TWI689775B - Camera assembly - Google Patents

Abstract

The present disclosure provides a camera assembly. The camera assembly is applied to an electronic device and includes a base, a magnetic track, a camera module, and a magnetic element. The base is configured to pivot the electronic device. The magnetic track is disposed on the base. The camera module includes a camera and a wireless communication module. The wireless communication module is configured to transmit a signal received by the camera. The magnetic element is disposed on the camera module. The camera module is movably adsorbed to the magnetic track by the magnetic element.

Description

鏡頭組件 Lens components

本案係關於一種鏡頭組件。 This case is about a lens assembly.

一般而言，市面上不論是手機或是平板，其相機模組通常設置於其本體裝置內。因此，手機或平板的尺寸或厚度會因為相機模組的配置而增加，因而造成使用上的不便。因此，如何解決上述問題一直是本領域所屬技術人員所面對的問題。 Generally speaking, whether it is a mobile phone or a tablet, the camera module is usually installed in the main body device. Therefore, the size or thickness of the mobile phone or tablet will increase due to the configuration of the camera module, thus causing inconvenience in use. Therefore, how to solve the above problems has always been a problem faced by those skilled in the art.

依據本揭露之一實施方式，鏡頭組件應用於電子裝置，且包含基座、磁吸軌道、鏡頭模組以及磁吸件。基座配置以銜接電子裝置。磁吸軌道設置於基座。鏡頭模組包含鏡頭以及無線通訊模組。鏡頭模組的無線通訊模組配置以傳送鏡頭所接收到的訊號。磁吸件設置於鏡頭模組。鏡頭模組藉由磁吸件而可移動地吸附於磁吸軌道。 According to an embodiment of the present disclosure, the lens assembly is applied to an electronic device, and includes a base, a magnetic rail, a lens module, and a magnetic component. The base is configured to connect with the electronic device. The magnetic rail is set on the base. The lens module includes a lens and a wireless communication module. The wireless communication module of the lens module is configured to transmit the signal received by the lens. The magnetic component is disposed on the lens module. The lens module is movably attracted to the magnetic rail by the magnetic member.

於本揭露的一或多個實施方式中，前述之基座包含第一夾持件、第二夾持件以及連接件。基座的第一夾持件與第二夾持件分別連接於連接件相對之兩端部，沿著連接件 的同一側延伸，並相分離。 In one or more embodiments of the present disclosure, the aforementioned base includes a first clamping member, a second clamping member, and a connecting member. The first clamping piece and the second clamping piece of the base are respectively connected to opposite ends of the connecting piece, along the connecting piece The same side extends and separates.

於本揭露的一或多個實施方式中，前述之基座的第二夾持件包含遠離連接件之凸起部。第二夾持件的凸起部與第一夾持件相距的距離，係小於連接件之兩端部相距的距離。 In one or more embodiments of the present disclosure, the aforementioned second clamping member of the base includes a protrusion away from the connecting member. The distance between the protrusion of the second clamping member and the first clamping member is smaller than the distance between the two ends of the connecting member.

於本揭露的一或多個實施方式中，前述之磁吸軌道延伸於基座的第一夾持件。 In one or more embodiments of the present disclosure, the aforementioned magnetic rail extends from the first clamping member of the base.

於本揭露的一或多個實施方式中，前述之磁吸軌道位於基座的第一夾持件遠離第二夾持件的一側。 In one or more embodiments of the present disclosure, the aforementioned magnetic rail is located on the side of the first clamping member of the base away from the second clamping member.

於本揭露的一或多個實施方式中，前述之基座具有電源外接埠。基座的電源外接埠位於第一夾持件、第二夾持件以及連接件中的一者，並用以提供鏡頭模組電源。 In one or more embodiments of the present disclosure, the aforementioned base has an external power port. The power supply external port of the base is located in one of the first clamping piece, the second clamping piece and the connecting piece, and is used to provide power for the lens module.

於本揭露的一或多個實施方式中，前述之磁吸軌道延伸於基座的連接件。 In one or more embodiments of the present disclosure, the aforementioned magnetic rail extends from the connecting member of the base.

於本揭露的一或多個實施方式中，前述之基座包含第一充電埠。基座的第一充電埠沿著磁吸軌道延伸，且與磁吸軌道分離。鏡頭模組更包含第二充電埠。鏡頭模組的第二充電埠可移動地抵接於第一充電埠。 In one or more embodiments of the present disclosure, the aforementioned base includes a first charging port. The first charging port of the base extends along the magnetic attraction track and is separated from the magnetic attraction track. The lens module further includes a second charging port. The second charging port of the lens module movably abuts the first charging port.

於本揭露的一或多個實施方式中，前述之鏡頭組件更包含黏著層。黏著層設置於基座相對於磁吸軌道的一表面，用以黏接電子裝置。 In one or more embodiments of the present disclosure, the aforementioned lens assembly further includes an adhesive layer. The adhesive layer is disposed on a surface of the base opposite to the magnetically attracted track for bonding the electronic device.

於本揭露的一或多個實施方式中，前述之鏡頭模組還包含相互銜接之支承座以及轉動件。鏡頭模組的轉動件可轉動地銜接支承座，且連接鏡頭。磁吸件設置於鏡頭模組 的支承座上。 In one or more embodiments of the present disclosure, the aforementioned lens module further includes a supporting base and a rotating member that are mutually connected. The rotating part of the lens module rotatably engages the support base and connects the lens. The magnetic part is set on the lens module On the support base.

於本揭露的一或多個實施方式中，前述之鏡頭模組的支承座與轉動件相互磁性吸附。 In one or more embodiments of the present disclosure, the support base of the aforementioned lens module and the rotating member are magnetically attracted to each other.

綜上所述，本揭露的鏡頭組件可藉由夾持的方式或黏貼的方式裝設於電子裝置。再者，鏡頭組件中的鏡頭模組可依據基座以及磁吸軌道而設置於電子裝置上的任意位置，以配合使用者於使用上的需求。此外，由於電子裝置可將鏡頭模組設置於其殼體外，而非裝設於其殼體中。因此，電子裝置可於其殼體中省略配置鏡頭模組所需的空間，以減少電子裝置的體積，進而方便使用者攜帶或操作電子裝置。再者，電子裝置可同時應用多個鏡頭模組以擷取環境中的影像，及/或同時藉由多個鏡頭模組以得到環境中不同方位的影像。 In summary, the lens assembly of the present disclosure can be mounted on the electronic device by clamping or sticking. Furthermore, the lens module in the lens assembly can be arranged at any position on the electronic device according to the base and the magnetic suction track to meet the user's needs in use. In addition, since the electronic device can dispose the lens module outside its casing, rather than install it in its casing. Therefore, the electronic device can omit the space required for configuring the lens module in its housing, so as to reduce the volume of the electronic device, thereby facilitating the user to carry or operate the electronic device. Furthermore, the electronic device can simultaneously apply multiple lens modules to capture images in the environment, and/or simultaneously use multiple lens modules to obtain images in different directions in the environment.

