CN214070002U - Motion camera - Google Patents
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- CN214070002U CN214070002U CN202120119719.2U CN202120119719U CN214070002U CN 214070002 U CN214070002 U CN 214070002U CN 202120119719 U CN202120119719 U CN 202120119719U CN 214070002 U CN214070002 U CN 214070002U
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Abstract
The utility model is suitable for a camera structure technique discloses a motion camera, including camera body and camera annex, camera annex's one end is connected with camera body through flip structure, and camera annex can overturn relatively to camera body so that camera annex converts the position of camera annex into the second state from the first state, and flip structure includes fixed plate, returning face plate and connecting axle, and the fixed plate is installed in camera body, and the returning face plate is installed in camera annex, and the fixed plate is provided with the shaft hole, and the returning face plate is provided with the upset hole, and the connecting axle passes shaft hole and upset hole; the first state is a state that the camera accessory is overlapped on the camera body, and the second state is a state that the camera accessory and the camera body form a certain angle. The utility model provides a motion camera adjusts the position of camera annex through the upset, promotes the shooting of user under the different use scenes and experiences.
Description
Technical Field
The utility model belongs to the technical field of the camera structure, especially, relate to a motion camera.
Background
At present, the motion cameras on the market are limited to the small and portable requirements of the motion cameras and complex motion scenes, and the diversified requirements of users can be hardly met at the same time.
For example, the screen structure of a general motion camera is generally a single screen or a dual screen structure. In the moving camera with the single-screen structure, the screen and the lens are respectively positioned at two opposite sides of the camera, and a user cannot confirm shooting contents in a self-shooting scene; the motion camera of double screen structure, main screen and camera lens are located the relative both sides of camera respectively, and main screen can carry out operations such as function setting, and vice screen is located the homonymy with the camera lens, and the vice screen of camera lens side is many sizes less, can not realize the software operation, greatly reduced user experience, the cost of the motion camera that double screen structure has increased moreover.
SUMMERY OF THE UTILITY MODEL
The utility model discloses aim at solving one of above-mentioned technical problem at least, provide a motion camera, adjust the position of camera annex through the upset, promote the shooting of user under the different use scenes and experience.
The technical scheme of the utility model is that: a motion camera comprises a camera body and a camera accessory, wherein one end of the camera accessory is connected with the camera body through a turnover structure, the camera accessory can be turned relative to the camera body so that the camera accessory is converted from a first state to a second state to adjust the position of the camera accessory, the turnover structure comprises a fixing plate, a turnover plate and a connecting shaft, the fixing plate is installed on the camera body, the turnover plate is installed on the camera accessory, the fixing plate is provided with a shaft hole, the turnover plate is provided with a turnover hole, and the connecting shaft penetrates through the shaft hole and the turnover hole;
the first state is a state in which the camera accessory is stacked on the camera body, and the second state is a state in which the camera accessory and the camera body form a certain angle.
Optionally, the camera accessory comprises a display screen assembly or/and a camera module.
Optionally, the flip structure is located at an edge of the camera body.
Optionally, one side of the fixing plate, which faces away from the camera body, is provided with a wire accommodating groove, one side of the wire accommodating groove, which is close to the connecting shaft, is provided with a communicating port, the turnover plate is provided with a wire passing port, the camera body is connected with the camera accessory through a wire, one end of the wire is connected with the camera body, and the other end of the wire sequentially passes through the communicating port and the wire passing port to enter the turnover plate and the camera accessory and is connected with the camera accessory.
Optionally, the camera body is provided with a first groove, the fixing plate is installed in the first groove and connected through a locking member, the camera accessory is provided with a second groove, and the turnover plate is installed in the second groove and connected through a locking member.
Optionally, a sealing element is disposed between the fixing plate and the first groove, and between the flipping plate and the second groove.
Optionally, the turnover plate includes first upset portion, second upset portion and connecting piece, first upset portion with be connected with between the second upset portion the connecting piece, first upset portion with second upset portion all is provided with the upset hole, first upset portion second upset portion the connecting piece with the connecting axle encloses into cross the line mouth.
