操作員選擇相應的選項之後,相應的參數被設置,操作者不需要輸入操作裝配裝置的所有參數。這降低了運營複雜性和成本,並提高了用戶體驗和性能。 In order to control such an assembly device, there may be a corresponding software code control device, such as a control circuit or a microcomputer. The control device can provide the operator with a plurality of parameter sets having different assembly parameters. For example, an operator operating the assembly device can set up a display for obtaining operator input and output. The operator can select one type of optical component to be inserted into the lens barrel during operation, and the control device provides the operator with several options to select from. After the operator selects the corresponding option, the corresponding parameters are set and the operator does not need to enter all the parameters for operating the assembly. This reduces operational complexity and cost and improves user experience and performance.
不同的參數組具有不同的驅動力和驅動速度,用於驅動鏡筒支撐器向上或向下移動。這樣的參數可以由操作者通過控制裝置提供一個表來進一步改變。例如,操作員可以使用流行的表編輯器(如Excel或Google Tools)編輯相關參數。這樣的表格可以直接在控制 設備上編輯,也可以透過其他機器進行編輯。該表被發送到控制裝置,並且被解碼以產生相應的參數以控制透鏡收集器和鏡筒支撐器。 Different sets of parameters have different driving forces and drive speeds for driving the barrel support up or down. Such parameters can be further changed by the operator providing a table through the control device. For example, an operator can edit related parameters using a popular table editor such as Excel or Google Tools. Such forms can be edited directly on the control device or edited from other machines. The table is sent to the control device and decoded to generate corresponding parameters to control the lens collector and barrel support.
在一些鏡筒中,透鏡具有傾斜角表面,並且兩個透鏡在相應的傾斜角表面處接觸。當鏡筒支撐器被驅動以裝配相對應的透鏡時,透過測量多個距離來控制鏡筒支撐器。當將相應的透鏡裝配到鏡筒上時,能將多個距離用作不同階段的裝配參數。 In some barrels, the lens has a sloped angle surface and the two lenses are in contact at the respective angled surface. When the barrel holder is driven to fit the corresponding lens, the barrel holder is controlled by measuring a plurality of distances. When the corresponding lens is assembled to the lens barrel, multiple distances can be used as assembly parameters for different stages.
綜上所述,上述實施例提供了一種有效的裝配裝置。 In summary, the above embodiment provides an effective assembly device.
根據本發明的另一個實施例,提供了一種用於將鏡筒裝配到諸如具有相機的行動電話電子設備的支撐器上的裝配裝置。這種裝配裝置可以用作生產管道中的機器。在該實施例中,具有透鏡的鏡筒進一步裝配到可以具有OIS(防抖動)的支撐器或簡單地進一步為支撐圖像感應器的支撐器。 In accordance with another embodiment of the present invention, an assembly apparatus for mounting a lens barrel to a support such as a mobile phone electronic device having a camera is provided. This assembly device can be used as a machine in a production pipe. In this embodiment, the lens barrel with the lens is further fitted to a holder that can have OIS (anti-shake) or simply further supports the image sensor.
鏡筒中的透鏡用於透過鏡筒將外部圖像引導到圖像感應器上。然而,當將具有透鏡的鏡筒裝配到支撐器時,也不需要安裝圖像感應器。該實施例可以用於將鏡筒與透鏡自動對准支撐器。 A lens in the lens barrel is used to direct an external image through the lens barrel to the image sensor. However, when the lens barrel having the lens is assembled to the holder, it is not necessary to mount the image sensor. This embodiment can be used to automatically align the lens barrel with the lens to the holder.
