CN110325906A - Connection component and self-shooting bar, filming apparatus for fixed camera - Google Patents

Abstract

Self-shooting bar (300), filming apparatus of the one kind for the connection component (100) of fixed camera (200) and including the connection component, wherein the connection component (100) includes ontology (1), further includes on ontology (1) to the sliding part (2) being slidably matched with camera (200) and the limit assembly (3) being at least partially housed in sliding part (2)；Limit assembly (3) can be selectively in lock state or unlocked state；When limit assembly (3) switches to lock state, limit assembly (3) is partially caught in camera (200) and camera (200) is locked on sliding part (2)；When limit assembly (3) switches to unlocked state, limit assembly (3) is loosened in camera (200), and camera (200) is removed from sliding part (2).By the way that sliding part (2) are arranged, camera (200) is tentatively assemblied on connection component (100), by the way that limit assembly (3) are arranged, further camera (200) is limited, it is moved in glide direction with limiting camera (200), to which camera (200) is locked on connection component (100), realize the detachable assembly of camera (200) and connection component (100), the Assembly And Disassembly mode of camera (200) is simple, quick.

Description

Connection component and self-shooting bar, filming apparatus for fixed camera Technical field

The present invention relates to camera mounting structure field more particularly to a kind of connection component and self-shooting bar, filming apparatus for fixed camera.

Background technique

Currently, being shot to preferably control camera, need for camera to be fixed on certain carrying structures (for example, tripod, bike rack etc.).For example, camera can be fixed on carrying structure by way of screw thread and screw cooperation, to prevent camera from falling, the installation and removal of camera are more troublesome.

Summary of the invention

The present invention provides a kind of connection component for fixed camera and self-shooting bar, filming apparatus.

Specifically, the present invention is achieved through the following technical solutions:

The present invention provides a kind of connection component, for fixed camera, the connection component includes ontology, and the connection component further includes on the ontology to the sliding part being slidably matched with the camera and the limit assembly being at least partially housed in the sliding part；Wherein, the limit assembly can be selectively in lock state or unlocked state；When the limit assembly switches to the lock state, the limit assembly part is caught in the camera and the camera is locked on the sliding part；When the limit assembly switches to the unlocked state, the limit assembly is loosened in the camera, and the camera is removed from the sliding part.

Optionally, the sliding part is slide protrusion, and the slide protrusion includes the first guide end and first joint end opposite with first guide end, and first guide end is to guide the camera to slide into the slide protrusion.

Optionally, the width of the slide protrusion becomes larger from first guide end to first joint end；And/or the height of the slide protrusion becomes larger from first guide end to first joint end；The camera slides to first joint end from first guide end, and the gap between the camera and the slide protrusion gradually becomes smaller；The camera slides to first joint end, and the slide protrusion and camera clamping connect.

Optionally, two sliding surface of slide protrusion angle formed by the glide direction is 2 degree；And/or the slide protrusion top surface and horizontal plane formed by angle be 0.5 degree.

Optionally, the sliding part is sliding recess, and the sliding recess includes the second guide end and second joint end opposite with second guide end, and second guide end is to guide the camera to slide into the sliding recess.

Optionally, the width of the sliding recess gradually becomes smaller from second guide end to second joint end；And/or the depth of the sliding recess gradually becomes smaller from second guide end to second joint end；The camera slides to second joint end from second guide end, and the gap between the camera and the sliding recess gradually becomes smaller；The camera slides to second joint end, and the sliding recess and camera clamping connect.

Optionally, the joint end is equipped with accommodation groove, and the limit assembly includes stop plunger, and the stop plunger is at least partially housed in the accommodation groove.

Optionally, the limit assembly further includes the first elastic portion being connected with the stop plunger, and first elastic portion is contained in the accommodation groove；When the limit assembly switches to the lock state, the stop plunger partially protrudes from the accommodation groove under the resilient force of first elastic portion and is caught in the camera；When the limit assembly switches to the unlocked state, the stop plunger is contained in the accommodation groove completely under the action of the elastic force of first elastic portion and separates with the camera.

Optionally, the connection component further includes the solution lock set matched with the stop plunger；The solution lock set is optionally in the lock state or the unlocked state for controlling the limit assembly.

Optionally, the solution lock set include operation portion, the second elastic portion and with the stop plunger phase The press section of cooperation, second elastic portion one end connect the operation portion, and the other end connects the press section；Towards close to the movement of the direction of the stop plunger, the press section drives the stop plunger to move to the stop plunger towards the direction far from the camera and is contained in the accommodation groove completely the operation portion；The operation portion is mobile towards the direction far from the stop plunger, and the press section drives the stop plunger to move to the stop plunger part towards the direction close to the camera and protrudes from the accommodation groove.

Optionally, the press section includes the first inclined-plane, and the stop plunger includes the second inclined-plane with first inclined-plane cooperation；The operation portion is towards close to the movement of the direction of the stop plunger, and first inclined-plane drives the described second direction movement for tiltedly facing away from the camera, so that the stop plunger is contained in completely in the accommodation groove；The operation portion is mobile towards the direction far from the stop plunger, and first inclined-plane drives second inclined-plane to move towards the direction close to the camera, so that the stop plunger part protrudes from the accommodation groove.

Optionally, the connection component further includes the electrical contact end on the sliding part；One end of the electrical contact end is electrically connected with the phase mechatronics, the other end with carrying structure.

Optionally, the electrical contact end includes to multiple contacts with the phase mechatronics.

The present invention also provides a kind of self-shooting bars, comprising: the body of rod；The handle of described body of rod one end is set；And the above-mentioned connection component to carry the camera of the body of rod other end is set.

Optionally, the handle is equipped with control unit, the self-shooting bar further includes conducting wire, one end of the conducting wire is electrically connected with the control unit, the other end is electrically connected with the electrical contact end of the connection component, when the camera is fixed to the connection component, the electrical contact end of the connection component is with the phase mechatronics so that the conducting wire is electrically connected with camera realization；Or,

The conducting wire is contained in the inside of the body of rod, and the body of rod is telescopic rod, and the conducting wire is fish line conductor；Or,

The connection component is arranged by a shaft in the body of rod other end.

The present invention also provides a kind of filming apparatus, including camera and above-mentioned connection component, and the connection component is to the fixation camera.

Optionally, the camera be equipped with the auxiliary section that is slidably matched with the sliding part in the connection component and On the auxiliary section to in the connection component limit assembly cooperation plunger hole；When the limit assembly switches to the lock state, the limit assembly part is caught in the plunger hole and the camera is locked on the sliding part；When the limit assembly switches to the unlocked state, the limit assembly is loosened in the plunger hole, and the camera is removed from the sliding part；Or,

The auxiliary section is equipped with multiple camera contacts, and the camera contact with multiple contacts in the connection component electrically to cooperate.

From the above technical solution provided in an embodiment of the present invention, the present invention passes through setting sliding part, camera is tentatively assembled on connection component, by the way that limit assembly is arranged, further camera is limited, is moved with limiting camera in glide direction, so that camera is locked on connection component, realize the detachable assembly of camera and connection component, the Assembly And Disassembly mode of camera is simple, quick.

It should be understood that above general description and following detailed description be only it is exemplary and explanatory, the present invention can not be limited.

