CN113586856A - Video camera - Google Patents

Abstract

The application discloses camera, the disclosed camera includes the box, camera and bracket component, the box can be placed in the holding surface, the bracket component includes first support and second support, the first end of first support rotates with the box and links to each other, the second end of first support links to each other with the second end of second support, and there is first contained angle between first support and the second support, the camera sets up in the first end of second support, under the condition that the camera is in first state, first support drives the direction motion that the second support orientation is close to the box, and first support is accomodate in installation space, under the condition that the camera is in the second state, first support drives the direction motion that the box was kept away from to the second support orientation, and first support opens on the box. The technical scheme that this application adopted can solve the camera in the background art and just can use after the installation, and causes the problem of the puzzlement of camera installation place and erection equipment to the user.

Description

Video camera

Technical Field

The application belongs to the technical field of monitoring equipment, and particularly relates to a camera.

Background

The cameras in the market are used widely in life, people usually record life and shoot videos and the like by using the cameras, but the cameras in the market are used only after being installed, and a rod needs to be installed when the cameras are installed, so that the limitation of using the cameras by customers is large. Especially, when a client applies a camera to an experimental scene, in many cases, a place and equipment suitable for installing the camera are not available in the experimental scene, which causes trouble to the user.

Disclosure of Invention

The embodiment of the application aims to provide a camera, which can solve the problem that the camera in the background technology can be used after being installed, and causes troubles of a camera installation site and installation equipment to a user.

In order to solve the technical problem, the present application is implemented as follows:

in a first aspect, an embodiment of the present application provides a camera, and the disclosed camera includes a box body, a camera, and a bracket assembly, where:

the case body can be placed on a supporting surface and can support the bracket component, the case body comprises an installation space, the bracket component is rotationally connected with the case body, the camera is arranged on the bracket component,

the bracket component comprises a first bracket and a second bracket, the first end of the first bracket is rotatably connected with the box body, the second end of the first bracket is connected with the second end of the second bracket, a first included angle is formed between the first bracket and the second bracket, the camera is arranged at the first end of the second bracket, the first end and the second end are two ends which are deviated,

when the camera is in a first state, the first bracket drives the second bracket to move towards a direction close to the box body, and the first bracket is accommodated in the installation space,

under the condition that the camera is in the second state, the first support drives the second support to move towards the direction far away from the box body, and the first support is unfolded on the box body.

The technical scheme adopted by the application can achieve the following beneficial effects:

the camera disclosed in the embodiment of the application is improved through the structure of the camera in the correlation technique, through setting up the box, make the box place on the holding surface, make the box when supported by the holding surface, also can regard as a bearing structure, support the bracket component that links to each other with it, because the camera sets up on the bracket component, make the box when supporting the bracket component, can indirectly realize the support to the camera, thereby make the camera need not use erection equipment, also need not install under the condition in place, the user can directly use the camera, the technical scheme that this application embodiment adopted can solve the background art under many circumstances promptly, do not have the place and the equipment that are fit for installing the camera in the experimental scene, and cause the problem of use to the user.

Drawings

Fig. 1, fig. 2 and fig. 3 are schematic perspective views of a camera disclosed in an embodiment of the present application at different viewing angles in an unfolded state;

fig. 4 is a schematic perspective view of a camera disclosed in an embodiment of the present application in a storage state;

FIG. 5 is a schematic view of a partial component structure of a camera disclosed in an embodiment of the present application;

FIG. 6 is a schematic perspective view of a damping shaft of a camera according to an embodiment of the present disclosure;

fig. 7 is a schematic perspective view of a fixing connection portion of a camera disclosed in an embodiment of the present application;

fig. 8 and 9 are schematic structural views of two different states of a first support of a video camera disclosed in an embodiment of the present application;

FIG. 10 is an exploded view of a suction cup structure of a camera as disclosed in an embodiment of the present application;

fig. 11 is a sectional view of a suction cup structure of a video camera according to an embodiment of the present disclosure during suction;

fig. 12 is a sectional view of a suction cup structure of a video camera according to an embodiment of the present application when suction is released;

fig. 13 is a schematic structural diagram of a cable assembly of a video camera disclosed in an embodiment of the present application.

Description of reference numerals:

100-box, 110-installation space, 120-support;

200-a camera;

300-bracket component, 310-first bracket, 311-positioning column, 312-second connecting hole, 313-first bracket shell, 314-first bracket main body, 3141-bracket body, 3141 a-connecting column, 3142-telescopic body and 320-second bracket;

400-a second spindle structure;

500-damping shaft, 510-first connecting part, 511-positioning groove, 512-first connecting hole, 520-second connecting part, 530-connecting shaft and 540-first connecting piece;

600-fixed connection, 610-third connection, 620-fourth connection;

700-diaphragm assembly, 710-grip;

800-sucker structure, 810-sucker upper cover, 811-lapping part, 812-positioning matching piece, 820-sucker main body, 821-vent hole, 822-sucker middle cover, 8221-positioning piece, 8222-buckle, 823-sucker silica gel pad, 8231-silica gel bulge, 8232-silica gel main body, 824-sucker lower cover, 825-second connecting piece and 826-sealed space;

900-a support surface;

1000-cable assembly, 1100-elastic cable, 1200-fixture.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

A camera provided in the embodiments of the present application is described in detail below with reference to the accompanying drawings through specific embodiments and application scenarios thereof.