裝配裝置具有將光學圖像發射到具有穿越路徑的透鏡鏡筒的透鏡照明圖。穿越路徑與用在圖像感應器上收集外部圖像的鏡筒圖像接收路徑相對。換句話說,圖表被放置在原始圖像感應器所在的同一側。所述照明圖表,例如在其上具有一些對準符號的透明幻燈片上,發光的光源透過鏡筒向外發射出圖表圖像。用於收集與光學圖像相對應的圖像數據,至少一個相機被放置在用於捕獲圖表圖像的位置處。為了更有效地進行處理,可以使用幾個具有低分辨率的相 機而不是高分辨率相機來收集圖表圖像的一部分。透過分析捕獲的圖像,可以檢測筒體和支架之間不希望的傾斜角度。這樣的問題可以被發回到裝配裝置的控制裝置中,以調節鏡筒和支撐器之間的相對裝配位置。這樣的操作可以執行多次,這意味著在調整相對裝配位置之後,能再次激活攝像機以捕獲圖像數據。然後,控制裝置再次調整相對裝配位置。最後,當圖像數據符合預定標準時,控制裝置將固定鏡筒和支撐器。 The assembly device has a lens illumination pattern that emits an optical image to a lens barrel having a traversing path. The traversing path is opposite to the lens image receiving path for collecting external images on the image sensor. In other words, the chart is placed on the same side as the original image sensor. The illumination chart, for example on a transparent slide having some alignment marks thereon, emits a chart image through the lens barrel. For collecting image data corresponding to an optical image, at least one camera is placed at a position for capturing a chart image. For more efficient processing, several cameras with low resolutions can be used instead of high resolution cameras to collect a portion of the chart image. By analyzing the captured image, an undesired tilt angle between the barrel and the holder can be detected. Such problems can be sent back to the control device of the assembly device to adjust the relative assembly position between the lens barrel and the support. Such an operation can be performed multiple times, which means that after adjusting the relative assembly position, the camera can be activated again to capture image data. The control device then adjusts the relative assembly position again. Finally, when the image data meets predetermined criteria, the control device will secure the barrel and holder.
透鏡筒和支架可以用紫外線硬化的膠固定。在其他情況下,鏡筒可以用相應的螺絲結構或其他機構固定。 The lens barrel and the holder can be fixed with ultraviolet-curable glue. In other cases, the lens barrel can be fixed with a corresponding screw structure or other mechanism.
如上所述,可以在不同位置定位多個攝像機,以接收對應於光學圖像不同部分的圖像數據。照明圖可以是用光源照亮的透明圖表。 As described above, multiple cameras can be positioned at different locations to receive image data corresponding to different portions of the optical image. The illumination map can be a transparent chart illuminated with a light source.
101‧‧‧X-Y-Z軸機器人臂 101‧‧‧X-Y-Z-axis robot arm
102‧‧‧透鏡收集器 102‧‧‧ lens collector
103‧‧‧吸引部 103‧‧‧Attraction
104‧‧‧筒支撐器 104‧‧‧Cylinder support
105‧‧‧平台 105‧‧‧ platform
11‧‧‧鏡筒 11‧‧‧Mirror tube
100‧‧‧透鏡 100‧‧‧ lens
111‧‧‧支撐接收透鏡 111‧‧‧Support receiving lens
201‧‧‧鏡筒 201‧‧‧Mirror tube
202‧‧‧透鏡 202‧‧‧ lens
203‧‧‧透鏡 203‧‧‧ lens
204‧‧‧透鏡 204‧‧‧ lens
205‧‧‧額外元件205 205‧‧‧Additional component 205
301‧‧‧透鏡 301‧‧‧ lens
302‧‧‧透鏡 302‧‧‧ lens
3011‧‧‧指向角度 3011‧‧‧ pointing angle
3012‧‧‧指向角度 3012‧‧‧ pointing angle
41‧‧‧支撐器 41‧‧‧Support
42‧‧‧鏡筒 42‧‧‧Mirror tube
421‧‧‧透鏡 421‧‧‧ lens
422‧‧‧透鏡 422‧‧‧ lens
45‧‧‧照明圖 45‧‧‧Lighting diagram
451‧‧‧光源 451‧‧‧Light source
401‧‧‧相機 401‧‧‧ camera
402‧‧‧相機 402‧‧‧ camera
403‧‧‧相機 403‧‧‧ camera
404‧‧‧相機 404‧‧‧ camera
431‧‧‧膠 431‧‧‧ glue
432‧‧‧膠 432‧‧‧ glue
圖1是為說明裝配裝置的圖。 Fig. 1 is a view for explaining an assembling device.