Detailed description of the invention

To describe the technical solutions in the embodiments of the present invention more clearly, the accompanying drawings required for describing the embodiments of the present invention are briefly described below, apparently, drawings in the following description are only some embodiments of the invention, for those of ordinary skill in the art, without any creative labor, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is the perspective view of the connection component shown in one embodiment of the invention；

Fig. 2 is the perspective view of the connection component shown in one embodiment of the invention, discloses the matching relationship of camera and connection component；

Fig. 3 is the partial cutaway view of the connection component shown in one embodiment of the invention；

Fig. 4 is the sectional view of the connection component shown in one embodiment of the invention, discloses the positional relationship of the solution lock set and limit assembly when limit assembly is in the lock state；

Fig. 5 is the sectional view of the connection component shown in one embodiment of the invention, disclose limit assembly it is in the unlocked state when solution lock set and limit assembly positional relationship；

Fig. 6 is the partial structure diagram of the camera shown in one embodiment of the invention；

Fig. 7 is perspective view when self-shooting bar shown in one embodiment of the invention is in unfolded state；

Fig. 8 is perspective view when self-shooting bar shown in one embodiment of the invention is in contraction state；

Fig. 9 is the perspective view when self-shooting bar shown in the embodiment of the present invention is in contraction state on other direction；

Figure 10 is the perspective view of the filming apparatus shown in one embodiment of the invention, discloses the positional relationship that self-shooting bar is in each structure when unfolded state；

Figure 11 is the perspective view of the filming apparatus shown in one embodiment of the invention, discloses the positional relationship that self-shooting bar is in each structure when contraction state；

Figure 12 is the perspective view of filming apparatus in another direction shown in one embodiment of the invention, discloses the positional relationship that self-shooting bar is in each structure when contraction state.

Appended drawing reference:

100: connection component；

1: ontology；

2: sliding part；21: the first guide ends；22: the first joint ends；23: sliding surface；

3: limit assembly；31: stop plunger；32: the first elastic portions；

4: solution lock set；41: operation portion；42: the second elastic portions；43: press section；

5: electrical contact end；

200: camera；201: camera body；201a: auxiliary section；201b: electrical interface；201c: plunger hole；202: head assembly；202a: yaw shaft assembly；202b: pitching shaft assembly；202c: roll shaft assembly；203: camera lens；204: rotation axis；205: locating part；206: supporting parts；

300: self-shooting bar；301: the body of rod；302: handle；3021: control unit；3021a: trigger key；3021b: shutter key；3021c: record button；3021d: rocking bar；3022: indicator light；303: conducting wire；304: switching part；

400: shaft.

Specific embodiment

Example embodiments are described in detail here, and the example is illustrated in the accompanying drawings.In the following description when referring to the accompanying drawings, unless otherwise indicated, the same numbers in different drawings indicate the same or similar elements.Embodiment described in following exemplary embodiment does not represent all embodiments consistented with the present invention.On the contrary, they are only the examples of consistent with some aspects of the invention as detailed in the appended claims device and method.

It is only to be not intended to limit the invention merely for for the purpose of describing particular embodiments in terminology used in the present invention.It is also intended to including most forms, unless the context clearly indicates other meaning in the present invention and the "an" of singular used in the attached claims, " described " and "the".It is also understood that term "and/or" used herein refers to and includes that one or more associated any or all of project listed may combine.

It will be appreciated that though various information may be described using term first, second, third, etc. in the present invention, but these information should not necessarily be limited by these terms.These terms are only used to for same type of information being distinguished from each other out.For example, without departing from the present invention, the first information can also be referred to as the second information, similarly, the second information can also be referred to as the first information.Depending on context, word as used in this " if " can be construed to " ... when " or " when ... " or " in response to determination ".

With reference to the accompanying drawing, the connection component 100 and self-shooting bar 300, filming apparatus for fixed camera 200 of the invention is described in detail.In the absence of conflict, the feature in following embodiment and embodiment can be combined with each other.

Embodiment one

A kind of connection component 100 that the embodiment of the present invention one provides combined with Figure 1 and Figure 2, can be used for fixed camera 200.The connection component 100 may include ontology 1, sliding part 2 and limit assembly 3.Wherein, the sliding part 2 is set on the ontology 1, and the sliding part 2 is slidably matched with the camera 200, thus by the tentatively assembly of camera 200 on the connection component 100.It should be noted that the camera 200 is not limited to traditional camera 200 in the embodiment of the present invention, it can be also other electronic equipments with camera function, such as holder camera, mobile phone, tablet computer etc..In the present embodiment, institute Camera 200 is stated by taking holder camera as an example.

After the camera 200 is slidably matched with the sliding part 2, applying certain external force (direction of external force are as follows: when the camera 100 is fitted into the sliding part 2, the contrary direction that the camera 100 is slidably matched with the sliding part 2) to the camera 100 when, still the camera 100 can be removed from the connection component 100.Thus, limit assembly 3 is set, after the camera 100 is fitted into the sliding part 2, to the further limit of camera 100, the camera 100 is limited along glide direction (direction that the i.e. described sliding part 2 is slidably matched with the camera 200) sliding, to which the camera 100 to be locked on the connection component 100, prevent the camera 100 from accidentally slipping out.

Specifically, the limit assembly 3 is at least partially housed in the sliding part 2.In the present embodiment, the limit assembly 3 can be selectively in lock state or unlocked state.In conjunction with Fig. 2, Fig. 4 and Fig. 5, when the limit assembly 3 switches to the lock state (state of the limit assembly 3 in such as Fig. 4), 3 part of limit assembly is caught in the camera 200 and the camera 200 is locked on the sliding part 2, further the camera 200 is limited by the limit assembly 3, it limits the camera 200 to move along glide direction, to pass through the fixed camera 200 of connection component 100.When the limit assembly 3 switches to the unlocked state (state of the limit assembly 3 in such as Fig. 5), the limit assembly 3 is separated with the camera 200, to release limit of the camera 200 in glide direction, and then can remove the camera 200 from the sliding part 2, realize the quick separating of camera 200 and connection component 100.By the way that limit assembly 3 is arranged, the camera 200 is locked on the sliding part 2, the camera 200 is limited and continues to slide along glide direction.

In the embodiment of the present invention, by the way that sliding part 2 is arranged, by the tentatively assembly of camera 200 on connection component 100, by the way that limit assembly 3 is arranged, further camera 200 is limited, is moved in glide direction with limiting camera 200, so that camera 200 is locked on connection component 100, realize the detachable assembly of camera 200 and connection component 100, the Assembly And Disassembly mode of camera 200 is simple, quick.

The camera 200 can be slidably matched with the sliding part 2 by way of male-female engagement, can also be slidably matched by other means, can specifically be selected as needed.For example, in one embodiment, referring to Fig. 1, the sliding part 2 can be slide protrusion, to the fixation camera 200.Correspondingly, in conjunction with Fig. 2 and Fig. 6, the camera 200 include a sliding slot.The sliding slot is slidably matched with the slide protrusion, so that the camera 200 is detachably assembled on slide protrusion, assembly method is convenient and efficient.

Wherein, the slide protrusion may include the first guide end 21 and first joint end 22 opposite with first guide end 21.The camera 200 is assembled to the process of the slide protrusion are as follows: the sliding slot slides into first joint end 22 from first guide end 21, so that the camera 200 is tentatively fixed on the slide protrusion.Optionally, the edge of first guide end 21 is arc, is guided with the direction for sliding into slide protrusion to sliding slot, sliding slot described in rapid alignment and the slide protrusion.

