support device

By designing detachable acquisition and support components, the support device achieves multi-posture and orientation adjustments, solving the problem of poor adaptability of existing support devices and enhancing the image acquisition range and anti-theft performance.

CN116293253BActive Publication Date: 2026-07-03LENOVO (BEIJING) LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
LENOVO (BEIJING) LTD
Filing Date
2023-03-01
Publication Date
2026-07-03

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  • Figure CN116293253B_ABST
    Figure CN116293253B_ABST
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Abstract

This application discloses a support device, comprising: a support component for abutting against a bearing surface to support the support device; and an acquisition component for acquiring images, detachably connected to the support component; wherein, when the acquisition component is connected to the support component, the support component supports the acquisition component; and, when the acquisition component is separated from the support component, the acquisition component can be connected to an external device; and the acquisition component is capable of acquiring images at least toward the bearing surface and the work object.
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Description

Technical Field

[0001] This application relates to a support device. Background Technology

[0002] Support devices are frequently used; however, the forms of support devices in related technologies are limited and their adaptability is poor. Summary of the Invention

[0003] In view of this, embodiments of this application aim to provide a support device.

[0004] To achieve the above objectives, the technical solution of this application is implemented as follows:

[0005] This application provides a support device, including:

[0006] A support assembly for abutting against a bearing surface to support the support device;

[0007] An image acquisition component, used for acquiring images, is detachably connected to the support component;

[0008] When the acquisition component is connected to the support component, the support component supports the acquisition component; when the acquisition component is separated from the support component, the acquisition component can be connected to an external device.

[0009] The acquisition component is capable of acquiring images at least toward the bearing surface and the work object.

[0010] In some alternative implementations, the acquisition component includes:

[0011] A first acquisition component, the first acquisition component being capable of acquiring images at least toward the bearing surface;

[0012] The second acquisition component is capable of acquiring images at least toward the work object.

[0013] In some alternative implementations, the acquisition component is also used for:

[0014] When the acquisition component is in a first posture, an image of a first size is generated;

[0015] When the acquisition component is in the second posture, an image of the second size is generated.

[0016] In some alternative implementations, the acquisition component is also used for:

[0017] Based on the working posture of the acquisition component, the direction of the acquired image is adjusted to the target direction.

[0018] In some alternative implementations, the acquisition component can be connected to the support component via a connecting accessory that allows the distance between the acquisition component and the support component to be adjusted.

[0019] In some optional implementations, the acquisition component further includes: a fixed attachment;

[0020] The fixing accessory is used to fix the acquisition component to the external device when the acquisition component is separated from the support component.

[0021] In some alternative implementations, the support device further includes:

[0022] A light-emitting component is connected to the support component, and the light-emitting component is capable of providing light to the bearing surface and the acquisition direction of the acquisition component.

[0023] In some alternative implementations, the supporting component includes:

[0024] The first support member is used to abut against the bearing surface;

[0025] The second support member has a first end connected to the first support member and is rotatable relative to the first support member;

[0026] The third support member has a first end connected to the second end of the second support member and is rotatable relative to the second support member. The light-emitting component is disposed on the third support member.

[0027] The fourth support member has a first end connected to the second end of the third support member and is rotatable relative to the third support member. The first acquisition component is disposed on the fourth support member.

[0028] The fifth support member has a first end connected to the first support member and is rotatable relative to the first support member. The second acquisition component is disposed on the fifth support member.

[0029] In some alternative implementations, the support device further includes:

[0030] A limiting structure is disposed between the acquisition component and the support component to limit the positional relationship between the acquisition component and the support component; when the limiting structure is in a first state, the acquisition component and the support component cannot be separated; when the limiting structure is in a second state, the acquisition component and the support component can be separated.

[0031] The switching structure enables the limiting structure to switch to either the first state or the second state.