圖2A和圖2B說明具有兩個不同視角的鏡筒。 2A and 2B illustrate a lens barrel having two different viewing angles.
圖3說明具有相應導向角的兩個透鏡。 Figure 3 illustrates two lenses with corresponding steering angles.
圖4說明裝配裝置的另一實施例。 Figure 4 illustrates another embodiment of an assembly device.
請參考圖1,圖1是為說明裝配裝置的圖。裝配裝置具有多個透鏡收集器102。這些透鏡收集器102固定在可以沿X-Y-Z方向移動的X-Y-Z軸機器人臂101上。換句話說,所述透鏡收集器102可以移動到 預定位置以獲得要裝配的相應部件。在透鏡收集器102的底部設置有吸引部103。氣壓泵可以用於在吸引部103內產生較低的空氣壓力,使得吸引部103可吸收相當的部件,如透鏡100。 Please refer to FIG. 1. FIG. 1 is a view for explaining the assembling device. The assembly device has a plurality of lens collectors 102. These lens collectors 102 are fixed to the X-Y-Z axis robot arm 101 which is movable in the X-Y-Z direction. In other words, the lens collector 102 can be moved to a predetermined position to obtain corresponding components to be assembled. A suction portion 103 is provided at the bottom of the lens collector 102. The pneumatic pump can be used to generate a lower air pressure within the attraction portion 103 such that the attraction portion 103 can absorb equivalent components, such as the lens 100.
裝配裝置還具有位於平台105上的筒支撐器104。筒支撐器104可以由諸如伺服電機的定位驅動器驅動,具有可以在高精確度操作中操作相對應的連接桿和/或滾珠。 The assembly device also has a cartridge holder 104 located on the platform 105. The cartridge holder 104 can be driven by a positioning drive such as a servo motor with a connecting rod and/or ball that can operate in high precision operation.
筒支撐器104用於支撐接收透鏡111或其它元件的鏡筒11,例如僅透過其中間部分的遮光環限制光。 The cartridge holder 104 is for supporting the lens barrel 11 of the receiving lens 111 or other elements, for example, limiting light only through the light shielding ring of the intermediate portion thereof.
圖2A和圖2B說明了具有透鏡的鏡筒201或稱作為相機模塊光學部件的鏡筒。多個透鏡202,203,204彼此堆疊,並且像SOMA那樣允許光通過其中間開口的一些額外元件205也可以插入到鏡筒201中。圖3說明了具有指向角度3011和3012的兩個透鏡301,302。在裝配期間,透鏡301首先以較小的力與底部透鏡32接觸。如果原來不是這樣,指向角度3011和3012會確保兩個透鏡301和302對準。當進行這種對準時,會施加更大的力來放置頂部透鏡301,這種方法將使透鏡能進行更好地對準。 2A and 2B illustrate a lens barrel 201 having a lens or a lens barrel referred to as an optical component of a camera module. A plurality of lenses 202, 203, 204 are stacked one on another, and some additional elements 205 that allow light to pass through the intermediate opening like SOMA can also be inserted into the lens barrel 201. Figure 3 illustrates two lenses 301, 302 having pointing angles 3011 and 3012. During assembly, lens 301 is first contacted with bottom lens 32 with less force. If this is not the case, pointing angles 3011 and 3012 will ensure alignment of the two lenses 301 and 302. When this alignment is made, a greater force is applied to place the top lens 301, which will allow the lens to be better aligned.
根據本發明的實施例,裝配裝置被設計用於裝配光學模塊。所述光學模塊包括容納多個透鏡的鏡筒。為了限制不必要的隨機光,可能會在鏡筒之間放置像SOMA這樣的遮光組件。裝配裝置可以包括透鏡收集器和鏡筒支撐器。 According to an embodiment of the invention, the assembly device is designed to assemble an optical module. The optical module includes a lens barrel that houses a plurality of lenses. In order to limit unnecessary random light, a light shielding component such as SOMA may be placed between the lens barrels. The assembly device can include a lens collector and a barrel support.