Further, in some instances, the width of the slide protrusion becomes larger from first guide end 21 to first joint end 22, to guarantee that the sliding slot slides into, skids off the smooth sense of the slide protrusion.During the camera 200 is assembled to the slide protrusion, the camera 200 slides to first joint end 22 from first guide end 21, and the gap between the camera 200 and the slide protrusion gradually becomes smaller.When the camera 200 slides to first joint end 22, the slide protrusion and the camera 200 clamping are connected, to realize the preliminary assembly of camera 200.The present embodiment by the size of first guide end 21 is arranged slightly smaller than first joint end 22 size, so as to relatively rapid guide the sliding slot to slide into the slide protrusion from first guide end 21.When the camera 200 slides to first joint end 22, the top surface of first joint end, 22 top surface and the sliding slot, the side wall of first joint end 22 contact respectively with the side wall of the sliding slot, to which the slide protrusion to be connected in the sliding slot, camera 200 is tentatively assembled on connection component 100.

In conjunction with Fig. 1 to Fig. 3, the slide protrusion further includes that two sliding surfaces 23 are opposite and set set on two sliding surfaces 23 between first guide end 21 and first joint end 22.In the embodiment of the present invention, the width of the slide protrusion refers to the distance between two sliding surfaces 23 of the slide protrusion.

And the change width mode of the slide protrusion may be selected to be rule, also may be set to irregular.For example, in one embodiment, two sliding surface 23 of slide protrusion angle formed by the glide direction is the first predetermined angle, such as 2 degree.Certainly, the first predetermined angle also may be set to other angles size, such as 1 degree, 3 degree, 4 degree, 5 degree etc..In the present embodiment, first guide end 21 is approximately equal with the size of first joint end 22.

In the present embodiment, the slide protrusion section is approximately trapezoidal.Specifically, the top surface of the slide protrusion and its bottom surface less parallel, the width of the slide protrusion is gradually reduced from the top surface of the slide protrusion to its bottom surface, to assembling the camera 200 on the slide protrusion strongerly.Preferentially, two sliding surfaces 23 are symmetrical arranged.

In other examples, the height of the slide protrusion becomes larger from first guide end 21 to first joint end 22, is further ensured that the sliding slot slides into, skids off the smooth sense of the slide protrusion.During the camera 200 is assembled to the slide protrusion, the camera 200 slides to first joint end 22 from first guide end 21, and the gap between the camera 200 and the slide protrusion gradually becomes smaller.When the camera 200 slides to first joint end 22, the slide protrusion and the camera 200 clamping are connected, and realize the preliminary assembly of camera 200.The present embodiment by the size of first guide end 21 is arranged slightly smaller than first joint end 22 size, so as to relatively rapid guide the sliding slot to slide into the slide protrusion from first guide end 21.When the camera 200 slides to first joint end 22, the top surface of first joint end, 22 top surface and the sliding slot, the side wall of first joint end 22 contact respectively with the side wall of the sliding slot, to which the slide protrusion to be connected in the sliding slot, by the tentatively assembly of camera 200 on connection component 100.It should be noted that the height of the slide protrusion refers to the distance between top surface and horizontal plane of the slide protrusion in the embodiment of the present invention.

And the height change mode of the slide protrusion may be selected to be rule, also may be set to irregular.For example, in one embodiment, in conjunction with Fig. 4 and Fig. 5, angle formed by the top surface of the slide protrusion and horizontal plane is the second predetermined angle, such as 0.5 degree.Certainly, the second predetermined angle also may be set to other angles size.In the present embodiment, first guide end 21 is approximately equal with the size of first joint end 22, for example, 0.2 degree, 0.3 degree, 0.4 degree etc., i.e., the top surface of the described slide protrusion and its bottom surface less parallel.

In other example, the width and height of the slide protrusion are become larger from first guide end 21 to first joint end 22, to guarantee that the sliding slot slides into, skids off the smooth sense of the slide protrusion.The size of first guide end 21 is arranged to be slightly smaller than the size of first joint end 22, so as to relatively rapid guide the sliding slot to slide into the slide protrusion from first guide end 21.

In addition, the length (length of the slide protrusion in glide direction) of the slide protrusion can be set according to actual needs, to meet different assembly demands.

In another embodiment, the sliding part 2 is sliding recess.Correspondingly, the camera 200 includes a protrusion.The protrusion is slidably matched with the sliding recess, so that the camera 200 is detachably assembled on the ontology 1, assembly method is convenient and efficient.

Wherein, the sliding recess may include the second guide end and second joint end opposite with second guide end, and second guide end is to guide the camera 200 to slide into the sliding recess.The camera 200 is assembled to the process of the sliding recess are as follows: the protrusion slides into second joint end from second guide end, so that the camera 200 is tentatively fixed in the sliding recess.

Further, in some instances, the width of the sliding recess is gradually reduced from second guide end to second joint end, to guarantee that the protrusion slides into, skids off the smooth sense of the sliding recess.During the camera 200 is assembled to the sliding recess, the protrusion slides to second joint end from second guide end, and the gap between the protrusion and the sliding recess gradually becomes smaller.When the protrusion slides to second joint end, the sliding recess and the protrusion clamping are connected, and realize the preliminary assembly of the camera 200.By the way that the size of second guide end to be arranged to be slightly larger than the size of second joint end, so as to relatively rapid guide the protrusion to slide into the sliding recess from second guide end.When the protrusion slides to second joint end, second joint end bottom surface and the side wall of the bottom surface of the protrusion, the side wall of second joint end and the protrusion contact respectively, to which the protrusion to be connected in the sliding recess, the camera 200 is tentatively assembled on the connection component 100.

In other examples, the depth of the sliding recess gradually becomes smaller from second guide end to second joint end, is further ensured that the protrusion slides into, skids off the smooth sense of the sliding recess.During the camera 200 is assembled to the sliding recess, the protrusion slides to second joint end from second guide end, and the gap between the protrusion and the sliding recess gradually becomes smaller.When the protrusion slides to second joint end, the sliding recess and the protrusion clamping are connected, and realize the preliminary assembly of the camera 200.Pass through, the size of second guide end is arranged to be slightly larger than the size of second joint end, so as to relatively rapid guide the protrusion to slide into the sliding recess from second guide end. When the protrusion slides to second joint end, second joint end bottom surface and the side wall of the bottom surface of the protrusion, the side wall of second joint end and the protrusion contact respectively, to which the protrusion to be connected in the sliding recess, the camera 200 is tentatively assembled on the connection component 100.It should be noted that the depth of the sliding recess refers to the bottom surface of the sliding recess and the distance between the opening of the sliding recess in the embodiment of the present invention.

In addition, the length (length of the sliding recess in glide direction) of the sliding recess can be set according to actual needs, to meet different assembly demands.

Following embodiment will further illustrate the structure of the connection component 100 so that sliding part 2 is selected as slide protrusion as an example.