[0032] In some alternative implementations, the support device further includes:

[0033] The first interface is used to connect to the acquisition component;

[0034] The second interface is used to connect to the external device, such that when the external device is connected to the support component, the acquisition component is connected to the external device. Attached Figure Description

[0035] Figure 1 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0036] Figure 2 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0037] Figure 3 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0038] Figure 4 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0039] Figure 5 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0040] Figure 6 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0041] Figure 7 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0042] Figure 8 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0043] Figure 9 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0044] Figure 10 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0045] Figure 11 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0046] Figure 12 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0047] Figure 13 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0048] Figure 14 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0049] Figure 15 This is a schematic diagram of an optional structure of the support device in an embodiment of this application;

[0050] Figure 16 This is a schematic diagram of an optional structure of the support device in an embodiment of this application.

[0051] Reference numerals: 100, Support component; 110, First support member; 111, Base; 112, Rod-shaped part; 120, Second support member; 130, Third support member; 140, Fourth support member; 150, Fifth support member; 200, Acquisition component; 210, First acquisition component; 220, Second acquisition component; 300, Connecting accessory; 310, Connecting part; 311, First connecting protrusion; 320, Sixth interface; 330, Seventh interface; 400, Fixing accessory; 410, First connecting body; 500, Light-emitting component; 600, Switching structure; 710, First interface; 720, Second interface; 800, First device. Detailed Implementation

[0052] The technical solution of this application will be further described in detail below with reference to the accompanying drawings and specific embodiments.

[0053] In the embodiments described in this application, it should be noted that, unless otherwise stated and limited, the term "connection" should be interpreted broadly. For example, it can be an electrical connection, or a connection between two internal components. It can be a direct connection or an indirect connection through an intermediate medium. Those skilled in the art can understand the specific meaning of the above term according to the specific circumstances.

[0054] It should be noted that the terms "first," "second," and "third" used in the embodiments of this application are merely used to distinguish similar objects and do not represent a specific ordering of objects. It is understood that "first," "second," and "third" can be interchanged in a specific order or sequence where permitted. It should be understood that the objects distinguished by "first," "second," and "third" can be interchanged where appropriate so that the embodiments of this application described herein can be implemented in an order other than those illustrated or described herein.

[0055] The following combination Figures 1 to 16 The support device described in the embodiments of this application will be described in detail.

[0056] A support device includes a support assembly 100 and a data acquisition assembly 200. The support assembly 100 abuts against a bearing surface to support the support device. The data acquisition assembly 200 is used to acquire images and is detachably connected to the support assembly 100. When the data acquisition assembly 200 is connected to the support assembly 100, the support assembly 100 supports the data acquisition assembly 200. When the data acquisition assembly 200 is separated from the support assembly 100, the data acquisition assembly 200 can be connected to an external device. The data acquisition assembly 200 can acquire images at least towards the bearing surface and the work object. The fact that the data acquisition assembly 200 can be connected to both the support assembly 100 and an external device increases the application scenarios of the data acquisition assembly 200 and improves the adaptability of the support device. Furthermore, since the data acquisition assembly 200 can acquire images at least towards the bearing surface and the work object, the range of images acquired by the data acquisition assembly 200 can also be increased.

[0057] In this embodiment, the structure of the support component 100 is not limited. For example, the support component 100 can be a strip structure, a column structure, or a plate structure.

[0058] The bearing surface is the surface that supports the device. It can be a tabletop or the ground.

[0059] In some alternative implementations, the support device may further include a first interface 710 and a second interface 720. The first interface 710 is used to connect to the acquisition component 200; the second interface 720 is used to connect to the external device, such that when the external device is connected to the support component 100, the acquisition component 200 is connected to the external device, so that the external device can acquire images through the acquisition component 200 on the support device.

[0060] The first interface 710 and the second interface 720 can be the same or different. For example, both the first interface 710 and the second interface 720 can be Type-C interfaces.

[0061] In this embodiment, the acquisition component 200 is used to acquire images. The structure of the acquisition component 200 is not limited. For example, the acquisition component 200 may include a camera.

[0062] The implementation method of detachably connecting the acquisition component 200 and the support component 100 is not limited.

[0063] For example, the support component 100 includes a first interface 710, and the acquisition component 200 has a third interface. The third interface is plugged into the first interface 710. When the third interface is plugged into the first interface 710, the acquisition component 200 is connected to the support component 100. When the third interface is separated from the first interface 710, the acquisition component 200 is separated from the support component 100.