透鏡收集器設計用於從托盤板獲取透鏡以裝配到鏡筒上。當鏡筒需要安裝多個筒時,在一個裝配裝置中可能存在多個透鏡收集器。此外,可以透過兩個或更多個筒的這種設計一次組合成兩套或 多套。 透鏡收集器將透鏡移動到鏡筒支撐器上方。然後,鏡筒支撐器設計有一個定位驅動器,用於向上移動鏡筒,以與由鏡片驅動的受控強度和位置契合。 The lens collector is designed to take a lens from the tray plate for assembly onto the lens barrel. When a lens cartridge needs to be mounted with multiple cartridges, there may be multiple lens collectors in one assembly device. In addition, this design of two or more cartridges can be combined into two or more sets at a time. The lens collector moves the lens over the lens holder. The barrel support is then designed with a positioning drive for moving the barrel upward to match the controlled strength and position driven by the lens.
在一些實施例中,當所述鏡筒支撐器被控制向上移動以與透鏡接合時,存在依次發生的引入階段和主要裝配階段。在所述引入階段,透過所述定位驅動器將第一力施加到所述鏡筒支撐器。在所述主要裝配階段,透過所述定位驅動器將第二力施加到所述鏡筒支撐器。第一力比第二力小。例如,在所述引入階段,力可以為300g/cm 2,而在主要裝配階段,力可以是2000g/cm 3~3000g/cm 2。 In some embodiments, when the barrel support is controlled to move upward to engage the lens, there are successive introduction phases and major assembly phases. In the introduction phase, a first force is applied to the barrel support through the positioning drive. In the main assembly phase, a second force is applied to the barrel support through the positioning drive. The first force is smaller than the second force. For example, at the introduction stage, the force may be 300 g/cm 2 , and in the main assembly stage, the force may be 2000 g/cm 3 to 3000 g/cm 2 .
為了提供精確的控制效果,所述定位驅動器可以包括具有相應的驅動機制的伺服電動機,像一系列具有滾珠的連桿,用於驅動鏡筒支撐器以一個具控制的速度和力,向上或向下移動。使用光學測量裝置,這種定位驅動器可以在0.01mm的精度水平內進行控制。 In order to provide a precise control effect, the positioning drive may comprise a servo motor having a corresponding drive mechanism, like a series of links with balls for driving the barrel support with a controlled speed and force, up or towards Move down. Using an optical measuring device, this positioning drive can be controlled with an accuracy level of 0.01 mm.
在某些情況下,當透鏡收集器未完全對準鏡筒架時。例如,由透鏡收集器支撐的透鏡表面不平行於鏡筒的表面。在這種情況下,當透鏡插入鏡筒時,透鏡和鏡筒之間可能產生傾斜角度。為了使裝配上更加可靠,所述鏡筒支撐器可以向下移動一定距離,旋轉角度,然後再次接合透鏡。透過以一定角度改變鏡筒體然後在其上施加力,可以更可靠地裝配透鏡。這種方法可以被採用多於一次。換句話說,鏡筒支撐器可以以多個角度旋轉,用於與多個角度依序地與筒體接合。為了防止損壞,在更換另一個角度之前,支撐架可能向下移動,以再次與所述透鏡契合。 In some cases, when the lens collector is not fully aligned with the lens holder. For example, the surface of the lens supported by the lens collector is not parallel to the surface of the barrel. In this case, when the lens is inserted into the lens barrel, an inclination angle may be generated between the lens and the lens barrel. In order to make the assembly more reliable, the barrel support can be moved down a certain distance, rotated, and then the lens is re-engaged. By changing the barrel body at an angle and then applying a force thereon, the lens can be assembled more reliably. This method can be used more than once. In other words, the barrel support can be rotated at a plurality of angles for sequentially engaging the barrel with a plurality of angles. To prevent damage, the support frame may move down to match the lens again before changing another angle.