In conjunction with Fig. 3 to Fig. 5, the slide protrusion is equipped with accommodation groove (not shown), and the limit assembly 3 includes the stop plunger 31 being at least partially housed in the accommodation groove.When the limit assembly 3 switches to the lock state, 31 part of stop plunger protrudes from the accommodation groove and is caught in the camera 200, so that the camera 200 is locked on the slide protrusion.When the limit assembly 3 switches to the unlocked state, the stop plunger 31 is contained in the accommodation groove completely and separates with the camera 200, so that the camera 200 is separated with the slide protrusion, the detachable assembly of camera 200 and slide protrusion is realized.

In the present embodiment, the accommodation groove is set on first joint end 22.The top surface of the sliding slot is equipped with the sticking department to lock the stop plunger 31.Optionally, the sticking department is plunger hole 201c.The sliding slot slides into first joint end 22 from first guide end 21, and 31 part of stop plunger is caught in the plunger hole 201c and the camera 200 is locked on the slide protrusion.

In some instances, the stop plunger 31 can be caught in the plunger hole 201c automatically and realize the locking of camera 200.In other examples, the stop plunger 31 is partially caught in the plunger hole 201c under external force intervention and realizes the locking of camera 200.The mode that the stop plunger 31 is caught in the plunger hole 201c can be set as needed, such as, in one embodiment, the stop plunger 31 is elastic component or the stop plunger 31 includes the first elastic portion 32 (a part that the first elastic portion 32 is stop plunger 31), the sliding slot slides into first joint end 22 from first guide end 21, works as institute When stating sliding slot and sliding into the specific position of first joint end 22, the stop plunger 31 is sprung under the resilient force of its own automatically in the plunger hole 201c, is limited the sliding slot and is continued on glide direction sliding, realizes the locking of camera 200.

In another embodiment, the limit assembly 3 further includes the first elastic portion 32 (the first elastic portion 32 is independently of stop plunger 31) being connected with the stop plunger 31, and first elastic portion 32 is contained in the accommodation groove and the inner wall direct or indirect connection with the slide protrusion.When the limit assembly 3 switches to the lock state, the stop plunger 31 partially protrudes from the accommodation groove (as shown in Figure 4) under the resilient force of first elastic portion 32 and is caught in the camera 200.When the limit assembly 3 switches to the unlocked state, the stop plunger 31 is contained in the accommodation groove (as shown in Figure 5) under the action of the elastic force of first elastic portion 32 completely and loosens in the camera 200.The first elastic portion of the embodiment of the present invention 32 may be selected to be spring or other kinds of elastic component.

The connection component 100 may also include the solution lock set 4 matched with the stop plunger 31, and the limit assembly 3 can be controlled by the solution lock set 4 optionally in the lock state or the unlocked state.Specifically, the solution lock set 4 may include operation portion 41, the second elastic portion 42 and the press section 43 matched with the stop plunger 31 in conjunction with Fig. 3 to Fig. 5.Wherein, described second elastic portion, 42 one end connects the operation portion 41, and the other end connects the press section 43.The operation portion 41 protrudes from the end of first joint end 22, thus user-friendly.Operation portion 41 described in user's operation, so that the direction of the operation portion 41 towards the close stop plunger 31 is mobile or mobile towards the direction far from the stop plunger 31.Optionally, the operation portion 41 is a press section, and user presses the press section, so that the direction of the press section towards the close stop plunger 31 is mobile or mobile towards the direction far from the stop plunger 31.Certainly, the operation portion 41 is not limited to press section, it is alternatively chosn to other kinds of operation portion, and the operation portion 41 can be operated by other means, so that the direction of the operation portion 41 towards the close stop plunger 31 is mobile or mobile towards the direction far from the stop plunger 31.

In the present embodiment, second elastic portion 42 and the press section 43 are housed in the slide protrusion, and the press section 43 is contacted with the stop plunger 31.In conjunction with Fig. 4 and Fig. 5, when described When operation portion 41 is towards close to the movement of the direction of the stop plunger 31, the press section 43 drives the stop plunger 31 to move to the stop plunger 31 towards the direction far from the camera 200 and is contained in the accommodation groove completely, and the limit assembly 3 is in the unlocked state.During the direction of the operation portion 41 towards the close stop plunger 31 is mobile, the stop plunger 31 is loosened under the drive of the press section 43 in the plunger hole 201c of the camera 200, to release limit of the limit assembly 3 to the camera 200 in glide direction.

Fig. 4 and Fig. 5 is combined again, when mobile towards the direction far from the stop plunger 31 when the operation portion 41, the press section 43 drives the stop plunger 31 to move to 31 part of stop plunger towards the direction close to the camera 200 and protrudes from the accommodation groove, and the limit assembly 3 is in the lock state.During the direction of the operation portion 41 towards the separate stop plunger 31 is mobile, the limit assembly 3 partially pops up the accommodation groove under the drive of the press section 43 and is caught in the plunger hole 201c of the camera 200, continues to slide along glide direction so as to limit the camera 200 by the limit assembly 3.

In conjunction with Fig. 4 to Fig. 5, the press section 43 includes the first inclined-plane (not shown), and the stop plunger 31 includes the second inclined-plane (not shown) with first inclined-plane cooperation.The operation portion 41 is towards close to the movement of the direction of the stop plunger 31, first inclined-plane drives the described second direction movement for tiltedly facing away from the camera 200, so that the stop plunger 31 is contained in completely in the accommodation groove, to release the limit to the camera 200 in glide direction, the camera 200 connection component 100 can slide relatively, so that the camera 200 be removed from the connection component 100.The operation portion 41 is mobile towards the direction far from the stop plunger 31, first inclined-plane drives second inclined-plane to move towards the direction close to the camera 200, so that 31 part of stop plunger protrudes from the accommodation groove, to be limited in glide direction to the camera 100, the camera 200 is locked on the connection component 100.

In the present embodiment, first inclined-plane is slidably matched with second inclined-plane, it first inclined-plane can be mobile relative to second inclined-plane, to drive second inclined-plane to move toward or away from the direction of the camera 200, and then 31 part of stop plunger is driven to protrude from the accommodation groove or be contained in institute completely State accommodation groove.Also in conjunction with Fig. 4 and Fig. 5, from first joint end 22 to first guide end 21, the distance of the top surface of the relatively described press section 43 in first inclined-plane is gradually reduced, and the inclined direction on second inclined-plane and the inclined direction on first inclined-plane are just the opposite, control the stop plunger 31 so as to be slidably matched with the first inclined-plane and switch to the lock state or the unlocked state.

And second elastic portion 42 may be selected to be spring or other kinds of elastic component.

The connection component 100 may also include electrical contact end 5.The electrical contact end 5 is set on the sliding part 2, one end of the electrical contact end 5 is electrically connected with the camera 200, the other end is electrically connected with carrying structure, pass through being electrically connected between the electrical contact end 5 and the camera 200, realize being electrically connected between the camera 200 and carrying structure, so as to control the camera 200 by the carrying structure, or, by the switching of the connection component 100, the camera 200 is fixed on the carrying structure.

The connection component 100 is assemblied on the carrying structure and is electrically connected with the carrying structure.In the present embodiment, when the camera 200 is fixed to the connection component 100, the electrical contact end 5 of the connection component 100 is electrically connected with the camera 200.The present embodiment is by being arranged electrical contact end 5 on sliding part 2, in use, the assembly of connection component 100 is mounted on connection component 100 on carrying structure, and by camera 200, being electrically connected for carrying structure and camera 200 can be realized, easy to operate.Can be realized being electrically connected for carrying structure and camera 200 while camera 200 are installed, avoid by carrying structure extraction wire 303 come grafting camera 200 and bring trouble, it is time saving and energy saving.