Optionally, the turnover holes of the first turnover part and the second turnover part are blind holes, each blind hole is provided with an opening end and a closed end, and the end part of each closed end is provided with an inverted inclined plane or is a hemispherical surface.
Optionally, the connecting piece is close to one end of the connecting shaft and is connected with a cylindrical protrusion, or the connecting piece is close to the end face of one end of the connecting shaft and is an arc face, and chamfers are arranged at two ends of the communicating opening.
Optionally, the connecting axle includes first axial region and second axial region, the upset hole of first upset portion with the upset hole of second upset portion is flat hole, the one end of first axial region stretches into in the axial region, the other end of first axial region with the upset pore phase adaptation of first upset portion, the one end of second axial region stretches into in the axial region, the other end of second axial region with the upset pore phase adaptation of second upset portion.
Optionally, the first shaft portion and the second shaft portion are damping shafts.
The utility model provides a motion camera makes the camera annex camera body upset relatively through flip structure, adjusts the position of camera annex, promotes the shooting of user under the different use scenes and experiences. Meanwhile, the turnover structure is simple and small in structure, suitable for small-sized product structures and easy to achieve light, thin and small-sized moving cameras.
Drawings
In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.
Fig. 1 is a schematic structural diagram of a display screen assembly in a motion camera according to an embodiment of the present invention in a first state;
fig. 2 is a schematic structural diagram of a motion camera in which a display screen assembly is in a second state according to an embodiment of the present invention;
FIG. 3 is an exploded schematic view of FIG. 2;
fig. 4 is a schematic structural diagram of an overturning structure in a motion camera according to an embodiment of the present invention;
FIG. 5 is an exploded schematic view of FIG. 4;
fig. 6 is a schematic diagram of wire routing when the display screen assembly in the motion camera is in the second state according to an embodiment of the present invention;
fig. 7 is a schematic diagram of wires running when the display screen assembly is in the first state in the motion camera according to an embodiment of the present invention.
In the figure, 1-camera body, 10-positioning circular truncated cone, 11-first groove, 2-display screen component, 21-second groove, 3-turnover structure, 30-turnover hole, 31-fixing plate, 311-shaft hole, 312-wire containing groove, 313-communication port, 3131-chamfer, 32-turnover plate, 321-first turnover part, 322-second turnover part, 323-connecting piece, 33-connecting shaft, 331-first shaft part, 332-second shaft part, 333-reverse inclined surface, 34-wire passing port, 301-threaded hole, 302-positioning hole, 303-positioning boss, 304-connecting hole and 4-wire.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
It should be noted that the terms "disposed" and "connected" should be interpreted broadly, and may be, for example, directly disposed or connected, or indirectly disposed or connected through intervening elements or intervening structures.
In addition, in the embodiments of the present invention, if there are terms of orientation or positional relationship indicated by "longitudinal", "transverse", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., it is based on the orientation or positional relationship shown in the drawings or the conventional placement state or use state, and it is only for convenience of description and simplification of description, but does not indicate or imply that the structures, features, devices or elements referred to must have a specific orientation or positional relationship, nor must be constructed and operated in a specific orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.
The various features and embodiments described in the detailed description may be combined in any suitable manner, for example, different embodiments may be formed by combining different features/embodiments, and various combinations of features/embodiments are not separately described in order to avoid unnecessary repetition in the present disclosure.
As shown in fig. 1 and fig. 2, the embodiment of the utility model provides a motion camera, including camera body 1 and camera annex, camera body 1 is provided with the main module of shooing, and the main module of shooing sets up with the camera annex relatively, and the one end of camera annex is passed through flip structure 3 and is connected with camera body 1, and camera annex camera body 1 upset relatively to make the camera annex convert the second state into by first state, adjust the position of camera annex, satisfy the shooting demand of user under different scenes, thereby promote user's use experience.
As shown in fig. 1, the first state is a state in which the camera accessory is stacked on the camera body 1, and as shown in fig. 2, the second state is a state in which the camera accessory forms a certain angle with the camera body 1, and at this time, the camera accessory is inclined to or perpendicular to or parallel to the camera body 1.