1‧‧‧電子裝置 1‧‧‧Electronic device

2、3‧‧‧鏡頭組件 2, 3‧‧‧ lens assembly

10‧‧‧觸控顯示模組 10‧‧‧Touch display module

11‧‧‧第一無線充電模組 11‧‧‧The first wireless charging module

12‧‧‧按鍵 12‧‧‧ button

13‧‧‧邊框 13‧‧‧Border

14‧‧‧第一無線通訊模組 14‧‧‧The first wireless communication module

15‧‧‧偵測模組 15‧‧‧detection module

16‧‧‧底板 16‧‧‧Bottom plate

17‧‧‧處理器 17‧‧‧ processor

18‧‧‧記憶體 18‧‧‧Memory

19‧‧‧第一電池 19‧‧‧ First battery

20、30‧‧‧基座 20, 30‧‧‧ Base

22、32‧‧‧磁吸軌道 22、32‧‧‧Magnetic suction track

24、34‧‧‧鏡頭模組 24, 34‧‧‧ lens module

26、27、28‧‧‧磁吸件 26, 27, 28

36‧‧‧黏著層 36‧‧‧adhesive layer

102‧‧‧觸碰面 102‧‧‧ Touching the face

104‧‧‧可視區 104‧‧‧Viewable area

106‧‧‧非可視區 106‧‧‧Invisible area

109、209、309‧‧‧電源外接埠 109, 209, 309‧‧‧ External power supply port

202、302、402‧‧‧第一充電埠 202, 302, 402‧‧‧ First charging port

204‧‧‧第一夾持件 204‧‧‧First clamping piece

204a、206a、208a、300、306、400‧‧‧表面 204a, 206a, 208a, 300, 306, 400

208b、208c‧‧‧轉折面 208b, 208c‧‧‧ turning point

206‧‧‧第二夾持件 206‧‧‧Second clamping piece

207‧‧‧第二電池 207‧‧‧second battery

208‧‧‧連接件 208‧‧‧Connector

240‧‧‧外接鏡頭 240‧‧‧External lens

241‧‧‧第二無線充電模組 241‧‧‧ Second wireless charging module

242‧‧‧第二充電埠 242‧‧‧Second charging port

243‧‧‧攝相端 243‧‧‧Camera

244‧‧‧第二無線通訊模組 244‧‧‧ Second wireless communication module

245‧‧‧第二偵測模組 245‧‧‧ second detection module

246‧‧‧支承座 246‧‧‧support seat

247‧‧‧第二處理器 247‧‧‧ Second processor

248‧‧‧轉動件 248‧‧‧rotating parts

248a‧‧‧容置空間 248a‧‧‧accommodation space

249‧‧‧第二記憶體 249‧‧‧Second memory

251‧‧‧導電線路 251‧‧‧Conducting circuit

253‧‧‧第三充電埠 253‧‧‧The third charging port

255‧‧‧第四充電埠 255‧‧‧ Fourth charging port

304、2060‧‧‧凸起部 304, 2060‧‧‧ raised part

2080、2082‧‧‧端部 2080、2082‧‧‧End

2460‧‧‧曲面 2460‧‧‧Curved

2462‧‧‧凹陷空間 2462‧‧‧recessed space

2480‧‧‧凸面 2480‧‧‧Convex

D1、D2‧‧‧距離 D1, D2‧‧‧Distance

P‧‧‧曲面中心點 P‧‧‧Curve center point

為讓本揭露之上述和其他目的、特徵、優點與實施例能更明顯易懂，所附圖式之說明如下：第1A圖繪示依據本揭露一實施方式之電子裝置以及鏡頭組件的立體圖。 In order to make the above and other objects, features, advantages and embodiments of the disclosure more comprehensible, the drawings are described as follows: FIG. 1A shows a perspective view of an electronic device and a lens assembly according to an embodiment of the disclosure.

第1B圖繪示依據本揭露一實施方式之電子裝置以及鏡頭組件中基座的側視圖。 FIG. 1B is a side view of the base of the electronic device and the lens assembly according to an embodiment of the disclosure.

第2圖繪示依據本揭露一實施方式之鏡頭組件的立體圖。 FIG. 2 is a perspective view of a lens assembly according to an embodiment of the present disclosure.

第3圖繪示依據本揭露一實施方式之鏡頭組件的局部結構剖視圖。 FIG. 3 is a cross-sectional view of a partial structure of a lens assembly according to an embodiment of the present disclosure.

第4圖繪示依據本揭露一實施方式之鏡頭模組中支承座的下視圖。 FIG. 4 illustrates a bottom view of the support base in the lens module according to an embodiment of the present disclosure.

第5A圖以及第5B圖分別繪示依據本揭露一實施方式之支承座與轉動件於不同操作狀態下的立體圖。 5A and 5B respectively show perspective views of the support base and the rotating member in different operating states according to an embodiment of the present disclosure.

第6圖繪示依據本揭露一實施方式之電子裝置的示意圖。 FIG. 6 is a schematic diagram of an electronic device according to an embodiment of the present disclosure.

第7圖繪示依據本揭露一實施方式之鏡頭的示意圖。 FIG. 7 is a schematic diagram of a lens according to an embodiment of the present disclosure.

第8圖繪示依據本揭露一實施方式之基座的示意圖。 FIG. 8 is a schematic diagram of a base according to an embodiment of the present disclosure.

第9圖繪示依據本揭露另一實施方式之基座的立體圖。 FIG. 9 is a perspective view of a base according to another embodiment of the present disclosure.

第10A圖以及第10B圖分別繪示依據本揭露一些實施方式之電子裝置以及鏡頭組件於不同應用下的側視圖以及立體圖。 FIGS. 10A and 10B respectively illustrate side views and perspective views of electronic devices and lens assemblies according to some embodiments of the present disclosure under different applications.

以下的說明將提供許多不同的實施方式或實施例來實施本揭露的主題。元件或排列的具體範例將在以下討論以簡化本揭露。當然，這些描述僅為部分範例且本揭露並不以此為限。例如，將第一特徵形成在第二特徵上或上方，此一敘述不但包含第一特徵與第二特徵直接接觸的實施方式，也包含其他特徵形成在第一特徵與第二特徵之間，且在此情形下第一特徵與第二特徵不會直接接觸的實施方式。此外，本揭露可能會在不同的範例中重複標號或文字。重複的目的是為了簡化及明確敘述，而非界定所討論之不同實施方式及配置間的關係。 The following description will provide many different implementations or examples to implement the disclosed subject matter. Specific examples of components or arrangements will be discussed below to simplify this disclosure. Of course, these descriptions are only some examples and this disclosure is not limited thereto. For example, the first feature is formed on or above the second feature. This statement includes not only the embodiment where the first feature is directly in contact with the second feature, but also other features formed between the first feature and the second feature, and An embodiment in which the first feature and the second feature do not directly contact in this situation. In addition, this disclosure may repeat the label or text in different examples. The purpose of repetition is to simplify and clarify the description, not to define the relationship between the different embodiments and configurations discussed.