And the connection component 100 can be fixedly connected or be rotatablely connected with the carrying structure, can specifically select according to actual needs, for example, in one embodiment, the connection component 100 is fixedly connected with the carrying structure.Wherein, the connection component 100 can screw thread and screw cooperation by way of or other modes be fixed on the carrying structure.

In another embodiment, referring to Fig. 7, the connection component 100 is rotatablely connected with the carrying structure by a shaft 400.By controlling the rotation of the shaft 400, can the relatively described carrying structure of connection component 100 described in flexible modulation angle, and then adjust the angle for the relatively described carrying structure of camera 200 being carried on the connection component 100.Wherein, the rotating manner for controlling the shaft 400 can select as needed, for example, the shaft 400 can be rotated manually, be carried on the company to adjust The angle of the relatively described connection component 100 of camera 200 on connected components 100.Certainly, the shaft 400 can also be controlled by electronic mode to rotate.

In conjunction with Fig. 2 and Fig. 6, the sliding slot top surface is equipped with electrical interface 201b.When the sliding slot slides into the specific position of the slide protrusion, the electrical interface 201b is electrically connected with the electrical contact end 5, so that camera 200 is electrically connected with carrying structure realization, so as to control the camera 200 by the carrying structure, such as, it controls the camera 200 and executes corresponding function (take pictures, record a video), rotation of the control camera 200 etc., to meet the shooting demand of user.

The electrical contact end 5 and electrical interface 201b may be selected to be the mode of slot and connection-peg cooperation, be alternatively chosn to the mode of contact cooperation, and the type of the electrical contact end 5 and the electrical interface 201b can select according to the actual situation.In the present embodiment, the electrical contact end 5 may include be arranged on the slide protrusion to multiple contacts for being electrically connected with the camera 200, the electrical interface 201b may include be arranged on the sliding slot top surface to multiple contacts for being electrically connected with the connection component 100.The electrical contact end 5 and the electrical interface 201b are cooperated by way of contact realizes being electrically connected for the camera 200 and the connection component 100, realizes that the process of electrical connection is simple and fast.Wherein, the contact on the slide protrusion and the quantity of contact identical (such as being 4) and corresponding matching that are set on the sliding slot top surface, to realize being electrically connected for carrying structure and camera 200.

In addition, the carrying structure can be each self-retaining bracket, for example, bike rack, tripod, self-shooting bar bracket etc..Certainly, in other embodiments, a certain position of the carrying structure also replaceable adult body, such as chest, the wearable chest in human body of connection component 100, so that the wearable front set on human body of the camera 200 is facilitated the use of camera 200.

Embodiment two will be further illustrated so that carrying structure is self-shooting bar bracket as an example.

Embodiment two

In conjunction with Fig. 7 to Figure 12, second embodiment of the present invention provides a kind of self-shooting bars 300.The self-shooting bar 300 may include the connection component 100 of the body of rod 301, handle 302 (body of rod 301 and handle 302 form self-shooting bar bracket) and above-mentioned implementation.Wherein, one end of the body of rod 301 is arranged in the handle 302, and the other end of the body of rod 301 is arranged in the connection component 100.The connection component 100 can be with the bar Body 301 is fixedly connected or is rotatablely connected, and can specifically select according to actual needs, for example, in one embodiment, the connection component 100 is fixedly connected with the body of rod 301.Wherein, the connection component 100 can screw thread and screw cooperation by way of or other modes be fixed on the body of rod 301.

In another embodiment, referring to Fig. 7 and Figure 10, the connection component 100 is rotatablely connected with the body of rod 301 by a shaft 400.By controlling the rotation of the shaft 400, can the relatively described body of rod 301 of connection component 100 described in flexible modulation angle, and then adjust the angle for the relatively described body of rod 301 of camera 200 being carried on the connection component 100.Wherein, the rotating manner for controlling the shaft 400 can select as needed, such as, the shaft 400 can manually be rotated, the angle of the relatively described body of rod 301 of the interconnecting piece 100 is adjusted, and then adjusts the angle for the relatively described body of rod 301 of camera 200 being carried on the connection component 100.Certainly, the shaft 400 can also be controlled by electronic mode to rotate.

Further, the handle 302 is equipped with control unit 3021, and the self-shooting bar 300 may also include conducting wire 303.One end of the conducting wire 303 is electrically connected with the control unit 3021, and the other end is electrically connected with the electrical contact end 5 of the connection component 100, to realize being electrically connected for control unit 3021 and connection component 100.Wherein, the conducting wire 303 can be directly electrically connected with the control unit 3021 or the conducting wire 303 can be electrically connected indirectly with the control unit 3021 by other elements.Similarly, the conducting wire 303 can be directly electrically connected with the connection component 100 or the conducting wire 303 can be electrically connected indirectly with the connection component 100 by other elements.

In the present embodiment, when the camera 200 is fixed to the connection component 100, the electrical contact end 5 of the connection component 100 is electrically connected with the camera 200 so that the realization of the conducting wire 303 and the camera 200 be electrically connected, and then realization self-shooting bar 300 and camera 200 are electrically connected.

Wherein, the conducting wire 303 may include communication 303 (not shown) of conducting wire, and the communication conducting wire 303 is used for transmission the control signal of the control unit 3021 to camera 200, work to control the camera 200 by the control unit 3021.When controlling the camera 200 work using self-shooting bar 300, the direct operation control portion 3021 of user is the rotation etc. that can control the camera 200 to execute corresponding function (take pictures, record a video) and the control camera 200.

The present embodiment is by being arranged electrical contact end 5 on connection component 100, and when using self-shooting bar 300, camera 200, which is mounted on, can be realized being electrically connected for self-shooting bar 300 and camera 200 on connection component 100, easy to operate.It can be realized being electrically connected for self-shooting bar 300 and camera 200 while camera 200 are installed, avoid the extraction wire 303 in self-shooting bar 300 and carry out 200 bring of grafting camera trouble, it is time saving and energy saving.

In some embodiments, in addition to communicating conducting wire 303, the conducting wire 303 may also include 303 (not shown) of power lead.The control unit 3021 takes electricity from the camera 200 by the power lead 303, on the one hand powers it is not necessary that battery is arranged on handle 302 to the control unit 3021, reduces the weight of self-shooting bar 300.Another aspect handle 302 powers to the control unit 3021 without external power supply (power supply unit in addition to camera 200), also avoids external power supply and takes trouble caused by electricity.And it is equipped with battery in further embodiments, in handle 302, it is powered by the battery to the control unit 3021.

The self-shooting bar 300 may also include the master control borad (not shown) in the handle 302.The control unit 3021 is electrically connected through the master control borad with the communication conducting wire 303, and the control signal of the control unit 3021 is transmitted to the camera 200 through the communication conducting wire 303 by the master control borad, executes corresponding function to control the camera 200.Specifically, after the control unit 3021 is user-operably, control signal from the control unit 3021 can be sent to the camera 200 through the communication conducting wire 303 by the master control borad, it works to control the camera 200, such as, controlling signal can be the signal of control 200 operating mode of camera, control the angle of the relatively described connection component 100 of the camera 200 (herein, the angle of the relatively described connection component 100 of the camera 200 refers to the shooting angle of the camera 200, that is the direction of camera lens 203, namely the angle of the relatively described connection component 100 of camera lens 203) signal etc..In addition, the control unit 3021 is also electrically connected through the master control borad with the power lead 303, master control borad is supplied electricity to so as to take from camera 200 by the power lead 303, and control unit 3021 is supplied electricity to by master control borad.