Optionally, the camera accessory may include a display screen assembly or/and a camera module. Namely, the camera accessory can be a display screen component 2, at this time, the display screen component 2 can display the picture acquired by the main shooting module in the camera body 1, and the user can also view the shot picture or video through the display screen component 2; or, the camera annex can be for shooing the module (denominated vice module of shooing), at this moment, the utility model discloses a motion camera has two and shoots the module, through the upset of the vice module of shooing of flip structure 3 control, and combine main shooting module, can realize that the user shoots 360 image or video demand, in this kind of structure, the motion camera can not have the display screen subassembly, the picture that main shooting module and vice shooting module shot can transmit to the portable smart machine (such as cell-phone, intelligent wrist-watch, panel computer, IPad etc.) that has the display screen through wireless module (bluetooth module or WIFI module), show through portable smart machine and shoot the picture or handle (splice the picture that main shooting module and vice shooting module shot); alternatively, the camera accessory may be a combination of the display screen assembly 2 and a shooting module (named as a secondary shooting module), and at this time, the shooting direction of the secondary shooting module may be the same as the display direction of the display screen assembly 2.
Hereinafter, a moving camera in which a camera accessory is used as the display screen assembly 2 will be described. In the first state, the display screen assembly 2 is tiled on the camera body 1, and the display screen of the display screen assembly 2 faces back to the camera body 1. When the display screen assembly 2 is in the second state and is parallel to the camera body 1 (see fig. 2), the display direction of the display screen assembly 2 is the same as the shooting direction of the camera body 1. For example, when the user needs to use the motion camera to shoot by oneself, through turning over display screen subassembly 2 180 °, make the display direction of display screen subassembly 2 the same with the shooting direction of camera body 1, at this moment, the user can observe the picture that the shooting module was acquireed through display screen subassembly 2, convenience of customers confirms the content of shooing, simultaneously, the user can also adjust shooting mode (beauty mode, professional mode, panorama mode etc.) and shooting parameter (shutter, diaphragm, ISO etc.) through display screen subassembly 2, thereby shoot satisfactory photo or video, promote user's use experience. For another example, when the user needs to shoot at a low viewing angle, the user need not crouch down, but only lower the motion camera and turn the display screen assembly 2 over so that the display screen assembly 2 faces the user's face.
Referring to fig. 3 and 4, the flip structure 3 includes a fixing plate 31, a flip plate 32 and a connecting shaft 33, the fixing plate 31 is installed on the camera body 1, the flip plate 32 is installed on the display screen assembly 2, the fixing plate 31 is provided with a shaft hole 311, the flip plate 32 is provided with a flip hole 30, the connecting shaft 33 passes through the shaft hole 311 and the flip hole 30, thereby realizing the connection of the fixing plate 31 and the flip plate 32, so that the flip plate 32 can be flipped relative to the fixing plate 31, and further driving the display screen assembly 2 to be flipped relative to the camera body 1. The turnover structure 3 has a simple and small structure, and can not occupy too much installation space of the camera body 1 when being applied to small-size products such as a motion camera, and is easy to realize the lightness and thinness of the motion camera.
Specifically, the turning angle of the turning plate 32 relative to the fixing plate 31 is 0 to 180 °, that is, the turning angle of the display screen assembly 2 is 0 to 180 °.
Optionally, as shown in fig. 1 and fig. 2, the flip structure 3 is located at an edge of the camera body 1, and is configured such that when the display screen assembly 2 is parallel to the camera body 1, there is no overlapping portion between the display screen assembly 2 and the camera body 1, and a problem that the camera body 1 blocks a portion of the display screen assembly 2 can be avoided.
Specifically, the camera body 1 having a rectangular structure will be described as an example. If the flip structure 3 is disposed at the upper edge of the camera body 1 (see fig. 1 and 2), at this time, the display screen assembly 2 can be flipped upward relative to the camera body 1; if the turning structure 3 is arranged at the lower edge of the camera body 1, at this time, the display screen assembly 2 can be turned downwards relative to the camera body 1; if the turning structure 3 is arranged at the left edge of the camera body 1, the display screen assembly 2 can be turned leftwards relative to the camera body 1; if locate camera body 1's right side edge with flip structure 3, at this moment, display screen subassembly 2 can overturn right relatively camera body 1.