[0064] For example, the support device may further include a limiting structure disposed between the acquisition component 200 and the support component 100. The limiting structure is used to restrict the positional relationship between the acquisition component 200 and the support component 100. When the limiting structure is in a first state, the acquisition component 200 and the support component 100 cannot be separated. When the limiting structure is in a second state, the acquisition component 200 and the support component 100 can be separated. When the acquisition component 200 and the support component 100 cannot be separated, the acquisition component 200 cannot be easily removed, thus improving the anti-theft performance of the acquisition component 200.

[0065] The structure of the limiting structure is not limited.

[0066] As an example, the limiting structure may include an electromagnetic structure, which may be disposed on the support device. When the electromagnetic structure is energized, it is magnetically attracted to the iron structure of the acquisition component 200; when the electromagnetic structure is de-energized, it has no magnetic force.

[0067] As another example, the limiting structure may include a slot and a protrusion, one of which is disposed in the support assembly 100 and the other of which is disposed in the acquisition assembly 200, thereby increasing the connection strength between the support assembly and the acquisition assembly 200 by the protrusion being inserted into the slot.

[0068] As another example, the limiting structure may include a snap-fit ​​structure, which includes a hook and a slot. One of the hook and the slot is disposed in the support component 100, and the other of the hook and the slot is disposed in the acquisition component 200. The connection strength between the support device and the acquisition component 200 is improved by the hook being engaged in the slot.

[0069] The support device may further include a switching structure 600, which enables the limiting structure to switch to the first state or the second state to facilitate the disassembly of the acquisition component 200.

[0070] The structure of the switching structure 600 is not limited. For example, the switching structure 600 can be a switch button used to control the power supply or de-energization of the electromagnetic structure. As another example, the switching structure 600 can include a push button used to push one of the latches and slots out of or into the other.

[0071] The implementation method of the acquisition component 200 being able to acquire images at least toward the bearing surface and the working object is not limited.

[0072] For example, if there is only one acquisition component 200, then the acquisition component 200 is movable, and through this movement, it can acquire images toward the bearing surface and the work object. As an example, such as... Figure 3 As shown, the acquisition component 200 can move to acquire images facing the work object; as Figure 4 As shown, the acquisition component 200 can move toward the bearing surface to acquire images.

[0073] For example, the number of acquisition components 200 is at least two, one of the at least two acquisition components 200 is capable of acquiring an image towards the bearing surface, and the other of the at least two acquisition components 200 is capable of acquiring an image towards the work object. As an example, such as Figure 5 As shown, the acquisition component 200 may include: a first acquisition component 210 and a second acquisition component 220. The first acquisition component 210 is capable of acquiring images at least towards the bearing surface; the second acquisition component 220 is capable of acquiring images at least towards the work object; the first acquisition component 210 may only be capable of acquiring images towards the bearing surface, or it may be able to acquire images towards the work object or other directions through movement, such as... Figure 2 As shown; for example, the first acquisition component 210 can acquire images in the opposite direction to the work object through movement. The second acquisition component 220 can only acquire images in the direction of the work object, or it can acquire images in the direction of the bearing surface or other directions through movement; for example, the second acquisition component 220 can acquire images in the opposite direction to the work object through movement.

[0074] In some optional implementations, the acquisition component 200 can be in at least a first posture and a second posture. The first posture and the second posture are different, and the acquisition component 200 has different postures, so that the acquisition component 200 can adapt to different working scenarios.

[0075] The acquisition component 200 can also be used to: generate an image of a first size when the acquisition component 200 is in a first posture; and generate an image of a second size when the acquisition component 200 is in a second posture. The image of the first size and the image of the second size are different.

[0076] As an example, the first posture can be a vertical posture, such as... Figure 1As shown in Figure 6, the second pose can be a horizontal pose, so that the acquisition component 200 can be adapted to different scenarios. The aspect ratio of the first-sized image can be 9:16, and the aspect ratio of the second-sized image can be 16:9, so that the first pose can be used for live streaming mode and the second pose can be used for conference mode.

[0077] In some alternative implementations, the acquisition component 200 can also be used to: adjust the direction of the acquired image to the target direction according to the working posture of the acquisition component 200.