In the present embodiment, the conducting wire 303 is the copper wire that can transmit signal.And the quantity of the conducting wire 303 can be set as the case may be, for example, the communication conducting wire 303 is one in a specific implementation, the power lead 303 is two.

Again referring to Fig. 7 and Figure 10, the conducting wire 303 is contained in the inside of the body of rod 301, realizes the wireless penetration outside self-shooting bar 300, conducting wire 303 is avoided to damage because pullling, and extends the service life of self-shooting bar 300.

In conjunction with Figure 10 to Figure 12, the body of rod 301 is telescopic rod, so as to the length of the flexible modulation body of rod 301, to meet the demand of different shooting distances.Wherein, the length of the body of rod 301 can be adjusted by manually mode, can also be adjusted by electronic mode.Correspondingly, the conducting wire 303 is fish line conductor, and flexible with telescopic rod matches.The fish line conductor can be corresponded to and be stretched as the length of the body of rod 301 changes, to match the length of the body of rod 301.Specifically, when the length of the body of rod 301 is tuned up, fish line conductor is stretched.When the length of the body of rod 301 is turned down, fish line conductor is compressed.

The control unit 3021 can be the types such as button, key, rocking bar.Referring to Fig. 8, the control unit 3021 may include trigger key 3021a.The trigger key 3021a is used to control the angle of the relatively described connection component of the holder camera or the screening-mode of the camera, realizes the quick control to the holder camera.The angle of the relatively described connection component of the holder camera or the screening-mode of the camera can be set by the duration that the trigger key 3021a number being pressed or the trigger key 3021a are pressed.For example, in one embodiment, the number that the trigger key 3021a is pressed be twice, the holder camera then return in (i.e. camera resets, and when wherein holder camera resets, camera lens 203 are towards front).The number that the trigger key 3021a is pressed is three times that the holder camera then rotates 180 ° and makes face of the camera lens 203 towards user, and the holder camera is in self-timer mode.Trigger key 3021a described in long-pressing, the holder camera are then locked, and user can not adjust the direction of camera lens 203 at this time.

Further, referring to Fig. 9, the control unit 3021 may also include rocking bar 3021d.The rocking bar 3021d is used to control the rotation of the camera lens 203.User can be rotated by stirring the remote control to control the camera lens 203 towards different directions.For example, user can stir the direction rotation that the rocking bar 3021d is up and down, left and right, the direction of corresponding control camera lens 203 towards upper and lower, left and right is rotated, to the easy to control quick of camera lens 203.

Again referring to Fig. 9, the control unit 3021 may also include shutter key 3021b and record button 3021c etc.. Wherein, the shutter key 3021b executes camera function for controlling the holder camera, and the record button 3021c executes recording function for controlling the holder camera.Certainly, the control unit 3021 may also include other button or keys etc. that corresponding function is executed for controlling the holder camera.

The shutter key 3021b, the record button 3021c, the rocking bar 3021d and the trigger key 3021a can arrange according to the use habit of user.In conjunction with Fig. 8 and Fig. 9, the shutter key 3021b, the record button 3021c and the rocking bar 3021d are set to the front of the handle 302, and the trigger key 3021a is set to the back side of the handle 302, user-friendly.

Again referring to Fig. 9, further, the self-shooting bar may also include indicator light 3022.The indicator light 3022 is used to indicate the working condition of the handle 302 or the holder camera.Wherein, the quantity of the indicator light 3022 can be set as needed, for example, the indicator light 3022 can be two, be respectively used to the working condition of instruction handle 302 and the working condition of the holder camera.Certainly, the indicator light 3022 can also be two or more, be respectively used to indicate the working condition or other information of different components.In the present embodiment, the indicator light 3022 is one, is used to indicate the working condition of the handle 302 and the holder camera.

The working condition of the handle 302 and the working condition of the holder camera can be judged by the luminescent color of indicator light 3022, the duration that shines or flashing state, alternatively, can judge the working condition of the handle 302 and the working condition of the holder camera by the combination both at least in the luminescent color of indicator light 3022, the duration and flashing state of shining.It is of course also possible to judge the working condition of the handle 302 and the working condition of the holder camera by other means.For example, the handle 302 includes energized state and off-position, and the holder camera includes video state, shooting state and not enough power supply state in a specific implementation.When the handle 302 is in off-position, the indicator light 3022 will not then be lighted.When the handle 302 is in energized state, the indicator light 3022 is green.After the handle 302 is in energized state, when the holder camera is in shooting state, the indicator light 3022 is green and interval 5s flashing.When the holder camera is in video state, the indicator light 3022 is green and interval 1s flashing.And when the holder camera is in not enough power supply state, the indicator light 3022 is then red light quick flashing.

Further, the indicator light 3022 can be set to the front of the handle 302, and user is facilitated to check.

Figure 10 and Figure 12 is combined again, and the self-shooting bar 300 may also include switching part 304.The switching part 304 is set in the body of rod 301 close to the side of the handle 302.The switching part 304 is equipped with heat release hole, and the heat release hole is connected to the inner cavity (not shown) of the body of rod 301, to radiate to the conducting wire 303 for being contained in the inner cavity.

The switching part 304 can also be connected with a cellphone support.When the body of rod 301 is expanded to certain length, farther out, the shooting picture of the camera 200 is difficult to be identified by user the distance due to the camera 200 apart from user.At this point, the shooting picture that the camera 200 transmits can be received by the mobile phone being placed on the cellphone support, user is facilitated closely to watch the captured in real-time picture of the camera 200.Wherein, the camera 200 can be communicated to connect with the mobile phone by communications such as wifi, can also be communicated to connect by wired communication mode.And the camera 200 is with the mobile phone by wired mode when being communicated to connect, the signal wire for connecting the camera 200 and the mobile phone is housed in the inner cavity of the body of rod 301, the wireless penetration outside the realization body of rod 301.

Embodiment three

Referring to fig. 2, the present invention three provides a kind of filming apparatus.The filming apparatus may include the connection component 100 of camera 200 and above-described embodiment.Wherein, the connection component 100 is to the fixation camera 200.

In conjunction with Fig. 2 Fig. 6, the camera 200 can be equipped with auxiliary section 201a and plunger hole 201c.Wherein, the auxiliary section 201a is slidably matched with the sliding part 2 in the connection component 100, so that the camera 200 is tentatively connected on (removable connection) described sliding part 2.

The mode that male-female engagement can be used with the sliding part 2 in the auxiliary section 201a is slidably matched, and the camera 200 is tentatively connected on the connection component 100.For example, in one embodiment, the sliding part 2 is slide protrusion, and the auxiliary section 201a is the sliding slot cooperated with the slide protrusion.In another embodiment, the sliding part 2 is sliding recess, and the auxiliary section 201a is the protrusion being slidably matched with the sliding recess.