此外，空間相對用語如「下面」、「下方」、「低於」、「上面」、「上方」及其他類似的用語，在此是為了方 便描述圖中的一個元件或特徵與另一個元件或特徵的關係。空間相對用語除了涵蓋圖中所描繪的方位外，該用語更涵蓋裝置在使用或操作時的其他方位。也就是說，當該裝置的方位與圖式不同(旋轉90度或在其他方位)時，在本文中所使用的空間相對用語同樣可相應地進行解釋。 In addition, spatial relative terms such as "below", "below", "below", "above", "above" and other similar terms are used here for the purpose of It will describe the relationship between one element or feature and another element or feature in the figure. In addition to the orientation described in the figure, the spatial relative term also covers other orientations of the device when it is used or operated. That is to say, when the orientation of the device is different from the drawing (rotated 90 degrees or at other orientations), the spatial relative terms used in this article can also be interpreted accordingly.

請參照第1A圖以及第1B圖。第1A圖繪示依據本揭露一實施方式之電子裝置1以及鏡頭組件2的立體圖。第1B圖繪示依據本揭露一實施方式之電子裝置1以及鏡頭組件2中基座20的側視圖。其中，第1B圖未繪示鏡頭組件2的鏡頭模組24。如第1A圖以及第1B圖所示，鏡頭組件2係應用於電子裝置1。於本實施方式中，電子裝置1為行動裝置，且包含觸控顯示模組10、按鍵12以及邊框13，但本揭露不以此為限。舉例而言，電子裝置1的觸控顯示模組10具有觸碰面102，包含多個透明導電圖案於其中，且包含可視區104以及非可視區106。觸控顯示模組10的觸碰面102為觸控操作面。於本實施方式中，觸控顯示模組10的非可視區106圍繞可視區104。按鍵12係設置於非可視區106。可視區104用以顯示資訊給使用者觀看並供使用者以觸控的方式操作觸控裝置。相對地，非可視區106用以遮蔽導線結構與其他不透光元件。 Please refer to Figure 1A and Figure 1B. FIG. 1A is a perspective view of an electronic device 1 and a lens assembly 2 according to an embodiment of the present disclosure. FIG. 1B shows a side view of the base 20 in the electronic device 1 and the lens assembly 2 according to an embodiment of the present disclosure. Among them, FIG. 1B does not show the lens module 24 of the lens assembly 2. As shown in FIGS. 1A and 1B, the lens assembly 2 is applied to the electronic device 1. In this embodiment, the electronic device 1 is a mobile device, and includes a touch display module 10, a button 12, and a bezel 13, but this disclosure is not limited to this. For example, the touch display module 10 of the electronic device 1 has a touch surface 102, includes a plurality of transparent conductive patterns therein, and includes a visible area 104 and a non-visible area 106. The touch surface 102 of the touch display module 10 is a touch operation surface. In this embodiment, the non-visible area 106 of the touch display module 10 surrounds the visible area 104. The button 12 is disposed in the non-visible area 106. The visible area 104 is used to display information for the user to view and for the user to operate the touch device in a touch manner. In contrast, the non-visible area 106 is used to shield the wire structure and other opaque components.

於第1A圖以及第1B圖中，鏡頭組件2包含基座20、磁吸軌道22(見第1A圖)、鏡頭模組24(見第1A圖)以及磁吸件26(見第3圖)。鏡頭組件22的基座20配置以銜接電子裝置1。舉例而言，鏡頭組件2藉由基座20而夾持於電子裝 置1。以下將詳細說明鏡頭組件2所包含之各元件的結構、功能以及各元件之間的連接關係。 In FIGS. 1A and 1B, the lens assembly 2 includes a base 20, a magnetic rail 22 (see FIG. 1A), a lens module 24 (see FIG. 1A), and a magnetic member 26 (see FIG. 3) . The base 20 of the lens assembly 22 is configured to connect with the electronic device 1. For example, the lens assembly 2 is clamped to the electronic device by the base 20 Set 1. The structure, function, and connection relationship of each element included in the lens assembly 2 will be described in detail below.

請參照第2圖。第2圖繪示依據本揭露一實施方式之鏡頭組件2的立體圖。如第2圖所示，於本實施方式中，基座20包含第一夾持件204、第二夾持件206、連接件208、第一充電埠202以及電源外接埠209。於本實施方式中，基座20的第一夾持件204與第二夾持件206分別連接於連接件208相對之兩端部2080、2082，沿著連接件208的同一側延伸，且相互分離。其中，第一夾持件204、連接件208以及第二夾持件206為一體成形的結構，但本揭露不以此為限。於一些實施方式中，基座20也可稱為連續彎折結構。 Please refer to figure 2. FIG. 2 is a perspective view of the lens assembly 2 according to an embodiment of the present disclosure. As shown in FIG. 2, in this embodiment, the base 20 includes a first clamping member 204, a second clamping member 206, a connecting member 208, a first charging port 202 and an external power supply port 209. In this embodiment, the first clamping member 204 and the second clamping member 206 of the base 20 are respectively connected to the opposite ends 2080 and 2082 of the connecting member 208, extending along the same side of the connecting member 208, and mutually Separate. The first clamping member 204, the connecting member 208, and the second clamping member 206 are integrally formed structures, but the disclosure is not limited thereto. In some embodiments, the base 20 may also be referred to as a continuous bending structure.

於第2圖中，基座20的第一夾持件204具有遠離第二夾持件206的表面204a。基座20的第二夾持件206具有遠離第一夾持件204的表面206a。基座20的連接件208具有遠離第一、第二夾持件204、206的表面208a，並具有與第一夾持件204之表面204a相連接之轉折面208b，且具有與第二夾持件206之表面206a相連接之轉折面208c。具體而言，基座20的表面204a、206a、208a實質上呈平坦表面，且實質上依序相互垂直。連接件208的表面208b、208c實質上分別呈平坦表面，且朝第一、第二夾持件204、206傾斜。 In FIG. 2, the first clamping member 204 of the base 20 has a surface 204 a away from the second clamping member 206. The second clamping member 206 of the base 20 has a surface 206 a away from the first clamping member 204. The connecting member 208 of the base 20 has a surface 208a away from the first and second clamping members 204, 206, and has a turning surface 208b connected to the surface 204a of the first clamping member 204, and has a second clamping member The surface 206a of the member 206 is connected to the turning surface 208c. Specifically, the surfaces 204a, 206a, and 208a of the base 20 are substantially flat surfaces, and are substantially perpendicular to each other in sequence. The surfaces 208b, 208c of the connecting member 208 are substantially flat surfaces, respectively, and are inclined toward the first and second clamping members 204, 206.

於本實施方式中，基座20的第二夾持件206包含凸起部2060，且呈錐狀。第二夾持件206之凸起部2060位於第二夾持件206靠近第一夾持件204的一側。第二夾持件 206之凸起部2060與第一夾持件204之間相距的距離D1(見第1B圖)，係小於連接件208之端部2080與端部2082之間相距的距離D2(見第1B圖)。藉此，當電子裝置1的厚度大於距離D1時，電子裝置1會推抵第一夾持件204與第二夾持件206。相對地，電子裝置1會受到第一夾持件204與第二夾持件206欲復位而產生的夾合力。因此，電子裝置1會被夾持於第一夾持件204與第二夾持件206之凸起部2060之間，以將鏡頭模組24裝設於電子裝置1上，進而鏡頭組件2可快速安裝至電子裝置1。 In this embodiment, the second clamping member 206 of the base 20 includes a convex portion 2060 and is tapered. The protrusion 2060 of the second clamping member 206 is located on the side of the second clamping member 206 near the first clamping member 204. Second clamping part The distance D1 (see FIG. 1B) between the protrusion 2060 of the 206 and the first clamping member 204 is smaller than the distance D2 (see FIG. 1B) between the end 2080 and the end 2082 of the connecting member 208 ). Thereby, when the thickness of the electronic device 1 is greater than the distance D1, the electronic device 1 will push against the first clamping member 204 and the second clamping member 206. In contrast, the electronic device 1 is subjected to the clamping force generated by the first clamping member 204 and the second clamping member 206 to be reset. Therefore, the electronic device 1 is clamped between the protrusions 2060 of the first clamping member 204 and the second clamping member 206, so that the lens module 24 is mounted on the electronic device 1, so that the lens assembly 2 can be Quick installation to electronic device 1.