As shown in fig. 1 to 13, the present embodiment discloses a camera, which includes a housing 100, a camera 200, and a stand assembly 300.

The box 100 is a supporting structure of the camera, and is also an installation foundation of the camera, the box 100 can be placed on the supporting surface 900, and the box 100 can support the bracket assembly 300, the box 100 includes the installation space 110, the bracket assembly 300 is rotatably connected with the box 100, the camera 200 is arranged on the bracket assembly 300, so that the box 100 can support the bracket assembly 300 through the contact between itself and the supporting surface 900 (for example, a desktop used for an experiment in an experimental scene), thereby indirectly supporting the camera 200 by the box 100, that is, the camera does not need to use other installation equipment, for example, an installation support, and does not need a special installation site, the camera can be separated from the support of the installation support by using the box 100, the three of the camera 200 and the bracket assembly 300 and the connection relationship among the three, and the shooting function of itself is realized.

In the camera configuration, the carriage assembly 300 may include a first carriage 310 and a second carriage 320, with a first end of the first carriage 310 being rotatably coupled to the housing 100 such that the first carriage 310 is rotatable relative to the housing 100. The second end of first support 310 links to each other with the second end of second support 320, and there is first contained angle between first support 310 and the second support 320, camera 200 sets up in the first end of second support 320, first end and second end are the both ends that deviate from mutually, under this condition, in order to realize camera 200 to the shooting of shooing the material (for example the experiment picture under the experimental scene), camera 200 can install on second support 320 and be close to the one side of shooing the material, and simultaneously, the opening direction of first contained angle between first support 310 and the second support 320 can be towards shooing the material, thereby can make things convenient for the shooting of camera 200.

The first bracket 310 is connected with the second bracket 320, so that when the first bracket 310 rotates relative to the box body 100, the first bracket 310 drives the second bracket 320 to rotate relative to the box body 100, the camera 200 can rotate relative to the box body 100 along with the second bracket 320, and the camera 200 can realize shooting functions at different positions.

The user can use camera 200 when using the camera to shoot, can close camera 200 when not needing the camera to shoot, this makes camera 200 have different states, under the condition that camera 200 is in the first state, camera 200 is in when not shooting the state, if the user wants the camera to occupy less space, can accomodate first support 310, can make first support 310 drive second support 320 towards the direction motion that is close to box 100, and make first support 310 accomodate in installation space 110, thereby make the camera occupy less space, can convenience of customers's accomodation. Of course, in this state, the first bracket 310, the second bracket 320, and the camera head 200 may be accommodated in the installation space 110.

Under the condition that the camera 200 is in the second state, that is, when the camera 200 is in the shooting state, in order to realize shooting of the target shooting material by the camera, a user can rotate the first support 310 to adjust the position of the camera 200, the user can operate the first support 310 to drive the second support 320 to move towards the direction away from the box 100, and the first support 310 is unfolded on the box 100, so that the camera 200 can be indirectly supported by the box 100, and a shooting function is realized.

The camera disclosed in the embodiment of the present application improves the structure of the camera in the related art, by arranging the box 100, the box 100 can be placed on the supporting surface 900, so that the box 100 can be used as a supporting structure while being supported by the supporting surface 900, to support the cradle assembly 300 connected thereto, since the camera head 200 is mounted on the cradle assembly 300, so that the case body 100 can indirectly support the camera 200 when supporting the bracket assembly 300, so that the user can directly use the camera under the condition that the camera does not need to use installation equipment and an installation site, the technical scheme adopted by the embodiment of the application can solve the problem that in many cases, the experimental scene is not provided with a place and equipment suitable for installing a camera, so that the use of the user is troubled.

In the camera disclosed in the embodiment of the present application, the camera may further include a first rotating shaft structure, and the first bracket 310 is rotatably connected to the case 100 through the first rotating shaft structure, and the first rotating shaft structure may facilitate the rotatable connection between the first bracket 310 and the case 100, so as to facilitate the rotation of the first bracket 310 relative to the case 100. The first pivot structure that this application embodiment disclosed can be articulated shaft or hinge etc. and this application embodiment does not carry out specific restriction to the structure of first pivot structure.