[0078] Due to the imaging principle of the camera, there is a problem: with the acquisition component 200 in... Figure 6 The working posture shown is the baseline; at this time, the image generated by the acquisition component 200 is displayed in a positive orientation. However, when the acquisition component 200 is in a different orientation... Figure 4 When the image is in the indicated working posture, it is displayed upside down, which is not conducive to user viewing. To solve this problem, this application embodiment provides a function: adjusting the orientation of the acquired image to a target orientation based on the working posture of the acquisition component. The target orientation can be positive, thus facilitating user viewing.

[0079] As an example, the acquisition component 200 is equipped with a sensor that can detect the working posture of the acquisition component 200. The processor in the acquisition component 200 can determine the orientation of the acquisition component 200 based on the working posture detected by the sensor. For example, when the acquisition component 200 is facing the support surface or the work object, the image acquired by the acquisition component 200 is not flipped, and the processor does not need to adjust the orientation of the image acquired by the acquisition component 200. When the acquisition component 200 is facing the support surface, the image acquired by the acquisition component 200 is flipped, and the processor needs to adjust the orientation of the acquired image to the target orientation, that is, the processor needs to adjust the orientation of the acquired image by 180 degrees.

[0080] In some optional implementations of the embodiments of this application, the acquisition component 200 may further include: a fixing attachment 400; the fixing attachment 400 is used to fix the acquisition component 200 to the external device when the acquisition component 200 is separated from the support component 100.

[0081] The structure of the fixed accessory 400 is not limited. For example, as... Figure 7As shown, the fixing accessory 400 may include a first connector 410, and the aforementioned limiting structure may also be disposed between the first connector 410 and the acquisition component 200. The limiting structure is used to restrict the positional relationship between the acquisition component 200 and the first connector 410. When the limiting structure is in the first state, the acquisition component 200 and the first connector 410 cannot be separated. When the limiting structure is in the second state, the acquisition component 200 and the first connector 410 can be separated.

[0082] The first connector 410 can be connected to an external device by magnetic adsorption or by snap-fit.

[0083] When the acquisition component 200 is fixed to the external device, the third interface of the acquisition component 200 can be directly plugged into the fourth interface of the external device. Of course, the third interface of the acquisition component 200 can also be plugged into the first interface 710 of the support device.

[0084] As an example, the support device may also include a connection attachment 300, through which the acquisition component 200 can be connected to the support component 100, the connection attachment 300 allowing the distance between the acquisition component 200 and the support component 100 to be adjusted.

[0085] The structure of the connecting accessory 300 is not limited. For example, the connecting accessory 300 may include a first connecting line, a fifth interface, and a sixth interface. The fifth and sixth interfaces 320 are located at both ends of the first connecting line. The fifth interface is plugged into the third interface of the acquisition component 200, and the sixth interface 320 is plugged into the first interface 710 of the support component 100. The fifth interface and the first interface 710 have the same structure, and the sixth interface 320 has the same structure as the third interface.

[0086] The connecting accessory 300 can be a single integrated structure. Alternatively, it can be a separate structure. As an example, the connecting accessory 300 may include a connecting portion 310 and a second connecting line. The connecting portion 310 has a first connecting protrusion 311 at its first end, and a sixth interface 320 is disposed on the first connecting protrusion 311, such as... Figure 8 and Figure 9 As shown, the second end of the connecting part 310 has a seventh interface 330, the two ends of the second connecting line are respectively provided with an eighth interface and a fifth interface, the sixth interface 320 is plugged into the first interface 710 of the support component 100, the eighth interface is plugged into the seventh interface 330, and the fifth interface is plugged into the third interface of the acquisition component 200.

[0087] The support device has a connection slot that mates with the first connection protrusion 311. The first interface 710 is disposed in the slot. One end of the acquisition component 200 is also provided with a second connection protrusion. The third interface is disposed in the second connection protrusion. The second connection protrusion and the first connection protrusion 311 have roughly the same structure. Inserting the second connection protrusion into the connection slot can improve the connection strength between the acquisition component 200 and the support device. Inserting the first connection protrusion 311 into the connection slot can improve the connection strength between the connection part 310 and the support device.

[0088] Of course, the acquisition component 200 can also be installed without being attached to an external device via the connecting accessory 300. The connecting accessory 300 is only used to allow the distance between the acquisition component 200 and the support component 100 to be adjusted, such as... Figure 11 As shown.