於第2圖中，磁吸軌道22設置於基座20，且實質上呈長條狀。磁吸軌道22依序延伸於第一夾持件204的表面204a、連接件208的表面208b、208a、208c以及第二夾持件206的表面206a，且與表面204a、208b、208a、208c、206a的輪廓共形。於本實施方式中，磁吸軌道22部分圍繞電源外接埠209，且至少位於電源外接埠209相對的兩側。於本實施方式中，磁吸軌道22的材質包含磁性材料。舉例而言，磁吸軌道22的材質可為鋁鎳鈷合金，但本揭露不以此為限。於一些實施方式中，任何與可使磁吸軌道22產生磁性的材料皆可應用於本揭露。 In FIG. 2, the magnetic rail 22 is provided on the base 20 and is substantially elongated. The magnetic rail 22 sequentially extends on the surface 204a of the first clamping member 204, the surfaces 208b, 208a, 208c of the connecting member 208, and the surface 206a of the second clamping member 206, and is in contact with the surfaces 204a, 208b, 208a, 208c, The outline of 206a is conformal. In this embodiment, the magnetic rail 22 partially surrounds the power supply external port 209 and is located at least on opposite sides of the power supply external port 209. In this embodiment, the material of the magnetic rail 22 includes a magnetic material. For example, the material of the magnetic attraction rail 22 may be an aluminum nickel cobalt alloy, but this disclosure is not limited to this. In some embodiments, any material that can make the magnetic attraction rail 22 magnetic can be used in the present disclosure.

於第2圖中，基座20的第一充電埠202實質上呈長條狀，位於磁吸軌道22相對的兩側。進一步而言，第一充電埠202沿著磁吸軌道22延伸，且與磁吸軌道22相分離。於本實施方式中，第一充電埠202依序延伸於第一夾持件204的表面204a、連接件208的表面208b、208a、208c以 及第二夾持件206的表面206a，且與表面204a、208b、208a、208c、206a的輪廓共形。於本實施方式中，第一充電埠202部分圍繞電源外接埠209，且至少位於電源外接埠209相對的兩側。 In FIG. 2, the first charging port 202 of the base 20 is substantially elongated and located on opposite sides of the magnetic rail 22. Further, the first charging port 202 extends along the magnetic attraction rail 22 and is separated from the magnetic attraction rail 22. In this embodiment, the first charging port 202 sequentially extends on the surface 204a of the first clamping member 204 and the surfaces 208b, 208a, 208c of the connecting member 208 to And the surface 206a of the second clamping member 206, and conforms to the contours of the surfaces 204a, 208b, 208a, 208c, 206a. In this embodiment, the first charging port 202 partially surrounds the power supply external port 209 and is located at least on opposite sides of the power supply external port 209.

請參照第3圖以及第4圖。第3圖繪示依據本揭露一實施方式之鏡頭組件2的局部結構剖視圖。第4圖繪示依據本揭露一實施方式之鏡頭模組24的下視圖。如第3圖所示，於本實施方式中，鏡頭組件2之鏡頭模組24包含外接鏡頭240、支承座246、轉動件248、磁吸件27、28、第二充電埠242、導電線路251、第三充電埠253以及第四充電埠255。 Please refer to Figure 3 and Figure 4. FIG. 3 shows a partial cross-sectional view of the lens assembly 2 according to an embodiment of the present disclosure. FIG. 4 shows a bottom view of the lens module 24 according to an embodiment of the present disclosure. As shown in FIG. 3, in this embodiment, the lens module 24 of the lens assembly 2 includes an external lens 240, a support 246, a rotating member 248, magnetic members 27, 28, a second charging port 242, and a conductive circuit 251 , The third charging port 253 and the fourth charging port 255.

於本實施方式中，鏡頭模組24的轉動件248可轉動地銜接支承座246。鏡頭模組24中的外接鏡頭240連接於轉動件248相對支承座246的一端。 In this embodiment, the rotating member 248 of the lens module 24 rotatably engages the support base 246. The external lens 240 in the lens module 24 is connected to an end of the rotating member 248 opposite to the support base 246.

於本實施方式中，磁吸件26設置於鏡頭模組24的支承座246相對轉動件248的一端。鏡頭模組24藉由磁吸件26而可移動地吸附於磁吸軌道22。藉此，鏡頭模組24可設置於基座20上的任意位置，以配合使用者於使用上的需求。舉例而言，鏡頭模組24可設置於電子裝置1的觸控顯示模組10或邊框13上，但本揭露不以此為限。再者，由於電子裝置1可將鏡頭模組設置於其殼體外，而非裝設於其殼體中，因此電子裝置1可於其殼體中省略配置鏡頭模組所需的空間，以減少電子裝置1的體積，進而方便使用者攜帶或操作電子裝置1。此外，使用者也可以依據使用上的需求而於基座20上上更換不同形式的鏡頭模組。 In this embodiment, the magnetic member 26 is disposed at one end of the support base 246 of the lens module 24 opposite to the rotating member 248. The lens module 24 is movably attracted to the magnetic rail 22 by the magnetic member 26. In this way, the lens module 24 can be disposed at any position on the base 20 to meet the user's needs in use. For example, the lens module 24 may be disposed on the touch display module 10 or the frame 13 of the electronic device 1, but the disclosure is not limited to this. Furthermore, since the electronic device 1 can dispose the lens module outside its casing instead of being installed in its casing, the electronic device 1 can omit the space required for disposing the lens module in its casing to reduce The volume of the electronic device 1 further facilitates the user to carry or operate the electronic device 1. In addition, the user can also replace different types of lens modules on the base 20 according to usage requirements.

於一些實施方式中，多個鏡頭模組可移動地吸附於磁吸軌道22。舉例而言，如第3圖所示，鏡頭模組24、鏡頭模組34以及鏡頭模組44亦可同時移動地吸附於磁吸軌道22。其中，鏡頭模組34及/或鏡頭模組44的結構、功能以及各元件之間的連接關係皆與鏡頭模組24大致相同，因此可參照前述相關說明，在此不再贅述。藉此，電子裝置1可同時應用多個鏡頭模組以擷取環境中的影像，及/或同時藉由多個鏡頭模組以得到環境中不同方位的影像。 In some embodiments, multiple lens modules are movably attracted to the magnetic rail 22. For example, as shown in FIG. 3, the lens module 24, the lens module 34, and the lens module 44 may also be movably attracted to the magnetic rail 22 at the same time. The lens module 34 and/or lens module 44 are substantially the same in structure, function, and connection relationship with each other as the lens module 24. Therefore, reference may be made to the foregoing related descriptions, which will not be repeated here. Thereby, the electronic device 1 can simultaneously apply multiple lens modules to capture images in the environment, and/or simultaneously obtain images with different orientations in the environment through the multiple lens modules.