In a further technical solution, in order to realize that the first bracket 310 can be steplessly adjusted relative to the box 100, that is, the first bracket 310 can stop at any position when rotating relative to the box 100, the first rotating shaft structure may be a damping shaft 500, the damping shaft 500 includes a first connecting portion 510, a second connecting portion 520 and a connecting shaft 530, the first connecting portion 510 and the second connecting portion 520 are all sleeved on the connecting shaft 530, the first connecting portion 510 is connected with the connecting shaft 530, the second connecting portion 520 is rotatably connected with the connecting shaft 530, the first connecting portion 510 is connected with a first end of the first bracket 310, and the second connecting portion 520 is connected with the box 100.

In the above case, when the first bracket 310 rotates with respect to the case 100, it is embodied in the damping shaft 500 that the first connection portion 510 rotates with respect to the second connection portion 520 on the connection shaft 530. Specifically, when the camera 200 is switched between the first state and the second state, the first bracket 310 can drive the first connecting portion 510 to rotate on the connecting shaft 530 relative to the second connecting portion 520, and because the second connecting portion 520 is connected to the box 100, the first bracket 310 can rotate relative to the box 100, so that the position of the first bracket 310 on the box 100 can be adjusted, and the requirements of users for shooting and accommodating different positions of the first bracket 310 can be met. When the damping shaft 500 realizes a specific function, the function can be realized by friction damping between the connecting shaft 530 and the second connecting portion 520, and can also be realized by spring damping between the connecting shaft 530 and the second connecting portion 520, and the embodiment of the present application does not specifically limit the way of realizing the function of the damping shaft 500.

In the video camera disclosed in the embodiment of the present application, the case 100 may have a connection space, the damping shaft 500 is installed in the connection space, the first connection portion 510 and the second connection portion 520 are both sheet-shaped structures, and the first connection portion 510 and the second connection portion 520 are arranged in parallel. In this case, the first connection portion 510 and the second connection portion 520 of the sheet structure can be embedded in the box 100, and the area of the sheet structure is large, so that the damping shaft 500 can be prevented from occupying additional space, and the rotational connection strength between the first bracket 310 and the box 100 can be improved by the sheet first connection portion 510 and the second connection portion 520 arranged in parallel.

In the camera disclosed in the embodiment of the present application, positioning groove 511 may have been seted up to first connecting portion 510, first support 310 may include reference column 311, positioning groove 511 and reference column 311 location fit, thereby can make the cooperation relation between first connecting portion 510 and first support 310 clear and definite, be favorable to realizing the location between first connecting portion 510 and the first support 310 and be connected, thereby can increase the stability of first support 310 when rotating for box 100, be used for avoiding rocking that first support 310 produced when rotating and cause the influence to the shooting of camera 200.

In a further embodiment, the first connection portion 510 may further include a first connection hole 512, the damping shaft 500 may further include a first connection member 540, the first bracket 310 may include a second connection hole 312, and the first connection portion 510 is detachably connected to the first bracket 310 through the cooperation of the first connection member 540, the first connection hole 512 and the second connection hole 312. In this case, the first connecting member 540 can facilitate the connection between the first connecting portion 510 and the first bracket 310 through the first connecting hole 512 and the second connecting hole 312, so that the positioning connection between the first connecting portion 510 and the first bracket 310 can be strengthened, and the connection stability between the first connecting portion 510 and the first bracket 310 is better. The detachable connection mode in the embodiment of the application can also be plug-in connection or buckle connection, and the embodiment of the application does not specifically limit the detachable connection mode.

In an optional scheme, the camera may further include a fixed connection portion 600, the fixed connection portion 600 includes a third connection portion 610 and a fourth connection portion 620, an included angle is formed between the third connection portion 610 and the fourth connection portion 620, and the third connection portion 610 and the fourth connection portion 620 form an integrated bending structure, the third connection portion 610 is detachably connected to the second connection portion 520, and the fourth connection portion 620 is detachably connected to the box body 100.

Under the above circumstances, damping axle 500 can not directly link to each other with box 100, first support 310 is when rotating, the torsional force that damping axle 500 received can transmit to fixed connection portion 600 earlier, and can not directly transmit to box 100 on, and because third connecting portion 610 and fourth connecting portion 620 have the contained angle between them, and both form the bending structure of integral type, make the power that fixed connection portion 600 received can further disperse to third connecting portion 610 and fourth connecting portion 620 on, thereby make the box 100 that links to each other with fourth connecting portion 620, the torsional force that receives when first support 310 rotates is less, and then can promote the protection degree to box 100.

In the video camera disclosed in the embodiment of the present application, the first cradle 310 may include a first cradle housing 313 and a first cradle main body 314, the first cradle main body 314 being disposed in the first cradle housing 313, and the first cradle main body 314 being detachably coupled to the first cradle housing 313. In this case, the first holder main body 314 is a functional structure of the first holder 310, and the first holder case 313 can exert a protective action on the first holder main body 314, and at the same time, the first holder case 313 can bear a part of the force when the first holder 310 rotates, so that it is possible to prevent the entire force when the first holder 310 rotates from being borne by the first holder main body 314, and further, it is possible to reduce the force received by the first holder main body 314, and exert a protective action on the first holder main body 314.