如上所述,可以在鏡筒支撐器上設置測量裝置,以測量鏡筒支撐器的移動距離。當多個透鏡和其他部件一個接一個地堆疊成一個筒體時,每個操作可對應於測量的距離。透過計算多個測量距離,可以獲得透鏡的相對距離。這樣的結果可以反饋到鏡筒支撐器的控制。換句話說,例如:通過給予附加力按壓於鏡筒或透鏡上。如果有可能的話,存在任何不希望產生的錯誤都可以被調整。 As described above, a measuring device can be provided on the lens barrel holder to measure the moving distance of the lens barrel holder. When a plurality of lenses and other components are stacked one after another into a cylinder, each operation may correspond to a measured distance. By calculating a plurality of measured distances, the relative distance of the lenses can be obtained. Such results can be fed back to the control of the lens holder. In other words, for example, by pressing an additional force on the lens barrel or lens. Any undesired errors can be adjusted if possible.
在其他情況下,透鏡收集器可以具有相對於鏡筒支撐器調節相對角度的調節裝置。例如,可以應用於調整透鏡收集器角度的幾個調節螺釘。操作員可以調整這些調節螺釘,以確保透鏡收集器能更好地對準鏡筒支撐器。 In other cases, the lens collector can have adjustment means that adjust the relative angle relative to the barrel support. For example, it can be applied to several adjustment screws that adjust the angle of the lens collector. The operator can adjust these adjustment screws to ensure that the lens collector is better aligned with the lens holder.
在一些情況下,可以首先使用准直器與鏡筒支撐器對準,然後對準的准直器進一步用於調整透鏡收集器的調節裝置,用於對準透鏡收集器和鏡筒支撐器之間的相對角度。這種准直器具有發光源以在准直器內發射可移動的光線,然更進一步地移動到相對應的光學部件。例如,一面鏡子,在被引導到感應器之前,如果准直器完全平行於與光學部件放置的鏡架,則感應器接收透射光。否則,准直器會被調節至一個角度,直到准直器與鏡筒支撐器對準。在准直器與鏡筒支撐器對準之後,會調整透鏡收集器以與准直器對準,間接地確保透鏡收集器與鏡筒支撐器對準。 In some cases, the collimator can be first aligned with the barrel support, and then the aligned collimator is further used to adjust the adjustment of the lens collector for aligning the lens collector and the barrel support The relative angle between the two. Such collimators have a source of illumination to emit movable light within the collimator and then move further to the corresponding optical component. For example, a mirror receives the transmitted light if the collimator is completely parallel to the frame placed with the optical component before being guided to the sensor. Otherwise, the collimator will be adjusted to an angle until the collimator is aligned with the barrel support. After the collimator is aligned with the barrel support, the lens collector is adjusted to align with the collimator, indirectly ensuring that the lens collector is aligned with the barrel support.
此外,為了確保透鏡的中心與鏡筒對準,並且還可以將其他透鏡插入鏡筒中,可能有一個或一個以上的推桿。每個推動桿可以由彈簧推動的兩個收集部件製成。兩個收集部件夾住一個透鏡,並且具有不同力以使它們的彈簧以不同的力推動透鏡。而這將會使透鏡 與透鏡收集器末端的邊緣對齊。當所有透鏡與對應的透鏡收集器的邊緣對準時,這些透鏡也彼此對準,因此可以在這種條件下調節鏡筒支撐器。 Furthermore, in order to ensure that the center of the lens is aligned with the barrel, and other lenses can also be inserted into the barrel, there may be one or more push rods. Each push rod can be made of two collection members that are spring driven. The two collecting members clamp one lens and have different forces to cause their springs to push the lens with different forces. This will align the lens with the edge of the end of the lens collector. When all the lenses are aligned with the edges of the corresponding lens collector, the lenses are also aligned with each other, so the lens holder can be adjusted under such conditions.
在這種設計中,可以有多個透鏡收集器分別用於收集要裝配到鏡筒中的多個透鏡。存在具有多個推動桿的對準裝置。每個推動桿對應於一個透鏡,用於推動所述透鏡對齊對應的透鏡收集器邊緣。 In this design, there may be multiple lens collectors for collecting a plurality of lenses to be assembled into the lens barrel, respectively. There are alignment devices with multiple push rods. Each push rod corresponds to a lens for urging the lens to align with a corresponding lens collector edge.