於本實施方式中，鏡頭模組24的第二充電埠242設置於鏡頭模組24的支承座246相對轉動件248的一端。進一步而言，第二充電埠242位於磁吸件26相對的兩側，且與磁吸件26相分離。當磁吸件26可移動地吸附於磁吸軌道22(見第2圖)時，鏡頭模組24的第二充電埠242隨之可移動地抵接於基座20的第一充電埠202(見第2圖)。具體而言，第二充電埠242與磁吸件26之間相距的距離，係實質上相同於第一充電埠202與磁吸軌道22之間相距的距離。 In this embodiment, the second charging port 242 of the lens module 24 is disposed at one end of the support base 246 of the lens module 24 relative to the rotating member 248. Further, the second charging port 242 is located on opposite sides of the magnetic attraction member 26 and is separated from the magnetic attraction member 26. When the magnet 26 is movably attracted to the magnet rail 22 (see FIG. 2 ), the second charging port 242 of the lens module 24 then movably abuts the first charging port 202 of the base 20 ( (See Figure 2). Specifically, the distance between the second charging port 242 and the magnet 26 is substantially the same as the distance between the first charging port 202 and the magnet rail 22.

如第3圖所示，磁吸件27設置於鏡頭模組24的轉動件248相對支承座246的一端。磁吸件28設置於外接鏡頭240相對其攝相端243的一端，並配置以與設置於轉動件248的磁吸件27相互吸附。 As shown in FIG. 3, the magnetic attraction member 27 is provided at the end of the rotation member 248 of the lens module 24 opposite to the support base 246. The magnetic attracting member 28 is disposed at an end of the external lens 240 opposite to its photographing end 243, and is configured to attract the magnetic attracting member 27 disposed at the rotating member 248.

於本實施方式中，磁吸件26、27、28的材質包含磁性材料。舉例而言，磁吸件26的材質可為鋁鎳鈷合金，但本揭露不以此為限。於一些實施方式中，任何與可使磁吸件26、27、28產生磁性的材料皆可應用於本揭露。 In the present embodiment, the material of the magnetic attracting members 26, 27, and 28 includes magnetic materials. For example, the material of the magnetic attraction member 26 may be an aluminum-nickel-cobalt alloy, but this disclosure is not limited thereto. In some embodiments, any material that can make the magnets 26, 27, and 28 magnetic can be used in the present disclosure.

如第3圖所示，於本實施方式中，鏡頭模組24的第三充電埠253設置於鏡頭模組24的轉動件248相對支承座246的一端。進一步而言，第三充電埠253位於磁吸件27相對的兩側，且與磁吸件27相分離。 As shown in FIG. 3, in this embodiment, the third charging port 253 of the lens module 24 is provided at the end of the rotating member 248 of the lens module 24 opposite the support base 246. Further, the third charging port 253 is located on opposite sides of the magnetic attraction member 27 and is separated from the magnetic attraction member 27.

於本實施方式中，鏡頭模組24的第四充電埠255設置於外接鏡頭240相對其攝相端243的一端。進一步而言，第四充電埠255位於磁吸件28相對的兩側，且與磁吸件28相分離。當磁吸件28吸附於磁吸件27時，鏡頭模組24的第四充電埠255隨之抵接於設置於轉動件248上的第一充電埠202。具體而言，第四充電埠255與磁吸件28之間相距的距離，係實質上相同於第三充電埠253與磁吸件27之間相距的距離。再者，轉動件248具有容置空間248a。於第3圖中，容置空間248a為球型空間，但本案不以此為限。於轉動件248相對於支承座246轉動期間，容置空間248a可提供導電線路251緩衝空間，使得導電線路251不會因為空間的限制而干涉轉動件248相對支承座246轉動。鏡頭模組24的導電線路251穿過支承座246以及轉動件248，通過轉動件248的容置空間248a，並電性連接於第二充電埠242與第三充電埠253之間。 In this embodiment, the fourth charging port 255 of the lens module 24 is disposed at the end of the external lens 240 opposite to its camera end 243. Further, the fourth charging port 255 is located on opposite sides of the magnetic attraction member 28 and is separated from the magnetic attraction member 28. When the magnetic element 28 is attracted to the magnetic element 27, the fourth charging port 255 of the lens module 24 then abuts the first charging port 202 provided on the rotating element 248. Specifically, the distance between the fourth charging port 255 and the magnetic member 28 is substantially the same as the distance between the third charging port 253 and the magnetic member 27. Furthermore, the rotating member 248 has an accommodating space 248a. In FIG. 3, the accommodating space 248a is a spherical space, but this case is not limited to this. During the rotation of the rotating member 248 relative to the support base 246, the accommodating space 248a can provide a buffer space for the conductive circuit 251, so that the conductive circuit 251 does not interfere with the rotation of the rotating member 248 relative to the support base 246 due to space constraints. The conductive circuit 251 of the lens module 24 passes through the support base 246 and the rotating member 248, and is electrically connected between the second charging port 242 and the third charging port 253 through the accommodating space 248a of the rotating member 248.

於本實施方式中，如第2圖所示，基座20的電源外接埠209設置於第二夾持件206的凸起部2060，但本揭露不以此為限。於一些實施方式中，電源外接埠209也可設置於第一夾持件204或連接件208。電源外接埠209外接電源。設置於基座20中的電池(如第8圖所示之第二電池207) 透過電源外接埠209以擷取電能，並依序透過如第3圖所示之第一充電埠202、第二充電埠242、導電線路251、第三充電埠253以及第四充電埠255而將電能傳遞至外接鏡頭240，以維持外接鏡頭240的運作。 In this embodiment, as shown in FIG. 2, the power supply external port 209 of the base 20 is disposed on the convex portion 2060 of the second clamping member 206, but this disclosure is not limited to this. In some embodiments, the external power supply port 209 can also be disposed on the first clamping member 204 or the connecting member 208. The external power supply port 209 is connected to an external power supply. The battery provided in the base 20 (the second battery 207 shown in FIG. 8) The external power port 209 is used to extract electrical energy, and then the first charging port 202, the second charging port 242, the conductive line 251, the third charging port 253, and the fourth charging port 255 as shown in FIG. The electric energy is transferred to the external lens 240 to maintain the operation of the external lens 240.