In a further technical scheme, first support main part 314 can also include support body 3141 and a plurality of flexible body 3142, be provided with spliced pole 3141a on the support body 3141, flexible body 3142 overlaps on locating spliced pole 3141a, flexible body 3142 links to each other with the second end of second support 320, a plurality of flexible bodies 3142 are head and the tail sliding connection in proper order, under this kind of condition, first support main part 314 is the telescopic structure, thereby can drive camera 200 through second support 320 and realize shooing at the height of difference, thereby can increase camera 200's shooting scope. The flexible body 3142 is sleeved on the connecting column 3141a, so that the connecting column 3141a can limit the flexible body 3142, so that the connecting column 3141a can prevent the flexible body 3142 from falling off, and further the stability of connection between the flexible body 3142 and the support body 3141 can be improved, the connecting column 3141a can be a solid cylinder, certainly, in an optional scheme, the connecting column 3141a can also be a hollow cylinder, so that the hollow structure can facilitate the threading inside the camera, and meanwhile, the weight reduction of the camera is facilitated. The shape of the connection post 3141a is not particularly limited in the embodiments of the present application.

In the operation process, the first holder main body 314 can be adjusted according to different use states of the user for the camera 200, specifically, when the camera 200 is in the first state, the user can store the first holder main body 314, so that the plurality of telescopic bodies 3142 are retracted into the first holder housing 313 to reduce the space occupied by the first holder main body 314. In the case where the camera 200 is in the second state, at this time, the user needs to use the camera 200 to take a picture, and the user can operate the plurality of telescopic bodies 3142 to at least partially protrude out of the first bracket housing 313, so that the camera 200 can take a picture at a higher position, thereby increasing a shooting range of the camera 200.

In an optional scheme, the video camera disclosed in the embodiment of the present application may further include a cable assembly 1000, the cable assembly 1000 may include an elastic cable 1100 and a fixing member 1200, the elastic cable 1100 is disposed in the aperture of the telescopic body 3142, both ends of the elastic cable 1100 are connected to the fixing member 1200, a first end of the elastic cable 1100 passes through the aperture and is connected to a second end of the second bracket 320 through the fixing member 1200, a second end of the elastic cable 1100 passes through the aperture and is fixedly connected to the bracket body 3141 through the fixing member 1200, when the camera 200 is in the first state, the plurality of telescopic bodies 3142 drive the elastic cable 1100 to extend, and when the camera 200 is in the second state, the plurality of telescopic bodies 3142 drive the elastic cable 1100 to retract.

In the above case, data can be transmitted between the camera 200 and the housing 100 via a high speed signal line, and the high speed signal line can sequentially pass through the first holder 310 and the second holder 320 from the inside of the housing 100, and finally, the signal electrical connection with the camera 200 is realized. Specifically, the high-speed signal line may be a cable structure including the cable assembly 1000, so that the elastic cable 1100 can extend or retract synchronously along with the plurality of telescopic bodies 3142 in the aperture of the telescopic body 3142, and thus, when the function of the telescopic body 3142 is realized, data transmission in the camera is not affected.

Meanwhile, both ends of the elastic cable 1100 are connected with the fixing members 1200, and the first end of the elastic cable 1100 passes through the aperture and is connected with the second end of the second bracket 320 through the fixing members 1200, and the second end passes through the aperture and is fixedly connected with the bracket body 3141 through the fixing members 1200, so that both ends of the elastic cable 1100 with elasticity are fixed, and thus, in the process of retracting and stretching the elastic cable 1100, the first end and the second end of the elastic cable 1100 do not interfere with each other and do not affect other parts of the cable structure (for example, parts of linear cables connected with both ends of the elastic cable 1100).

In order to realize that the elastic cable 1100 can be easily retracted and stretched in the aperture of the telescopic body 3142, the minimum numerical value of the aperture of the telescopic body 3142 may be greater than the maximum numerical value of the outer diameter of the elastic cable 1100, which may be beneficial for the user to operate when using the telescopic function of the bracket assembly 300, and meanwhile, the elastic cable 1100 may be prevented from being seriously worn due to the large friction force between the elastic cable 1100 and the telescopic body 3142.