[0089] In some optional implementations of the embodiments of this application, such as Figure 12 and Figure 13 As shown, the support device may further include: a light-emitting component 500, which is connected to the support component 100, and the light-emitting component 500 is capable of providing light to the bearing surface and the collection direction of the collection component 200.

[0090] In this implementation, the method by which the light-emitting component 500 can provide light to the bearing surface and the collection direction of the collection component 200 is not limited.

[0091] For example, if there is only one light-emitting component 500, then the light-emitting component 500 is movable, and through this movement, it can provide light towards the supporting surface and the work object. As an example, such as... Figure 3 As shown, the light-emitting component 500 can be moved to provide light towards the work object; as Figure 4 As shown, the light-emitting component 500 can be moved to provide light toward the bearing surface; of course, the light-emitting component 500 can also be moved to provide light in the opposite direction to the bearing surface or the work object, in which case the light-emitting component 500 provides background light.

[0092] For example, the number of light-emitting components 500 is at least two, one of the at least two light-emitting components 500 is capable of acquiring an image toward the bearing surface, and the other of the at least two light-emitting components 500 is capable of acquiring an image toward the work object.

[0093] The light-emitting component 500 and the collecting component 200 can be positioned adjacent to the supporting component 100 so that the light-emitting component 500 and the collecting component 200 can move simultaneously to adjust their direction.

[0094] In the embodiments of this application, such as Figure 13 As shown, the support assembly 100 may include: a first support member 110, a second support member 120, a third support member 130, a fourth support member 140, and a fifth support member 150. The first support member 110 is used to abut against the bearing surface; the first end of the second support member 120 is connected to the first support member 110, and the second support member 120 is rotatable relative to the first support member 110; the first end of the third support member 130 is connected to the second end of the second support member 120, and the third support member 130 is rotatable relative to the second support member 120, and the light-emitting component 500 is disposed on the third support member 130; the first end of the fourth support member 140 is connected to the second end of the third support member 130, and the fourth support member 140 is rotatable relative to the third support member 130, and the first acquisition component 210 is disposed on the fourth support member 140; the first end of the fifth support member 150 is connected to the first support member 110, and the fifth support member 150 is rotatable relative to the first support member 110, and the second acquisition component 220 is disposed on the fifth support member 150.

[0095] In this implementation, the structure of the first support member 110 is not limited. For example, the first support member 110 can be a rod-shaped structure. Or, for example... Figure 14 As shown, the first support member 110 includes a seat portion 111 and a rod-shaped portion 112. The seat portion 111 is used to abut against the bearing surface. The first end of the rod-shaped portion 112 can be fixedly connected to the seat portion 111 or movably connected. The second end of the rod-shaped portion 112 is connected to the first end of the second support member 120.

[0096] The length of the first support member 110 can be adjusted to allow for adjustment of the distance between the second support member 120 and the bearing surface. The method of adjusting the length of the first support member 110 is not limited. For example, the rod-shaped portion 112 includes a first cylindrical portion and a first telescopic portion. The first cylindrical portion is connected to the seat portion 111, and the first telescopic portion is connected to the second support member 120. The first telescopic portion is inserted into the cavity of the first cylindrical portion and is movable relative to the first cylindrical portion to adjust the length of the first support member 110. Of course, the length of the first support member 110 may also be non-adjustable.

[0097] In this implementation, the structure of the second support member 120 is not limited. For example, the second support member 120 can be a rod-shaped structure.

[0098] The position of the light-emitting component 500 or the first acquisition component 210 can be changed by rotating the second support member 120 relative to the first support member 110, thereby adjusting the range of light provided by the light-emitting component 500 and the range of image acquisition by the first acquisition component 210. The method by which the second support member 120 can rotate relative to the first support member 110 is not limited. For example, the first end of the second support member 120 and the second end of the first support member 110 can be rotatably connected via a first pivot.

[0099] In other implementations, the first end of the second support member 120 can also be fixedly connected to the second end of the first support member 110.

[0100] In this implementation, the structure of the third support member 130 is not limited. For example, the third support member 130 can be a columnar structure.