請參照第5A圖以及第5B圖。第5A圖以及第5B圖分別繪示依據本揭露一實施方式之支承座246與轉動件248於不同操作狀態下的立體圖。其中，為了能更理解本揭露，支承座246的曲面2460以及轉動件248的部分凸面2480以虛線表示。於本實施方式中，鏡頭模組24的支承座246與轉動件248相互磁性吸附。藉此，轉動件248可快速安裝至支承座246。於本實施方式中，支承座246與轉動件248的材質分別包含磁性材料。舉例而言，支承座246或轉動件248的材質可為鋁鎳鈷合金，但本揭露不以此為限。於一些實施方式中，任何與可使支承座246與轉動件248產生磁性的材料皆可應用於本揭露。 Please refer to Figure 5A and Figure 5B. 5A and 5B respectively show perspective views of the support base 246 and the rotating member 248 in different operating states according to an embodiment of the present disclosure. In order to better understand the present disclosure, the curved surface 2460 of the support base 246 and the partial convex surface 2480 of the rotating member 248 are indicated by dotted lines. In this embodiment, the support base 246 of the lens module 24 and the rotating member 248 are magnetically attracted to each other. Thereby, the rotating member 248 can be quickly installed to the support base 246. In this embodiment, the materials of the support base 246 and the rotating member 248 include magnetic materials, respectively. For example, the material of the support base 246 or the rotating member 248 may be aluminum-nickel-cobalt alloy, but the disclosure is not limited thereto. In some embodiments, any material that can make the support base 246 and the rotating member 248 magnetic can be used in the present disclosure.

如第5A圖所示，支承座246具有曲面2460。支承座246的曲面2460遠離轉動件248凹陷以形成凹陷空間2462，且具有一曲率中心點P。曲面2460的曲率中心點P位於凹陷空間2462外。如第5A圖所示，轉動件248具有轉動中心A。轉動中心A位於支承座246的凹陷空間2462外。轉動件248具有凸面2480。轉動件248的凸面2480朝支承座246的曲面2460凸起，且為一球面的一部分。轉動件248的凸面2480的一部分與支承座246的曲面2460的輪廓實質上互補。轉動件248的轉動中心A實質上與支承座246之曲面 2460的曲面中心點P重合。藉此，轉動件248可相對於支承座246轉動，使得外接鏡頭240可相對電子裝置1(見第1圖)轉動以獲得不同方位的影像。 As shown in FIG. 5A, the support base 246 has a curved surface 2460. The curved surface 2460 of the support base 246 is recessed away from the rotating member 248 to form a recessed space 2462, and has a center point P of curvature. The center point P of curvature of the curved surface 2460 is located outside the concave space 2462. As shown in FIG. 5A, the rotating member 248 has a rotation center A. The rotation center A is located outside the concave space 2462 of the support base 246. The rotating member 248 has a convex surface 2480. The convex surface 2480 of the rotating member 248 protrudes toward the curved surface 2460 of the support base 246, and is a part of a spherical surface. A part of the convex surface 2480 of the rotating member 248 is substantially complementary to the contour of the curved surface 2460 of the support base 246. The rotation center A of the rotating member 248 is substantially the curved surface of the support base 246 The center point P of the curved surface of 2460 coincides. Thereby, the rotating member 248 can rotate relative to the support base 246, so that the external lens 240 can rotate relative to the electronic device 1 (see FIG. 1) to obtain images in different orientations.

請參照第6圖、第7圖以及第8圖。第6圖繪示依據本揭露一實施方式之鏡頭模組24中的外接鏡頭240的示意圖。第7圖繪示依據本揭露一實施方式之電子裝置1的示意圖。第8圖繪示依據本揭露一實施方式之基座20的示意圖。如第6圖所示，電子裝置1還包含設置於其中的第一無線通訊模組14、第一無線充電模組11、第一偵測模組15、第一處理器17、第一記憶體18以及第一電池19。如第7圖所示，鏡頭模組24中的外接鏡頭240還包含設置於其中的第二無線通訊模組244、第二無線充電模組241、第二偵測模組245、第二處理器247以及第二記憶體249。如第8圖所示，基座20還包含設置於其中的第二電池207。 Please refer to Figure 6, Figure 7 and Figure 8. FIG. 6 is a schematic diagram of an external lens 240 in the lens module 24 according to an embodiment of the present disclosure. FIG. 7 is a schematic diagram of an electronic device 1 according to an embodiment of the present disclosure. FIG. 8 is a schematic diagram of the base 20 according to an embodiment of the present disclosure. As shown in FIG. 6, the electronic device 1 further includes a first wireless communication module 14, a first wireless charging module 11, a first detection module 15, a first processor 17, and a first memory 18 and the first battery 19. As shown in FIG. 7, the external lens 240 in the lens module 24 further includes a second wireless communication module 244, a second wireless charging module 241, a second detection module 245, and a second processor disposed therein 247 and the second memory 249. As shown in FIG. 8, the base 20 further includes a second battery 207 provided therein.

於第6圖中，外接鏡頭240的第二無線通訊模組244將外接鏡頭240所接收到的訊號傳送至電子裝置1(見第6圖)的第一無線通訊模組14。如第6圖所示，電子裝置1的第一無線通訊模組14將所接收到的訊號進一步傳送至第一處理器17以進行處理，並將處理之訊號儲存至第一記憶體18。再者，電子裝置1的第一偵測模組15係用以偵測外接鏡頭240的位置是否位於第一無線通訊模組14的訊號接收範圍內。於一些實施方式中，第一偵測模組15可包含近距離無線通訊(near-field communication,NFC)、無線射頻辨識(radio frequency identification,RFID)、藍牙 (bluetooth,BT)或霍爾傳感器，但本揭露不以此為限。 In FIG. 6, the second wireless communication module 244 of the external lens 240 transmits the signal received by the external lens 240 to the first wireless communication module 14 of the electronic device 1 (see FIG. 6 ). As shown in FIG. 6, the first wireless communication module 14 of the electronic device 1 further transmits the received signal to the first processor 17 for processing, and stores the processed signal to the first memory 18. Furthermore, the first detection module 15 of the electronic device 1 is used to detect whether the position of the external lens 240 is within the signal receiving range of the first wireless communication module 14. In some embodiments, the first detection module 15 may include near-field communication (NFC), radio frequency identification (RFID), Bluetooth (Bluetooth, BT) or Hall sensor, but this disclosure is not limited to this.

此外，電子裝置1的第一電池19接收來自第一無線充電模組11的電源，並將電力提供至第一處理器17，以維持電子裝置1的運作。於本實施方式中，電子裝置1還包含電源外接埠109。電源外接埠109外接電源，因而也可作為第一電池19的電力來源。 In addition, the first battery 19 of the electronic device 1 receives the power from the first wireless charging module 11 and provides power to the first processor 17 to maintain the operation of the electronic device 1. In this embodiment, the electronic device 1 further includes a power supply external port 109. The power supply external port 109 is connected to a power supply, and thus can also be used as a power source for the first battery 19.

於一些實施方式中，第一無線通訊模組14可同時接收多個外接鏡頭所接收到的訊號。舉例而言，第一無線通訊模組14可同時接收如第2圖所示之鏡頭模組24、鏡頭模組34、鏡頭模組44所接收到的訊號，並將多個訊號進一步傳送至第一處理器17以進行處理。 In some embodiments, the first wireless communication module 14 can simultaneously receive signals received by multiple external lenses. For example, the first wireless communication module 14 can simultaneously receive the signals received by the lens module 24, the lens module 34, and the lens module 44 as shown in FIG. 2, and further transmit multiple signals to the first A processor 17 for processing.