In practical application, when flip structure 3 is located the edge of camera body 1, the junction of fixed plate 31 and flip board 32 bulges outside camera body 1 (see fig. 1), like this, can directly regard as outward appearance piece after carrying out surface treatment to the junction of fixed plate 31 and flip board 32 to need not additionally to set up cladding piece or shelter from the structure, reduced the accessory cost effectively.
Alternatively, as shown in fig. 3 and 4, a wire accommodating groove 312 may be provided on a side of the fixing plate 31 facing away from the camera body 1, a communication port 313 may be provided on a side of the wire accommodating groove 312 close to the connecting shaft 33, a wire passing port 34 is provided on the flip plate 32, and the display screen assembly 2 and the camera body 1 are connected by a wire 4. Referring to fig. 6, one end of the wire 4 is connected to the camera body 1, and the other end of the wire 4 sequentially passes through the communication port 313 and the wire passing port 34, enters between the flip plate 32 and the display screen assembly 2, and is finally connected to the display screen assembly 2. Like this, when display screen subassembly 2 is in the first state (see fig. 7), wire 4 part bending and being accomodate in containing wire groove 312 between fixed plate 31 and returning face plate 32 avoid wire 4 to receive fixed plate 31 and returning face plate 32 extrusion folding to solved the problem that wire 4 part between fixed plate 31 and returning face plate 32 is because of repeated folding fatigue fracture, improved the reliability that the motion camera used. The wire 4 in the present invention is a cable having a signal transmission function or/and a current conduction function.
Alternatively, as shown in fig. 3, the camera body 1 may be provided with a first recess 11, the fixing plate 31 is installed in the first recess 11 and is connected and fixed with the camera body 1 through a locking member (not shown in the figure), the display screen assembly 2 may be provided with a second recess 21, and the flip plate 32 is installed in the second recess 21 and is connected and fixed with the display screen assembly 2 through the locking member. That is, the fixing plate 31 can be embedded in the camera body 1, and the flip plate 32 can be embedded in the display screen assembly 2. Set up like this, when display screen subassembly 2 is in first state, keep display screen subassembly 2 and the laminating contact of camera body 1, there is not the gap between the two for the motion camera structure is pleasing to the eye.
Specifically, as shown in fig. 5, the fixing plate 31 and the flipping plate 32 are respectively provided with screw holes 301, and the locking members may be screws.
Specifically, as shown in fig. 5, the fixing plate 31 and the flipping plate 32 may further be provided with positioning holes 302, the first groove 11 and the second groove 21 are provided with positioning circular truncated cones 10, respectively, and when the fixing plate 31 is mounted in the first groove 11 and the flipping plate 32 is mounted in the second groove 21, the fixing plate 31 and the flipping plate 32 are mounted and positioned by the cooperation of the positioning holes 302 and the positioning circular truncated cones 10, so as to improve convenience of assembly and improve assembly accuracy.
Optionally, sealing elements (not shown in the figure) may be disposed between the fixing plate 31 and the first groove 11 and between the flip plate 32 and the second groove 21, and when the fixing plate 31 is mounted in the first groove 11 and the flip plate 32 is mounted in the second groove 21, the sealing elements may be compressed, so as to ensure the sealing performance and the waterproof performance of the connection between the wire 4 and the display screen assembly 2 and between the wire 4 and the camera body 1.
In particular, the seal may be a rubber.
In some embodiments, as shown in fig. 3 and 5, the turning plate 32 includes a first turning part 321, a second turning part 322, and a connecting member 323, the first turning part 321 and the second turning part 322 are connected by the connecting member 323 to ensure that the first turning part 321 and the second turning part 322 have sufficient structural strength, and the first turning part 321 and the second turning part 322 are provided with the turning holes 30. The connecting shaft 33 is disposed in the shaft hole 311, and two ends of the connecting shaft 33 extend out of the shaft hole 311, and two ends of the connecting shaft 33 are respectively disposed in the turning holes 30 of the first turning part 321 and the second turning part 322. Meanwhile, the wire passing port 34 is enclosed among the first turning part 321, the second turning part 322, the connecting part 323 and the connecting shaft 33.