[0101] The position of the light-emitting component 500 can be changed by rotating the third support member 130 relative to the second support member 120, thereby adjusting the range of light provided by the light-emitting component 500. The method by which the third support member 130 can rotate relative to the second support member 120 is not limited. For example, the first end of the third support member 130 and the second end of the second support member 120 can be rotatably connected via a second pivot.

[0102] The third support member 130 can rotate relative to the second support member 120 within a range of 0 degrees to 360 degrees. At this time, the light-emitting component 500 can provide light within a range of 0 degrees to 360 degrees.

[0103] In this implementation, the structure of the fourth support member 140 is not limited. For example, the fourth support member 140 can be a columnar structure.

[0104] The orientation of the first acquisition component 210 can be changed by rotating the fourth support member 140 relative to the third support member 130, thereby adjusting the orientation of the image acquired by the first acquisition component 210 individually. For example, the light-emitting component 500 can be oriented toward the bearing surface by the third support member 130, and the first acquisition component 210 can be oriented toward the working object by the fourth support member 140.

[0105] The method by which the fourth support member 140 can rotate relative to the third support member 130 is not limited. For example, the first end of the fourth support member 140 and the second end of the third support member 130 can be connected by a third pivot.

[0106] In other implementations, the first end of the fourth support member 140 and the second end of the third support member 130 can also be fixedly connected; in this case, the first acquisition component 210 and the light-emitting component 500 can be simultaneously adjusted in orientation by rotating the third support member 130 relative to the second support member 120, and the lens of the first acquisition component 210 and the light-emitting component 500 can be located on the same side of the support component 100.

[0107] In this implementation, the structure of the fifth support member 150 is not limited. For example, the fifth support member 150 can be a columnar structure.

[0108] The orientation of the second acquisition component 220 can be changed by rotating the fifth support member 150 relative to the first support member 110, thereby adjusting the orientation of the image acquired by the second acquisition component 220.

[0109] The method by which the fifth support member 150 can rotate relative to the first support member 110 is not limited. For example, the first end of the fifth support member 150 can be connected to the first support member 110 via a fourth pivot.

[0110] In other implementations, the first end of the fifth support member 150 can also be fixedly connected to the first support member 110; in this case, the orientation of the second acquisition component 220 is fixed, for example, the second acquisition component 220 is oriented towards the working object to acquire images.

[0111] Of course, the support device may also include only one acquisition component 200, which can be located on the fourth support member 140, such as... Figure 15 As shown, the acquisition component 200 can also be set on the fifth support component 150, such as... Figure 13 As shown.

[0112] As an example, the second support member 120 is rotatable about a first axis relative to the first support member 110, the third support member 130 is rotatable about a second axis relative to the second support member 120, the fourth support member 140 is rotatable about a third axis relative to the third support member 130, and the fifth support member 150 is rotatable about a fourth axis relative to the first support member 110.

[0113] The first and fifth axes can be set horizontally; in this case, the first and fifth axes can be parallel or coincident. The second support 120 and the fifth support 150 can resemble the two hands of a clock, and the second support 120 and the fifth support 150 can form a 90-degree angle. Figure 14 and Figure 15 As shown, the second support member 120 and the fifth support member 150 can form a 180-degree angle, as... Figure 12As shown. The third axis and the fourth axis can be approximately the same length as the second support 120. At this time, the third support 130 can rotate 360 ​​degrees around the circumference of the second support 120, and the fourth support 140 can rotate 360 ​​degrees around the circumference of the third support 130.

[0114] In other implementations, the support component 100 may include only: a first support member 110, a second support member 120, a third support member 130, and a fourth support member 140.

[0115] The first interface 710 may be provided with at least one of the fourth support member 140 and the fifth support member 150. The second interface 720 may be provided with the first support member 110. The support device may also include three first interfaces 710, wherein one first interface 710 is provided with the fourth support member 140, one first interface 710 is provided with the fifth support member 150, and another first interface 710 is provided with the first support member 110, so that the acquisition component 200 can also be connected to the first interface 710 at the first support member 110 via the connecting accessory 300.

[0116] In some optional implementations of the embodiments of this application, the support device may further include a functional module disposed on the support component 100. The functional module is used to respond to and / or generate data, which is used to interact with the first device 800; wherein the second interface 720 is used to connect to the first device 800.