進一步而言，於第7圖中，外接鏡頭240將所接收到的影像傳送至第二處理器247以進行處理，並將處理之影像儲存至第二記憶體249，並透過第二無線通訊模組244將處理之影像以訊號的方式傳送至電子裝置1。再者，外接鏡頭240的第二偵測模組245係用以偵測外接鏡頭240的位置是否位於第一無線通訊模組14(見第6圖)的訊號接收範圍內。於一些實施方式中，第二偵測模組245可包含近距離無線通訊、無線射頻辨識、藍牙或霍爾傳感器，但本揭露不以此為限。 Further, in FIG. 7, the external lens 240 transmits the received image to the second processor 247 for processing, and stores the processed image to the second memory 249, and through the second wireless communication mode The group 244 transmits the processed image to the electronic device 1 in the form of signals. Furthermore, the second detection module 245 of the external lens 240 is used to detect whether the position of the external lens 240 is within the signal receiving range of the first wireless communication module 14 (see FIG. 6 ). In some embodiments, the second detection module 245 may include short-range wireless communication, wireless radio frequency identification, Bluetooth, or Hall sensors, but the disclosure is not limited thereto.

於第8圖中，此外，基座20的第二電池207係用以將電力提供至外接鏡頭240，並接收來自外接鏡頭240中第二無線充電模組241的電源，以維持外接鏡頭240的運作。 In FIG. 8, in addition, the second battery 207 of the base 20 is used to provide power to the external lens 240 and receive power from the second wireless charging module 241 in the external lens 240 to maintain the external lens 240 Operation.

請參照第9圖以及第10A圖。第9圖繪示依據本揭 露另一實施方式之基座30的立體圖。第10A圖繪示依據本揭露一實施方式之電子裝置1以及鏡頭組件3的側視圖，其中第10A圖省略繪示如第2圖所示之鏡頭模組。本實施方式之鏡頭組件3包含基座30、磁吸軌道32(見第9圖)、黏著層36(見第10A圖)以及如第3圖所示之鏡頭模組24與磁吸件26。鏡頭組件3的基座30配置以銜接電子裝置1。這些元件的結構、功能以及各元件之間的連接關係皆與第1A圖至第5B圖所示之電子裝置1以及鏡頭組件2大致相同，因此可參照前述相關說明，在此不再贅述。 Please refer to Figure 9 and Figure 10A. Figure 9 shows according to the present disclosure A perspective view of the base 30 according to another embodiment is disclosed. FIG. 10A shows a side view of the electronic device 1 and the lens assembly 3 according to an embodiment of the present disclosure, wherein FIG. 10A omits the lens module shown in FIG. 2. The lens assembly 3 of this embodiment includes a base 30, a magnetic attraction rail 32 (see FIG. 9), an adhesive layer 36 (see FIG. 10A), and a lens module 24 and a magnetic attraction member 26 as shown in FIG. The base 30 of the lens assembly 3 is configured to connect with the electronic device 1. The structure, function, and connection relationship between these components are substantially the same as the electronic device 1 and the lens assembly 2 shown in FIGS. 1A to 5B. Therefore, reference may be made to the foregoing related descriptions, and details are not described herein.

在此要說明的是，本實施方式與第1A圖至第5B圖所示之實施方式的差異之處，在於本實施方式中，鏡頭組件3更包含黏著層36(見第10A圖)。再者，鏡頭組件3的基座30以及磁吸軌道32不同於鏡頭組件2的基座20以及磁吸軌道22。因此，本實施方式以鏡頭組件3取代如第1A圖至第5B圖所示之鏡頭組件2。 It is to be explained here that the difference between this embodiment and the embodiment shown in FIGS. 1A to 5B is that in this embodiment, the lens assembly 3 further includes an adhesive layer 36 (see FIG. 10A ). Furthermore, the base 30 and the magnetic rail 32 of the lens assembly 3 are different from the base 20 and the magnetic rail 22 of the lens assembly 2. Therefore, in this embodiment, the lens assembly 3 is used instead of the lens assembly 2 shown in FIGS. 1A to 5B.

詳細而言，基座30實質上呈長條狀，且具有表面300。基座30的表面300實質上呈平坦表面。磁吸軌道32實質上呈長條狀，延伸於基座30的表面300，且與表面300的輪廓共形。基座30的第一充電埠302實質上呈長條狀，位於基座30的表面300，且與表面300的輪廓共形。進一步而言，第一充電埠302位於磁吸軌道32相對的兩側，沿著磁吸軌道32延伸，且與磁吸軌道32相分離。如第3圖所示之鏡頭模組24藉由磁吸件26而可移動地吸附於磁吸軌道32。 In detail, the base 30 is substantially elongated and has a surface 300. The surface 300 of the base 30 is substantially flat. The magnetic rail 32 is substantially elongated, extends on the surface 300 of the base 30, and conforms to the contour of the surface 300. The first charging port 302 of the base 30 is substantially elongated, located on the surface 300 of the base 30, and conforms to the contour of the surface 300. Further, the first charging port 302 is located on opposite sides of the magnetic attraction rail 32, extends along the magnetic attraction rail 32, and is separated from the magnetic attraction rail 32. The lens module 24 shown in FIG. 3 is movably attracted to the magnetic rail 32 by the magnetic member 26.

於第10A圖中，黏著層36設置於基座30相對於 磁吸軌道32的表面306，用以將基座30黏至接電子裝置1中相對於觸控顯示模組10(見第1圖)的底板16，但本揭露不以此為限。於本實施方式中，基座30還包含凸起部304以及電源外接埠309。電源外接埠309用以提供如第3圖所示之鏡頭模組24電源。 In FIG. 10A, the adhesive layer 36 is disposed on the base 30 relative to The surface 306 of the magnetic attraction rail 32 is used to adhere the base 30 to the bottom plate 16 of the electronic device 1 relative to the touch display module 10 (see FIG. 1 ), but the disclosure is not limited thereto. In this embodiment, the base 30 further includes a protrusion 304 and a power supply external port 309. The external power supply port 309 is used to provide power to the lens module 24 as shown in FIG. 3.

請參照第10B圖。第10B圖繪示依據本揭露一實施方式之電子裝置1以及鏡頭組件3的立體圖，其中第10B圖省略繪示如第10圖所示之電源外接埠309。於本實施方式中，鏡頭組件3的基座30延伸並固定於電子裝置1的邊框13。於一些實施方式中，基座30係以黏著的方式固定於邊框13，但本案不以此為限。 Please refer to Figure 10B. FIG. 10B shows a perspective view of the electronic device 1 and the lens assembly 3 according to an embodiment of the present disclosure, wherein FIG. 10B omits the power supply external port 309 shown in FIG. 10. In this embodiment, the base 30 of the lens assembly 3 extends and is fixed to the frame 13 of the electronic device 1. In some embodiments, the base 30 is fixed to the frame 13 in an adhesive manner, but this case is not limited to this.