Meanwhile, in order to ensure that the plurality of telescopic bodies 3142 can be maximally extended, when the plurality of telescopic bodies 3142 are in the maximally extended state, the elastic cable 1100 is also in the maximally extended state, and the elastic restoring force of the elastic cable 1100 at this time may be set to be smaller than the resistance of the retracting force of the plurality of telescopic bodies 3142. In a further aspect, the elastic restoring force of the elastic cable 1100 at this time may be set to be much smaller than the resistance of the retracting force of the telescopic bodies 3142, so that when the telescopic bodies 3142 are in the maximum extension state, the telescopic bodies 3142 are not driven by the elastic cable 1100 to retract, so as to maintain the telescopic bodies 3142 in the maximum extension state, and further achieve the shooting of the camera 200 at the maximum height value.

In the camera disclosed in the embodiment of the present application, the camera may further include a second rotating shaft structure 400, the second end of the first support 310 is rotatably connected to the second rotating shaft structure 400, the second end of the second support 320 is rotatably connected to the second rotating shaft structure 400, so that the first support 310 and the second support 320 can rotate relatively, that is, the second support 320 and the first support 310 can adjust the angle of the first included angle through the second rotating shaft structure 400, so that the first included angle is greater than or equal to 0 °, and is less than or equal to 90 °, so that the camera 200 can change the shooting range along with the change of the size of the first included angle, and further the shooting flexibility of the camera 200 is improved.

In a further technical solution, a second included angle may exist between the first bracket 310 and the box 100, the angle of the second included angle is adjusted by the first rotating shaft structure between the first bracket 310 and the box 100, the second included angle is greater than or equal to 0 ° and less than or equal to 90 °, when the camera 200 is in the first state, the first included angle is 0 °, the second included angle is 0 °, the first bracket 310 and the second bracket 320 are arranged in parallel and all accommodated in the installation space 110, when the camera 200 is in the second state, the first included angle is greater than 0 °, and less than or equal to 90 °, the second included angle is greater than 0 °, and less than or equal to 90 °, and the first bracket 310 drives the second bracket 320 to expand outside the installation space 110.

Under the above circumstances, when the camera 200 is in the non-shooting state, the first bracket 310 and the second bracket 320 can both be accommodated in the installation space 110 to reduce the accommodation space of the camera, and when the camera 200 is in the shooting state, both the first included angle and the second included angle can be 90 °, so that the first bracket 310 and the box 100 are perpendicular to each other, the first bracket 310 and the second bracket 320 are perpendicular to each other, at this time, the shooting range of the camera 200 can be in a larger range, thereby being beneficial to the shooting of the camera 200. Certainly, first contained angle and second contained angle still can be other angles, and the user can adjust according to the shooting demand, and this application embodiment does not carry out specific restriction to the angle of first contained angle and second contained angle.

In the camera disclosed in the embodiment of the present application, the camera may include a diaphragm assembly 700, the diaphragm assembly 700 being disposed in the installation space 110, and a grip 710 being disposed on the diaphragm assembly 700. In this case, the setting of gripping member 710 can be favorable to the user to carry the camera to can promote the user and experience the whole use of camera.

In a further embodiment, the camera may further include at least two bracket assemblies 300, the partition assembly 700 divides the installation space 110 into two sub-installation spaces, the two bracket assemblies 300 are respectively disposed in the two sub-installation spaces, and the two bracket assemblies 300 are disposed at two ends of the box 100. In this case, at least two stand assemblies 300 can be provided with at least two cameras 200, so that the photographing range of the camera can be increased. Since the two bracket assemblies 300 are respectively disposed in the two sub-installation spaces, and the two bracket assemblies 300 are disposed at the two ends of the box 100, the two bracket assemblies 300 can balance the stress at the two ends of the box 100, and when a user carries or uses the camera, the overall state of the camera is stable, and the camera cannot be tilted.

Meanwhile, since the two bracket assemblies 300 are disposed at both ends of the box 100, when one bracket assembly 300 can be accommodated in one sub-installation space by 90 degrees, another bracket assembly 300 can be disposed to be accommodated in another sub-installation space by-90 degrees, thereby realizing that the two bracket assemblies 300 can be accommodated on the box 100.

In the camera disclosed in the embodiment of the present application, the box 100 can include the supporting portion 120, the supporting portion 120 is disposed at the bottom of the box 100, the supporting portion 120 is a plane structure, the supporting portion 120 offsets with the supporting surface 900, make the supporting portion 120 available for the contact of conflicting with the supporting surface 900, thereby make the supporting portion 120 of supporting surface 900 accessible box 100 realize the support to the box 100, thereby realize the support to whole camera, and the supporting portion 120 of plane structure can promote the stability that box 100 and supporting surface 900 contradict, and then can promote the stability when whole camera is supported, be favorable to promoting the shooting quality of camera.

In a further technical solution, the camera may further include a suction cup structure 800, the supporting portion 120 is provided with a mounting hole, and the suction cup structure 800 is mounted in the mounting hole. In this case, the suction cup structure 800 may be embedded in the mounting hole of the supporting portion 120, and the suction cup structure 800 may realize the suction function to the supporting surface 900, so that the contact of the supporting surface 900 with the box 100 may be more stable, and the stability of the camera when being placed on the supporting surface 900 may be further increased. The number of the sucker structures 800 may be multiple, and when the sucker structures 800 exert the sucking and positioning functions on the supporting surface 900 at the same time, the suction force between the box body 100 and the supporting surface 900 is larger, and the box body 100 can support the camera 200 more stably.