The plunger hole 201c is set on the auxiliary section 201a, and is cooperated with the limit assembly 3 in the connection component 100, to pass through institute after the camera 200 is tentatively connected to the connection component 100 The camera 200 is locked on the connection component 100 by the cooperation for stating plunger hole 201c Yu the limit assembly 3, is limited the camera 200 and is slided along glide direction.Specifically, when the limit assembly 3 switches to the lock state, 3 part of limit assembly is caught in the plunger hole 201c and the camera 200 is locked on the sliding part 2.When the limit assembly 3 switches to the unlocked state, the limit assembly 3 is loosened in the plunger hole 201c, the camera 200 to be removed from the sliding part 2, realize the detachable assembly of the camera 200 and the connection component 100, the Assembly And Disassembly process of the camera 200 is simple, quick.

The camera 200 can also be equipped with electrical interface 201b.The electrical interface 201b is set on the auxiliary section 201a.When the auxiliary section 201a is fixed to the connection component 100, the electrical interface 201b is electrically connected with the electrical contact end 5 of the connection component 100, so that the camera 200 is electrically connected with the connection component 100 realization.

Wherein, the type of the electrical interface 201b can be set as needed.Optionally, the electrical interface 201b may include the multiple contacts being arranged on the auxiliary section 201a.Multiple contacts of multiple contacts of the connection component 100 and the camera 200 cooperate, to realize being electrically connected for the camera 200 and the connection component 100, implementation is simple and fast.

The type of the camera 200 can select as needed.In the present embodiment, the camera 200 is not limited to traditional camera 200, can be also other electronic equipments with camera function, such as holder camera, mobile phone, tablet computer etc..

The structure that holder camera further illustrates the filming apparatus of the present embodiment is selected as with camera 200.

In conjunction with Figure 10 to Figure 12, the holder camera may include camera body 201, head assembly 202 and camera lens 203.Wherein, the head assembly 202 is arranged on the camera body 201, and the camera lens 203 are arranged on the head assembly 202, so as to control the steering of the camera lens 203 by the head assembly 202.

In the present embodiment, the camera body 201 is removably set on the connection component 100, the convenient replacement to holder camera.The auxiliary section 201a and institute electrical interface 201b are set on the camera body 201, and the camera body 201 is assembled to the connection component 100 by auxiliary section 201a On, being electrically connected for the camera 200 and the connection component 100 is realized by the electrical interface 201b.

In addition, the camera body 201 can also be equipped with display screen (not shown), the display screen shooting picture current to real-time display.Further, the camera body 201 can also be equipped with control button (not shown), to control the work of the holder camera, for example, acquisition parameters setting, screening-mode setting etc..

The head assembly 202 can be two axis, three axis etc., to meet a variety of demands to 203 course changing control of camera lens.Optionally, the head assembly 202 may include at least one of yaw shaft assembly 202a, pitching shaft assembly 202b and roll shaft assembly 202c, with in yaw axis, pitch axis and roll axis at least one axis direction control the angles of the camera lens 203, meet different shooting demands.In a specific implementation, referring to Figure 10 and Figure 11, the head assembly 202 includes yaw shaft assembly 202a, pitching shaft assembly 202b and roll shaft assembly 202c, and the angle of the camera lens 203, strong flexibility can be adjusted from yaw axis, pitch axis and the multiple dimensions of roll axis.

Further, and referring to Figure 10 and Figure 11, the top of the camera body 201 is arranged in the head assembly 202, and is connect by a rotation axis 204 with the camera body 201, thus the head assembly 202 and the folding connection of the camera body 201.When not using the holder camera, the head assembly 202 is folded, the volume of holder camera can be reduced, facilitates the storage of the holder camera.The driving method of the rotation axis 204 can also select as needed, for example, the rotation axis 204 can be rotated manually, the rotation axis 204 can also be rotated by electronic mode.

The holder camera may also include locating part 205.The locating part 205 is set to the top of the camera body 201 and is located at 204 side of rotation axis, the locating part 205 is connected to the top of the camera body 201 along the direction vertical with the rotation direction of the rotation axis 204, to be limited by rotation direction of the locating part 205 to the rotation axis 204.

In the present embodiment, the head assembly 202 may include unfolded state (state of head assembly 202 shown in Fig. 10) and folded state (state of head assembly 202 shown in Figure 11).It can drive the head assembly 202 optionally in unfolded state and folded state by the rotation of the control rotation axis 204.Specifically, it before the holder camera shooting, can be driven by the rotation axis 204 described Head assembly 202 turns to unfolded state, and the rotation axis 204 is made to be connected to locating part 205, so that the head assembly 202 maintains the unfolded state, the camera lens 203 being conveniently mounted on the head assembly 202 are found a view.When needing to store the holder camera, the head assembly 202 can be driven to turn to folded state by the rotation axis 204, the head assembly 202 and the camera lens 203 fit in the top of the camera body 201, to reduce the volume of the holder camera, facilitate the storage of the holder camera.

Again referring to Figure 10 and Figure 11, the two sides of the locating part 205 are respectively equipped with supporting parts 206.The head assembly 202 is set between two supporting parts 206, and the both ends of the head assembly 202 are rotationally connected with two supporting parts 206, two supporting parts 206 and the locating part 205 form the structure that three bread enclose the rotation axis 204, limit to the rotation direction of the rotation axis 204.In addition, the notch passed through when rotating under the rotation axis 204 drive for the head assembly 202 is formed between one end far from the locating part 205 of two supporting parts 206, so that the head assembly 202 be facilitated to switch between unfolded state and folded state.

In the present embodiment, two supporting parts 206 are integrally formed with the locating part 205 and are arranged, and improve the intensity of structure.Certainly, in other embodiments, two supporting parts 206 can also split settings with the locating part 205.

In addition, the top of the camera body 201 can offer accommodating chamber.The rotation axis 204 drives the head assembly 202 to turn to folded state, the head assembly 202 and the camera lens 203 some or all of can be housed in the accommodating chamber, the head assembly 202 and the camera lens 203 are stored, the service life of holder camera is extended.

The filming apparatus may also include carrying structure.The connection component 100 is assemblied on the carrying structure and is electrically connected with the carrying structure.The present embodiment is by being arranged electrical contact end 5 on sliding part 2, in use, the assembly of connection component 100 is mounted on connection component 100 on carrying structure, and by camera 200, being electrically connected for carrying structure and camera 200 can be realized, easy to operate.Can be realized being electrically connected for carrying structure and camera 200 while camera 200 are installed, avoid by carrying structure extraction wire 303 come grafting camera 200 and bring trouble, it is time saving and energy saving.

And the connection component 100 can be fixedly connected or be rotatablely connected with the carrying structure, can specifically select according to actual needs, for example, in one embodiment, the connection component 100 is fixedly connected with the carrying structure.Wherein, the connection component 100 can screw thread and screw cooperation by way of or other modes be fixed on the carrying structure.

In another embodiment, referring to Fig. 7 and Figure 10, the connection component 100 is rotatablely connected with the carrying structure by a shaft 400.By controlling the rotation of the shaft 400, can the relatively described carrying structure of connection component 100 described in flexible modulation angle, and then adjust the angle for the relatively described carrying structure of camera 200 being carried on the connection component 100.Wherein, the rotating manner for controlling the shaft 400 can select as needed, such as, the shaft 400 can manually be rotated, the angle of the relatively described carrying structure of the interconnecting piece 100 is adjusted, and then adjusts the angle for the relatively described carrying structure of camera 200 being carried on the connection component 100.Certainly, the shaft 400 can also be controlled by electronic mode to rotate.