所述推動桿具有兩個不同力的彈簧,用於將相對應的透鏡推到相應的透鏡收集器的一個邊緣。 The push rod has two springs of different forces for pushing the corresponding lens to one edge of the corresponding lens collector.
此外,所述透鏡收集器可具有用於收集與透鏡不同部件的吸引力。例如,空氣驅動泵可以用於產生低空氣壓力以產生吸力以吸引和附接透鏡。 Furthermore, the lens collector can have an attractive force for collecting different components from the lens. For example, an air driven pump can be used to generate low air pressure to create suction to attract and attach the lens.
為了控制這種裝配裝置,可以存在運行相應的軟件代碼控制裝置,如控制電路或微型計算機。所述控制裝置可以向操作者提供具有不同裝配參數的多個參數組。例如,操作裝配裝置的操作者可以設置用於獲得操作者的輸入和輸出的顯示器。操作者可以在操作中選擇要插入鏡筒的一種類型光學部件,並且控制裝置為操作者提供若干選項以從中選擇。在操作員選擇相應的選項之後,相應的參數被設置,操作者不需要輸入操作裝配裝置的所有參數。這降低了運營複雜性和成本,並提高了用戶體驗和性能。 In order to control such an assembly device, there may be a corresponding software code control device, such as a control circuit or a microcomputer. The control device can provide the operator with a plurality of parameter sets having different assembly parameters. For example, an operator operating the assembly device can set up a display for obtaining operator input and output. The operator can select one type of optical component to be inserted into the lens barrel during operation, and the control device provides the operator with several options to select from. After the operator selects the corresponding option, the corresponding parameters are set and the operator does not need to enter all the parameters for operating the assembly. This reduces operational complexity and cost and improves user experience and performance.
不同的參數組具有不同的驅動力和驅動速度,用於驅動鏡筒支撐器向上或向下移動。這樣的參數可以由操作者通過控制裝置提供一個表來進一步改變。例如,操作員可以使用流行的表編輯器(如Excel或Google Tools)編輯相關參數。這樣的表格可以直接在控制 設備上編輯,也可以透過其他機器進行編輯。該表被發送到控制裝置,並且被解碼以產生相應的參數以控制透鏡收集器和鏡筒支撐器。 Different sets of parameters have different driving forces and drive speeds for driving the barrel support up or down. Such parameters can be further changed by the operator providing a table through the control device. For example, an operator can edit related parameters using a popular table editor such as Excel or Google Tools. Such forms can be edited directly on the control device or edited from other machines. The table is sent to the control device and decoded to generate corresponding parameters to control the lens collector and barrel support.
在一些鏡筒中,透鏡具有傾斜角表面,並且兩個透鏡在相應的傾斜角表面處接觸。當鏡筒支撐器被驅動以裝配相對應的透鏡時,透過測量多個距離來控制鏡筒支撐器。當將相應的透鏡裝配到鏡筒上時,能將多個距離用作不同階段的裝配參數。 In some barrels, the lens has a sloped angle surface and the two lenses are in contact at the respective angled surface. When the barrel holder is driven to fit the corresponding lens, the barrel holder is controlled by measuring a plurality of distances. When the corresponding lens is assembled to the lens barrel, multiple distances can be used as assembly parameters for different stages.
綜上所述,上述實施例提供了一種有效的裝配裝置。 In summary, the above embodiment provides an effective assembly device.
請參考圖4,說明了另一個實施例。 Referring to Figure 4, another embodiment is illustrated.
根據本發明的另一個實施例,提供了一種用於將透鏡鏡筒42裝配到諸如具有相機的行動電話之類的電子設備支撐器41上的裝配裝置。可以在鏡筒42中堆疊多個透鏡421,422。這種裝配裝置可以用作生產流水線中的機器。在該實施例中,透鏡鏡筒42或其中具有透鏡的鏡筒進一步裝配到可以具有OIS(防抖動)的支撐器41或簡單地進一步支撐圖像感應器的支撐器41。 According to another embodiment of the present invention, an assembly apparatus for assembling a lens barrel 42 to an electronic device support 41 such as a mobile phone having a camera is provided. A plurality of lenses 421, 422 may be stacked in the lens barrel 42. This assembly device can be used as a machine in a production line. In this embodiment, the lens barrel 42 or the lens barrel having the lens therein is further fitted to a holder 41 which may have OIS (anti-shake) or a holder 41 which simply supports the image sensor.