In the camera disclosed in the embodiment of the present application, the suction cup structure 800 may include a suction cup upper cover 810 and a suction cup main body 820, the suction cup upper cover 810 is fixedly connected to the mounting hole, the suction cup upper cover 810 is movably connected to the suction cup main body 820, the suction cup main body 820 is provided with a sealed space 826 and a vent 821, the sealed space 826 is communicated with the vent 821, in this case, the sealed space 826 is a space capable of containing air between the suction cup main body 820 and the supporting surface 900, and the vent 821 is mainly used for communicating the sealed space 826 with the external environment.

In the specific use process of the suction cup structure 800, under the condition that the suction cup structure 800 is in the third state, that is, when the suction cup structure 800 is in the state of adsorption positioning, the user can press the box body 100, so that the box body 100 can drive the suction cup upper cover 810 and the suction cup main body 820 to move relatively, so that the suction cup upper cover 810 abuts against the suction cup main body 820, at this time, the vent 821 and the external environment are isolated, along with the continuous pressing of the user on the box body 100, the air in the suction cup structure 800 circulates into the sealed space 826 from the vent 821, and finally the air in the sealed space 826 is squeezed into the external environment from the edge of the sealed space 826, and further the air in the sealed space 826 can be ignored, the suction cup structure 800 can be adsorbed on the supporting surface 900 with a large adsorption force, so as to realize the function of adsorption positioning of the suction cup structure 800.

When the suction cup structure 800 needs to release the suction positioning function, i.e., when the suction cup structure 800 is in the fourth state, the user can pull the box 100 in the direction perpendicular to the supporting surface 900, so that the box body 100 can drive the suction cup upper cover 810 and the suction cup main body 820 to move relatively, so that a gap exists between the suction cup upper cover 810 and the suction cup main body 820, and the vent hole 821 is communicated with the external environment by the gap, so that the air in the external environment can enter into the vent hole 821 from the gap, so that the air in the ventilation holes 821 can enter the sealed space 826, and as the air continuously enters the sealed space 826, the suction force of the suction cup structure 800 to the supporting surface 900 is gradually reduced, therefore, when the user uses a small lifting force, the box body 100 can be removed from the supporting surface 900, and the user with small strength can not be limited during operation. The above-mentioned mode that sets up sucker structure 800 undoubtedly can convenience of customers to sucker structure 800's use to can promote the user and to the whole use impression of camera.

In a further aspect, with the suction cup structure 800 in the third state, the bottom surface of the suction cup main body 820 may be coplanar with the bottom surface of the support portion 120. In this case, the bottom surface is a surface that can collide with the supporting surface 900, and when the suction cup structure 800 performs the function of sucking and positioning the supporting surface 900, the coplanar arrangement can prevent the bottom surface of the suction cup main body 820 from protruding from the bottom surface of the supporting portion 120, so that the contact area between the supporting portion 120 and the supporting surface 900 is ensured.

In the camera disclosed in the embodiment of the present application, the suction cup main body 820 may include a suction cup middle cover 822, a suction cup silicone pad 823, a suction cup lower cover 824, and a second connecting member 825, the suction cup middle cover 822, the suction cup silicone pad 823, and the suction cup lower cover 824 are all provided with corresponding third connecting holes, and the suction cup middle cover 822, the suction cup silicone pad 823, and the suction cup lower cover 824 are detachably connected to the second connecting member 825 through the third connecting holes. Under this condition, sucking disc silica gel pad 823 is the main structure piece that adsorbs the location in the sucking disc main part 820, realizes being connected in proper order through second connecting piece 825 and third connecting hole between lid 822, sucking disc silica gel pad 823 and the sucking disc lower cover 824 in the sucking disc for lid 822 and sucking disc lower cover 824 can be with sucking disc silica gel pad 823 centre gripping between the two in the sucking disc, thereby realize the fixed to sucking disc silica gel pad 823, and then guarantee that sucking disc structure 800 can stably realize adsorbing the function of location.

In the video camera disclosed in the embodiment of the present application, the suction cup middle cover 822 may further include a snap 8222, and the suction cup upper cover 810 may further include a bridging portion 811, where the snap 8222 is engaged with the bridging portion 811, so that the engagement between the suction cup upper cover 810 and the suction cup middle cover 822 may be achieved through the snap 8222 and the bridging portion 811.