[0117] In this implementation, the functional module can be used to respond to data, generate data, or both.

[0118] The structure of the functional module is not limited. For example, the functional module may include a light-emitting component 500, a data acquisition component 200, or a sound source.

[0119] In this implementation, the structure of the first device 800 is not limited. For example, the first device 800 can be a computer, which can control the functional modules, and the information of the functional modules can also be transmitted to the computer.

[0120] In this implementation, the functional module is further configured to: perform data format conversion between the first device 800 and the second device; the supporting component 100 may also include: a third type of interface, such as... Figure 16 As shown, the third type of interface is used to connect with the second device. Through the functional module, the first device 800 and the second device with different interfaces can interact, which greatly improves the adaptability of the support device. At this time, the support device acts as an expansion dock.

[0121] The type of the third type of interface is not limited, as long as it differs from the second interface 720. For example, if the first device 800 is a computer and the second device is a monitor, the second interface 720 may include a USB interface, and the third type of interface may include a High Definition Multimedia Interface (HDMI) interface. The computer uses a functional module to enable information to be displayed on the monitor.

[0122] The above description is merely a specific embodiment of this application, but the scope of protection of this application is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the scope of the technology disclosed in this application should be included within the scope of protection of this application. Therefore, the scope of protection of this application should be determined by the scope of the claims.

Claims

1. A support device, comprising: A support assembly is used to abut against a bearing surface to support the support device. The support assembly includes a first support member and a second support member that can rotate relative to each other. The position of the acquisition component can be changed by rotating the second support member relative to the first support member, so that the acquisition component has a first posture and a second posture. An image acquisition component, used for acquiring images, is detachably connected to the support component; When the acquisition component is connected to the support component, the support component supports the acquisition component and can be connected to an external device; When the acquisition component is separated from the support component, the acquisition component can be connected to an external device; The acquisition component is capable of acquiring images at least toward the bearing surface and the work object. When the acquisition component is in the first posture, it generates an image of a first size. When the acquisition component is in the second posture, it generates an image of a second size. The first posture and the second posture are different.

2. The support device according to claim 1, wherein the acquisition component comprises: A first acquisition component, the first acquisition component being capable of acquiring images at least toward the bearing surface; The second acquisition component is capable of acquiring images at least toward the work object.

3. The support device according to claim 1, wherein the acquisition component is further configured to: Based on the working posture of the acquisition component, the direction of the acquired image is adjusted to the target direction.

4. The support device according to claim 1, wherein the acquisition component can be connected to the support component via a connecting accessory, the connecting accessory allowing the distance between the acquisition component and the support component to be adjusted.

5. The support device according to claim 1, wherein the acquisition component further comprises: Fixed accessories; The fixing accessory is used to fix the acquisition component to the external device when the acquisition component is separated from the support component.

6. The support device according to claim 2, further comprising: A light-emitting component is connected to the support component, and the light-emitting component is capable of providing light to the bearing surface and the acquisition direction of the acquisition component.

7. The support device according to claim 6, wherein the support assembly comprises: The first support member is used to abut against the bearing surface; The second support member has a first end connected to the first support member and is rotatable relative to the first support member; The third support member has a first end connected to the second end of the second support member and is rotatable relative to the second support member. The light-emitting component is disposed on the third support member. The fourth support member has a first end connected to the second end of the third support member and is rotatable relative to the third support member. The first acquisition component is disposed on the fourth support member. The fifth support member has a first end connected to the first support member and is rotatable relative to the first support member. The second acquisition component is disposed on the fifth support member.

8. The support device according to claim 1, further comprising: A limiting structure is disposed between the acquisition component and the support component to limit the positional relationship between the acquisition component and the support component; When the limiting structure is in the first state, the acquisition component and the support component cannot be separated. When the limiting structure is in the second state, the acquisition component and the support component can be separated. The switching structure enables the limiting structure to switch to either the first state or the second state.

9. The support device according to any one of claims 1 to 8, wherein the support device further comprises: The first interface is used to connect to the acquisition component; The second interface is used to connect to the external device, such that when the external device is connected to the support component, the acquisition component is connected to the external device.