Specifically, as shown in fig. 3 and 5, the two ends of the connecting member 323 are respectively provided with a connecting hole 304, and the first turning part 321 and the second turning part 322 are respectively provided with a positioning boss 303. During connection, the connecting holes 304 at the two ends of the connecting piece 323 are respectively aligned to the positioning bosses 303 of the first turnover part 321 and the second turnover part 322, and the positioning bosses 303 are clamped in the connecting holes 304. In practical application, the first turning part 321, the second turning part 322 and the connecting member 323 are metal members, and after the positioning boss 303 is clamped in the connecting hole 304, the connecting member 323 is welded to the first turning part 321 and the second turning part 322 respectively.
In some embodiments, the turning holes 30 of the first turning part 321 and the second turning part 322 may be blind holes to avoid exposing the connecting shaft 33, thereby ensuring the aesthetic appearance of the turning structure 3. The blind hole is provided with an opening end and a closed end, the end of the closed end is a hemispherical surface, or the end of the closed end is provided with an inverted inclined surface 333 (see fig. 4 and 5), or the end of the closed end is provided with a chamfer, so that the end of the closed end is prevented from being easily scratched by a user in a daily use process.
Alternatively, as shown in fig. 3 and 4, a cylindrical protrusion 3231 may be connected to the connector 323 at an end near the connecting shaft 33, or an end surface of the connector 323 at an end near the connecting shaft 33 may be an arc surface, and both ends of the communication port 313 may be provided with chamfers 3131 (see fig. 5). In this way, the wires 4 are guided to bend by the cambered surfaces or the chamfers 3131, so that the wires 4 are smoothly contacted with the connecting member 323 and the wires 4 are smoothly contacted with the end of the communication port 313, thereby avoiding the problem that the wires 4 are broken due to repeated folding fatigue during the turning process of the display panel assembly 2.
In some embodiments, as shown in fig. 3 and 5, the connecting shaft 33 includes a first shaft portion 331 and a second shaft portion 332. Wherein, the upset hole 30 of first upset portion 321 and the upset hole 30 of second upset portion 322 can be flat hole, the one end of first axial region 331 stretches into in the shaft hole 311, the other end of first axial region 331 and the upset hole 30 looks adaptation of first upset portion 321, the one end of second axial region 332 stretches into in the shaft hole 311, the other end of second axial region 332 and the upset hole 30 looks adaptation of second upset portion 322, the one end that first axial region 331 stretched into upset hole 30, the one end that second axial region 332 stretched into upset hole 30 is the flat structure that matches with flat hole. The first shaft portion 331 and the first turning portion 321, and the second shaft portion 332 and the second turning portion 322 are integrated, so that the first shaft portion 331 and the second shaft portion 332 rotate with the first turning portion 321 and the second turning portion 322, respectively.
Specifically, the first shaft portion 331 and the second shaft portion 332 may be provided with a step structure, and the depth of the first shaft portion 331 and the second shaft portion 332 extending into the shaft hole 311 is limited by the step structure.
Alternatively, the first shaft portion 331 and the second shaft portion 332 may be damping shafts, and the display screen assembly 2 may be locked at any angle by the damping shafts to maintain the current display direction of the display screen assembly 2. I.e. the screen assembly 2 remains in the current flipped state relative to the camera body 1 in the motion state.
The utility model discloses an among the motion camera, through designing into the individual structure with returning face plate 32 and connecting axle 33, can improve the convenience of assembly.
The embodiment of the utility model provides a motion camera,
the camera accessory can be turned relative to the camera body 1 through the turning structure 3, so that the position of the camera accessory is adjusted, and the shooting experience of a user in different use scenes is improved. For example, when the camera accessory is the display screen assembly 2, the display direction of the display screen assembly 2 is adjusted by turning over the display screen assembly 2, so that the shooting requirements of the user in different scenes are met. Especially when the user is in self-shooting, the user can confirm the shooting content by turning the display screen assembly 2 for 180 degrees, and meanwhile, the user can adjust the shooting mode and the shooting parameters through the display screen assembly 2 when in self-shooting, so that the use experience of the user is improved; or when the camera accessory is a shooting module, the shooting direction of the shooting module is adjusted by turning over the camera accessory, and a 360-degree panoramic picture is acquired through image splicing processing by combining the main shooting module of the camera body.