由以上對於本揭露之具體實施方式之詳述，可以明顯地看出，本案的鏡頭組件可藉由夾持的方式或黏貼的方式裝設於電子裝置。再者，鏡頭組件中的鏡頭模組可依據基座以及磁吸軌道而設置於電子裝置上的任意位置，以配合使用者於使用上的需求。此外，由於電子裝置可將鏡頭模組設置於其殼體外，而非裝設於其殼體中。因此，電子裝置可於其殼體中省略配置鏡頭模組所需的空間，以減少電子裝置的體積，進而方便使用者攜帶或操作電子裝置。再者，電子裝置可同時應用多個鏡頭模組以擷取環境中的影像，及/或同時藉由多個鏡頭模組以得到環境中不同方位的影像。 From the above detailed description of the specific embodiments of the present disclosure, it can be clearly seen that the lens assembly of the present case can be installed on the electronic device by clamping or pasting. Furthermore, the lens module in the lens assembly can be arranged at any position on the electronic device according to the base and the magnetic suction track to meet the user's needs in use. In addition, since the electronic device can dispose the lens module outside its casing, rather than install it in its casing. Therefore, the electronic device can omit the space required for configuring the lens module in its housing, so as to reduce the volume of the electronic device, thereby facilitating the user to carry or operate the electronic device. Furthermore, the electronic device can simultaneously apply multiple lens modules to capture images in the environment, and/or simultaneously use multiple lens modules to obtain images in different directions in the environment.

前述多個實施方式的特徵可使本技術領域中具有通常知識者更佳地理解本揭露之各個態樣。本技術領域中具有通常知識者應可瞭解，為了達到相同之目的及/或本揭 露之實施方式之相同優點，其可利用本揭露為基礎，進一步設計或修飾其他製程及結構。在本技術領域中具有通常知識者亦應瞭解，這樣的均等結構並未背離本揭露之精神及範圍，而在不背離本揭露之精神及範圍下，本技術領域中具有通常知識者可在此進行各種改變、替換及修正。 The features of the foregoing multiple embodiments may enable those with ordinary knowledge in the technical field to better understand the various aspects of the present disclosure. Those with ordinary knowledge in this technical field should understand that in order to achieve the same purpose and/or disclosure The same advantages of the disclosed embodiments can be used to further design or modify other processes and structures based on the present disclosure. Those with ordinary knowledge in this technical field should also understand that such an equal structure does not deviate from the spirit and scope of this disclosure, and without departing from the spirit and scope of this disclosure, those with ordinary knowledge in this technical field may here Make various changes, replacements, and corrections.

2‧‧‧鏡頭組件 2‧‧‧Lens assembly

20‧‧‧基座 20‧‧‧Dock

22‧‧‧磁吸軌道 22‧‧‧Magnetic orbit

24、34、44‧‧‧鏡頭模組 24, 34, 44 ‧‧‧ lens module

202‧‧‧第一充電埠 202‧‧‧ First charging port

204‧‧‧第一夾持件 204‧‧‧First clamping piece

204a、206a、208a、208b、208c‧‧‧表面 204a, 206a, 208a, 208b, 208c

206‧‧‧第二夾持件 206‧‧‧Second clamping part

208‧‧‧連接件 208‧‧‧Connector

209‧‧‧電源外接埠 209‧‧‧External power port

2060‧‧‧凸起部 2060‧‧‧Bump

2080、2082‧‧‧端部 2080、2082‧‧‧End

Claims (11)

一種鏡頭組件，應用於一電子裝置，該鏡頭組件包含：一基座，配置以銜接該電子裝置；一磁吸軌道，設置於該基座；一鏡頭模組，包含一鏡頭、一處理器以及一無線通訊模組，該鏡頭配置以將所接收到的一影像傳送至該處理器以進行處理，該無線通訊模組配置以將經處理之該影像傳送至該電子裝置；以及一磁吸件，設置於該鏡頭模組，其中該鏡頭模組藉由該磁吸件而可移動地吸附於該磁吸軌道。 A lens assembly is applied to an electronic device. The lens assembly includes: a base configured to connect with the electronic device; a magnetic suction track disposed on the base; a lens module including a lens, a processor and A wireless communication module, the lens is configured to transmit a received image to the processor for processing, the wireless communication module is configured to transmit the processed image to the electronic device; and a magnetic element , Which is installed in the lens module, wherein the lens module is movably attracted to the magnetic rail by the magnetic member. 如請求項1所述之鏡頭組件，其中該基座包含一第一夾持件、一第二夾持件以及一連接件，該第一夾持件與該第二夾持件分別連接於該連接件相對之兩端部，沿著該連接件的同一側延伸，並相分離。 The lens assembly according to claim 1, wherein the base includes a first clamping member, a second clamping member and a connecting member, and the first clamping member and the second clamping member are respectively connected to the The opposite ends of the connecting member extend along the same side of the connecting member and are separated from each other. 如請求項2所述之鏡頭組件，其中該第二夾持件包含遠離該連接件之一凸起部，該凸起部與該第一夾持件相距的距離，係小於該連接件之該兩端部相距的距離。 The lens assembly according to claim 2, wherein the second clamping member includes a protrusion away from the connecting member, and the distance between the protrusion and the first clamping member is smaller than that of the connecting member The distance between the two ends. 如請求項2所述之鏡頭組件，其中該磁吸軌道延伸於該第一夾持件。 The lens assembly according to claim 2, wherein the magnetic attraction rail extends from the first clamping member. 如請求項2所述之鏡頭組件，其中該磁吸軌道位於該第一夾持件遠離該第二夾持件的一側。 The lens assembly according to claim 2, wherein the magnetic attraction track is located on a side of the first clamping member away from the second clamping member. 如請求項2所述之鏡頭組件，其中該基座具有一電源外接埠，位於該第一夾持件、該第二夾持件以及該連接件中的一者，並用以提供該鏡頭模組電源。 The lens assembly according to claim 2, wherein the base has a power supply external port, located at one of the first clamping member, the second clamping member and the connecting member, and used to provide the lens module power supply. 如請求項2所述之鏡頭組件，其中該磁吸軌道延伸於該連接件。 The lens assembly according to claim 2, wherein the magnetic attraction rail extends from the connecting member. 如請求項1所述之鏡頭組件，其中該基座包含一第一充電埠以及一電池，該第一充電埠沿著該磁吸軌道延伸，且與該磁吸軌道分離，該電池設置於該基座中，該鏡頭模組更包含一第二充電埠，可移動地抵接於該第一充電埠，且該第一充電埠以及該第二充電埠配置以將該基座中該電池的電能傳遞至該外接鏡頭。 The lens assembly according to claim 1, wherein the base includes a first charging port and a battery, the first charging port extends along the magnetic attraction track and is separated from the magnetic attraction track, and the battery is disposed on the In the base, the lens module further includes a second charging port movably abutting the first charging port, and the first charging port and the second charging port are configured to Power is transferred to the external lens. 如請求項1所述之鏡頭組件，更包含一黏著層，設置於該基座相對於該磁吸軌道的一表面，用以黏接該電子裝置。 The lens assembly according to claim 1, further comprising an adhesive layer, which is disposed on a surface of the base opposite to the magnetic attraction track for adhering the electronic device. 如請求項1所述之鏡頭組件，其中該鏡頭模組還包含相互銜接之一支承座以及一轉動件，該轉動件可轉動地銜接該支承座，且連接該鏡頭，其中該磁吸件設置於該支承座上。 The lens assembly according to claim 1, wherein the lens module further comprises a supporting base and a rotating member which are mutually connected, and the rotating member is rotatably connected to the supporting base and connected to the lens, wherein the magnetic member is provided On the support base. 如請求項10所述之鏡頭組件，其中該支承座與該轉動件相互磁性吸附。 The lens assembly according to claim 10, wherein the support base and the rotating member are magnetically attracted to each other.

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