In the process of matching the buckle 8222 with the overlapping portion 811, specifically, under the condition that the suction cup structure 800 is in the third state, the buckle 8222 protrudes out of the overlapping portion 811, the vent hole 821 is isolated from the external environment by the buckle 8222 and the overlapping portion 811, in this case, the suction cup upper cover 810 is driven by the box 100, when the suction cup middle cover 822 moves relative to the suction cup, the overlapping portion 811 is driven by the suction cup upper cover 810 and moves relative to the buckle 8222, so that the suction cup upper cover 810 is abutted against the suction cup middle cover 822, at this time, because the suction cup upper cover 810 moves towards the direction close to the suction cup middle cover 822, the buckle 8222 on the suction cup middle cover 822 protrudes out of the overlapping portion 811 on the suction cup upper cover 810, the vent hole 821 is isolated from the external environment, and further the box 100 is convenient to adsorb and position to the supporting surface 900.

When suction cup structure 800 needs to remove the adsorption positioning function, namely, under the condition that suction cup structure 800 is in the fourth state, buckle 8222 is in interference fit with overlapping part 811, there is a gap between suction cup upper cover 810 and suction cup middle cover 822, vent 821 is communicated with the external environment by the gap, under this condition, overlapping part 811 moves towards the direction far away from suction cup middle cover 822 due to following suction cup upper cover 810, make buckle 8222 switch to buckle 8222 and overlap part 811 interference fit by protrusion in overlapping part 811, at this moment, the gap is the maximum value, thereby can be favorable to the air in the external environment to pass through gap entering vent 821, and then get into sealed space 826, and be used for realizing the adsorption positioning function between suction cup structure 800 contact and supporting surface 900.

Meanwhile, the interference fit between the buckle 8222 and the overlapping portion 811 limits the distance of the suction cup upper cover 810 from the suction cup middle cover 822, thereby preventing the suction cup upper cover 810 from excessively moving relative to the suction cup middle cover 822 and completely separating the suction cup upper cover 810 from the suction cup middle cover 822. The matching relationship between the snap 8222 and the overlapping portion 811 can ensure the stable matching relationship between the suction cup upper cover 810 and the suction cup middle cover 822.

In a further technical solution, the suction cup middle cover 822 may further include a positioning member 8221, the suction cup upper cover 810 may further include a positioning fitting member 812, and the suction cup middle cover 822 and the suction cup upper cover 810 are in positioning fitting with the positioning fitting member 812 through the positioning member 8221, so that the positioning fitting between the suction cup upper cover 810 and the suction cup middle cover 822 may be realized through the positioning member 8221 and the positioning fitting member 812, and thus the stability of the mutual fitting between the suction cup upper cover 810 and the suction cup middle cover 822 may be further improved.

In an alternative solution, the positioning member 8221 may be a plate-shaped structure, and the positioning matching member 812 may be a slot capable of being sleeved on the plate-shaped structure, so that when the suction cup cover 810 moves relative to the suction cup cover 822, the positioning member 8221 and the positioning matching member 812 can be matched with each other, thereby helping to improve the stability of the position relationship between the suction cup cover 810 and the suction cup cover 822.

Meanwhile, the positioning elements 8221 may be plural, the positioning elements 8221 are uniformly distributed along the circumferential direction of the suction cup middle cover 822, the positioning matching elements 812 may also be plural, the positioning matching elements 812 are uniformly distributed along the circumferential direction of the suction cup upper cover 810, and the positioning elements 8221 and the positioning matching elements 812 are in one-to-one correspondence. Under the condition, when the positioning parts 8221 and the positioning matching parts 812 are matched one by one, the position matching relationship between the suction cup middle cover 822 and the suction cup upper cover 810 can be more accurate and stable, so that the mutual matching between the suction cup middle cover 822 and the suction cup upper cover 810 is facilitated to realize the adsorption function of the suction cup structure 800.

In the camera disclosed in the embodiment of the present application, the sealing installation space can be seted up to lid 822 in the sucking disc, sucking disc silica gel pad 823 can include protruding 8231 and silica gel main part 8232 of silica gel, protruding 8231 and silica gel main part 8232 of silica gel can the formula structure as an organic whole, protruding 8231 and the cooperation installation of sealing installation space of silica gel, and protruding 8231 protrusion in sealing installation space of silica gel, under this kind of condition, protruding 8231 and silica gel main part 8232 of integral type structure are favorable to the manufacturing of sucking disc silica gel pad 823.

Under the condition that suction cup structure 800 is in the third state, suction cup upper cover 810 moves towards the direction close to suction cup middle cover 822, because protruding 8231 of silica gel is installed with the cooperation of seal installation space, and protruding 8231 of silica gel protrudes in seal installation space, make protruding 8231 of silica gel contradict with suction cup upper cover 810, and protruding 8231 of silica gel has good leakproofness, thereby make between air vent 821 and the external environment by protruding 8231 of silica gel keep apart, at this moment, air in the external environment can not enter into seal space 826, air in seal space 826 is extruded outside seal space 826 gradually in the extruded in-process of user, for realize suction cup structure 800's absorption locate function.