所述鏡筒中的透鏡421,422用於透過鏡筒將外部圖像引導到圖像感應器上。然而,當將具有透鏡的鏡筒裝配到支撐器時,也不需要安裝圖像感應器。該實施例可以用於將鏡筒與透鏡自動對准支撐器。 The lenses 421, 422 in the barrel are used to direct an external image through the lens barrel to the image sensor. However, when the lens barrel having the lens is assembled to the holder, it is not necessary to mount the image sensor. This embodiment can be used to automatically align the lens barrel with the lens to the holder.
所述裝配裝置具有將光學圖像發射到具有穿越路徑的透鏡鏡筒的透鏡照明圖45。穿越路徑與用在圖像感應器上收集外部圖像的鏡筒42圖像接收路徑相對。換句話說,圖表45被放置在原始圖像感應器所在的同一側。所述照明圖表45,例如在其上具有一些對準符號 的透明幻燈片上,發光的光源451透過鏡筒向外發射出圖表圖像。用於收集與光學圖像相對應的圖像數據,至少一個相機401,402,403,404被放置在用於捕獲圖表圖像的位置處。為了更有效地進行處理,可以使用幾個具有低分辨率的相機401,402,403,404,而不是高分辨率相機來收集圖表圖像的一部分。透過分析捕獲的圖像,可以檢測筒體和支架之間不希望的傾斜角度。這樣的問題可以被發回到裝配裝置的控制裝置中,以調節鏡筒和支撐器之間的相對裝配位置。這樣的操作可以執行多次,這意味著在調整相對裝配位置之後,能再次激活攝像機以捕獲圖像數據。然後,控制裝置再次調整相對裝配位置。最後,當圖像數據符合預定標準時,控制裝置將固定鏡筒和支撐器。 The assembly device has a lens illumination pattern 45 that emits an optical image to a lens barrel having a traversing path. The traversing path is opposite to the image receiving path of the lens barrel 42 that collects the external image on the image sensor. In other words, the chart 45 is placed on the same side as the original image sensor. The illumination chart 45, for example on a transparent slide having some alignment marks thereon, emits a chart image through the lens barrel. For collecting image data corresponding to the optical image, at least one camera 401, 402, 403, 404 is placed at a position for capturing the chart image. In order to process more efficiently, several cameras 401, 402, 403, 404 with low resolution can be used instead of a high resolution camera to collect a portion of the chart image. By analyzing the captured image, an undesired tilt angle between the barrel and the holder can be detected. Such problems can be sent back to the control device of the assembly device to adjust the relative assembly position between the lens barrel and the support. Such an operation can be performed multiple times, which means that after adjusting the relative assembly position, the camera can be activated again to capture image data. The control device then adjusts the relative assembly position again. Finally, when the image data meets predetermined criteria, the control device will secure the barrel and holder.
透鏡筒和支架可以用紫外線硬化的膠431,432固定。在其他情況下,鏡筒可以用相應的螺絲結構或其他機構固定。 The lens barrel and the holder can be fixed with ultraviolet-curable glue 431, 432. In other cases, the lens barrel can be fixed with a corresponding screw structure or other mechanism.
如上所述,可以在不同位置定位多個攝像機,以接收對應於光學圖像不同部分的圖像數據。照明圖可以是用光源照亮的透明圖表。 As described above, multiple cameras can be positioned at different locations to receive image data corresponding to different portions of the optical image. The illumination map can be a transparent chart illuminated with a light source.
其它相關的變化是可以被採用的,但是如使用相同的發明精神,也應被權利要求所限定的本發明所覆蓋。 Other related variations may be employed, but the same inventive spirit should be covered by the invention as defined by the claims.
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TWI682227B (en) | 2020-01-11 |
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