According to the needs of the use scene, the motion camera needs to have the function of being convenient to carry, so the size and the whole weight of the motion camera are not suitable to be too large. In the motion camera of the utility model, the turnover structure 3 is simple and small, and can not occupy too much installation space of the camera body 1 during installation, thus being easy to realize the lightness and thinness of the product; and compared with the existing motion camera with a double-display-screen structure, the cost of the product is low. The utility model discloses a motion camera can not increase the size of motion camera and increase the weight of motion camera when realizing the upset of camera annex, has promoted the market competition of product.
The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the present invention.
Claims (11)
1. A motion camera comprises a camera body and a camera accessory, and is characterized in that one end of the camera accessory is connected with the camera body through a turnover structure, the camera accessory can be turned relative to the camera body so that the camera accessory can be changed from a first state to a second state to adjust the position of the camera accessory, the turnover structure comprises a fixing plate, a turnover plate and a connecting shaft, the fixing plate is installed on the camera body, the turnover plate is installed on the camera accessory, the fixing plate is provided with a shaft hole, the turnover plate is provided with a turnover hole, and the connecting shaft penetrates through the shaft hole and the turnover hole;
the first state is a state in which the camera accessory is stacked on the camera body, and the second state is a state in which the camera accessory and the camera body form a certain angle.
2. A motion camera according to claim 1, characterized in that the camera accessory comprises a display screen assembly or/and a camera module.
3. The motion camera of claim 1, wherein the flip structure is located at an edge of the camera body.
4. The motion camera as claimed in claim 1, wherein a wire accommodating groove is formed in a side of the fixing plate facing away from the camera body, a communication port is formed in a side of the wire accommodating groove close to the connecting shaft, a wire passing port is formed in the flip plate, the camera body is connected with the camera accessory through a wire, one end of the wire is connected with the camera body, and the other end of the wire sequentially passes through the communication port and the wire passing port and then enters between the flip plate and the camera accessory to be connected with the camera accessory.
5. The motion camera of claim 4, wherein the camera body is provided with a first recess, the fixing plate is mounted in the first recess and connected by a locking member, the camera accessory is provided with a second recess, and the flip plate is mounted in the second recess and connected by a locking member.
6. The motion camera of claim 5, wherein a seal is disposed between the fixed plate and the first groove and between the flipping plate and the second groove.
7. The motion camera according to claim 4, wherein the turning plate comprises a first turning part, a second turning part and a connecting piece, the connecting piece is connected between the first turning part and the second turning part, turning holes are formed in the first turning part and the second turning part, and the first turning part, the second turning part, the connecting piece and the connecting shaft enclose the wire passing opening.
8. The motion camera of claim 7, wherein the flipping holes of the first flipping portion and the second flipping portion are blind holes, the blind holes having an open end and a closed end, the end of the closed end being provided with an inverted slope or the end of the closed end being hemispherical.
9. The motion camera as claimed in claim 7, wherein the connecting member is connected with a cylindrical protrusion at one end close to the connecting shaft, or the connecting member is a cambered surface at an end surface close to one end of the connecting shaft, and chamfers are provided at two ends of the communication port.
10. The motion camera according to claim 7, wherein the connecting shaft includes a first shaft portion and a second shaft portion, the turning hole of the first turning portion and the turning hole of the second turning portion are flat holes, one end of the first shaft portion extends into the shaft hole, the other end of the first shaft portion is fitted with the turning hole of the first turning portion, one end of the second shaft portion extends into the shaft hole, and the other end of the second shaft portion is fitted with the turning hole of the second turning portion.
11. The motion camera of claim 10, wherein the first and second shaft portions are damping shafts.
Priority Applications (1)
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CN202120119719.2U CN214070002U (en) | 2021-01-15 | 2021-01-15 | Motion camera |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120119719.2U CN214070002U (en) | 2021-01-15 | 2021-01-15 | Motion camera |
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CN202120119719.2U Active CN214070002U (en) | 2021-01-15 | 2021-01-15 | Motion camera |
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