Under the condition that the suction cup structure 800 is in the fourth state, the suction cup upper cover 810 moves towards the direction away from the suction cup middle cover 822, so that a gap exists between the silica gel protrusion 8231 and the suction cup upper cover 810, and the vent hole 821 is communicated with the external environment by the gap, so that air in the external environment enters the sealed space 826 to release the adsorption positioning function of the suction cup structure 800 on the supporting surface 900.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A camera, comprising a housing (100), a camera (200), and a carriage assembly (300), wherein:

the box body (100) can be placed on a supporting surface (900), the box body (100) can support the bracket assembly (300), the box body (100) comprises an installation space (110), the bracket assembly (300) is rotatably connected with the box body (100), the camera (200) is arranged on the bracket assembly (300),

the bracket component (300) comprises a first bracket (310) and a second bracket (320), the first end of the first bracket (310) is rotatably connected with the box body (100), the second end of the first bracket (310) is connected with the second end of the second bracket (320), a first included angle is formed between the first bracket (310) and the second bracket (320), the camera (200) is arranged at the first end of the second bracket (320), and the first end and the second end are two ends deviating from each other,

under the condition that the camera (200) is in the first state, the first bracket (310) drives the second bracket (320) to move towards the direction close to the box body (100), and the first bracket (310) is accommodated in the installation space (110),

under the condition that the camera (200) is in the second state, the first support (310) drives the second support (320) to move towards the direction far away from the box body (100), and the first support (310) is unfolded on the box body (100).

2. The camera of claim 1, further comprising a first pivot structure by which the first bracket (310) is pivotally coupled to the housing (100).

3. The camera according to claim 2, wherein the first pivot structure is a damping shaft (500), the damping shaft (500) comprises a first connecting portion (510), a second connecting portion (520) and a connecting shaft (530), the first connecting portion (510) and the second connecting portion (520) are sleeved on the connecting shaft (530), the first connecting portion (510) is connected with the connecting shaft (530), the second connecting portion (520) is rotatably connected with the connecting shaft (530),

the first connecting part (510) is connected to the first end of the first bracket (310), the second connecting part (520) is connected to the case (100),

when the camera (200) is switched between the first state and the second state, the first bracket (310) drives the first connecting part (510) to rotate on the connecting shaft (530) relative to the second connecting part (520).

4. The camera according to claim 3, wherein the housing (100) has a connection space, the damping shaft (500) is installed in the connection space, the first connection portion (510) and the second connection portion (520) are both sheet-shaped structures, and the first connection portion (510) and the second connection portion (520) are arranged in parallel.

5. The camera according to claim 3, wherein the first connecting portion (510) defines a positioning slot (511), the first bracket (310) includes a positioning post (311), and the positioning slot (511) is in positioning engagement with the positioning post (311).

6. The camera of claim 5, wherein the first connection portion (510) further comprises a first connection hole (512), wherein the damping shaft (500) further comprises a first connection member (540), wherein the first bracket (310) comprises a second connection hole (312), and wherein the first connection portion (510) is detachably connected to the first bracket (310) by the cooperation of the first connection member (540), the first connection hole (512) and the second connection hole (312).

7. The camera according to claim 1, wherein the first cradle (310) comprises a first cradle housing (313) and a first cradle main body (314), the first cradle main body (314) being disposed in the first cradle housing (313), and the first cradle main body (314) being detachably connected to the first cradle housing (313).

8. The camera according to claim 7, wherein the first bracket main body (314) comprises a bracket body (3141) and a plurality of telescopic bodies (3142), a connection column (3141a) is arranged on the bracket body (3141), the telescopic bodies (3142) are sleeved on the connection column (3141a),

the telescopic bodies (3142) are connected with the second end of the second bracket (320), the telescopic bodies (3142) are sequentially connected in an end-to-end sliding manner,

-with the camera head (200) in the first state, the plurality of telescopic bodies (3142) are retracted into the first cradle housing (313),

the plurality of telescoping bodies (3142) extend at least partially out of the first cradle housing (313) with the camera head (200) in the second state.

9. The camera of claim 2, further comprising a second pivot structure (400), wherein the second end of the first bracket (310) is pivotally connected to the second pivot structure (400), wherein the second end of the second bracket (320) is pivotally connected to the second pivot structure (400),

the second support (320) and the first support (310) are used for adjusting the angle of the first included angle through the second rotating shaft structure (400), and the first included angle is larger than or equal to 0 degree and smaller than or equal to 90 degrees.

10. The camera according to claim 1, wherein the housing (100) comprises a support portion (120), the support portion (120) is disposed at a bottom of the housing (100), the support portion (120) has a planar structure, and the support portion (120) is in contact with the supporting surface (900).

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