The carrying structure can be each self-retaining bracket, for example, bike rack, tripod, self-shooting bar bracket etc..Certainly, in other embodiments, a certain position of the carrying structure also replaceable adult body, such as chest, the wearable chest in human body of connection component 100, so that the wearable front set on human body of the camera 200 is facilitated the use of camera 200.Wherein, carrying structure is that the implementation of self-shooting bar bracket can be found in the self-shooting bar 300 of above-described embodiment two, and details are not described herein again.

It is further to note that reference can be made to the self-shooting bar 300 of the embodiment of the present invention two and the filming apparatus of embodiment three is explained further in the connection component 100 of above-described embodiment one.Certainly, also reference can be made to the self-shooting bar 300 of above-described embodiment two and the filming apparatus of embodiment three are explained further the connection component 100 of embodiment one.

In the description of the present invention, "upper", "lower", "front", "rear", "left", "right" should be understood as that from top to bottom successively camera 200, connection component 100 and self-shooting bar 300 are formed by "upper", "lower", "front", "rear", the "left", "right" direction of filming apparatus.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, and all within the spirits and principles of the present invention, any modification, equivalent substitution, improvement and etc. done should be included within the scope of the present invention.

Claims (42)

1. A kind of connection component for fixed camera, the connection component includes ontology, it is characterized in that, the connection component further includes on the ontology to the sliding part being slidably matched with the camera and the limit assembly being at least partially housed in the sliding part；Wherein,

   The limit assembly can be selectively in lock state or unlocked state；

   When the limit assembly switches to the lock state, the limit assembly part is caught in the camera and the camera is locked on the sliding part；

   When the limit assembly switches to the unlocked state, the limit assembly is loosened in the camera, and the camera is removed from the sliding part.
2. Connection component according to claim 1, it is characterized in that, the sliding part is slide protrusion, and the slide protrusion includes the first guide end and first joint end opposite with first guide end, and first guide end is to guide the camera to slide into the slide protrusion.
3. Connection component according to claim 2, which is characterized in that the width of the slide protrusion becomes larger from first guide end to first joint end；

   And/or the height of the slide protrusion becomes larger from first guide end to first joint end；

   The camera slides to first joint end from first guide end, and the gap between the camera and the slide protrusion gradually becomes smaller；The camera slides to first joint end, and the slide protrusion and camera clamping connect.
4. Connection component according to claim 3, which is characterized in that two sliding surface of slide protrusion angle formed by the glide direction is 2 degree；And/or

   Angle formed by the top surface of the slide protrusion and horizontal plane is 0.5 degree.
5. Connection component according to claim 1, it is characterized in that, the sliding part is sliding recess, and the sliding recess includes the second guide end and second joint end opposite with second guide end, and second guide end is to guide the camera to slide into the sliding recess.
6. Connection component according to claim 5, which is characterized in that the width of the sliding recess gradually becomes smaller from second guide end to second joint end；

   And/or the depth of the sliding recess gradually becomes smaller from second guide end to second joint end；

   The camera slides to second joint end from second guide end, and the gap between the camera and the sliding recess gradually becomes smaller；The camera slides to second joint end, and the sliding recess and camera clamping connect.
7. According to the described in any item connection components of claim 2-6, which is characterized in that the joint end is equipped with accommodation groove, and the limit assembly includes stop plunger, and the stop plunger is at least partially housed in the accommodation groove.
8. Connection component according to claim 7, which is characterized in that the limit assembly further includes the first elastic portion being connected with the stop plunger, and first elastic portion is contained in the accommodation groove；

   When the limit assembly switches to the lock state, the stop plunger partially protrudes from the accommodation groove under the resilient force of first elastic portion and is caught in the camera；

   When the limit assembly switches to the unlocked state, the stop plunger is contained in the accommodation groove completely under the action of the elastic force of first elastic portion and separates with the camera.
9. Connection component according to claim 7, which is characterized in that the connection component further includes the solution lock set matched with the stop plunger；

   The solution lock set is optionally in the lock state or the unlocked state for controlling the limit assembly.
10. Connection component according to claim 9, which is characterized in that the solution lock set includes operation portion, the second elastic portion and the press section matched with the stop plunger, and second elastic portion one end connects the operation portion, and the other end connects the press section；

    Towards close to the movement of the direction of the stop plunger, the press section drives the stop plunger to move to the stop plunger towards the direction far from the camera and is contained in the accommodation groove completely the operation portion；

    The operation portion is mobile towards the direction far from the stop plunger, and the press section drives the stop plunger to move to the stop plunger part towards the direction close to the camera and protrudes from the accommodation groove.
11. Connection component according to claim 10, which is characterized in that the press section includes the first inclined-plane, and the stop plunger includes the second inclined-plane with first inclined-plane cooperation；

    The operation portion is mobile towards the direction close to the stop plunger, and first inclined-plane drives described the Two tiltedly face away from the direction movement of the camera, so that the stop plunger is contained in completely in the accommodation groove；

    The operation portion is mobile towards the direction far from the stop plunger, and first inclined-plane drives second inclined-plane to move towards the direction close to the camera, so that the stop plunger part protrudes from the accommodation groove.
12. Connection component according to claim 1, which is characterized in that the connection component further includes the electrical contact end on the sliding part；

    One end of the electrical contact end is electrically connected with the phase mechatronics, the other end with carrying structure.
13. Connection component according to claim 12, which is characterized in that the electrical contact end includes to multiple contacts with the phase mechatronics.
14. A kind of self-shooting bar characterized by comprising

    The body of rod；

    The handle of described body of rod one end is set；And

    The connection component to carry the camera of the body of rod other end is set, the connection component includes ontology, and the connection component further includes on the ontology to the sliding part being slidably matched with the camera and the limit assembly being at least partially housed in the sliding part；Wherein, the limit assembly can be selectively in lock state or unlocked state；When the limit assembly switches to the lock state, the limit assembly part is caught in the camera and the camera is locked on the sliding part；When the limit assembly switches to the unlocked state, the limit assembly is loosened in the camera, and the camera is removed from the sliding part.
15. Self-shooting bar according to claim 14, it is characterized in that, the sliding part is slide protrusion, and the slide protrusion includes the first guide end and first joint end opposite with first guide end, and first guide end is to guide the camera to slide into the slide protrusion.
16. Self-shooting bar according to claim 15, which is characterized in that the width of the slide protrusion becomes larger from first guide end to first joint end；

    And/or the height of the slide protrusion becomes larger from first guide end to first joint end；

    The camera slides to first joint end from first guide end, and the camera and the sliding are convex Gap between rising gradually becomes smaller；The camera slides to first joint end, and the slide protrusion and camera clamping connect.
17. Self-shooting bar according to claim 16, which is characterized in that two sliding surface of slide protrusion angle formed by the glide direction is 2 degree；And/or

    Angle formed by the top surface of the slide protrusion and horizontal plane is 0.5 degree.
18. Self-shooting bar according to claim 14, it is characterized in that, the sliding part is sliding recess, and the sliding recess includes the second guide end and second joint end opposite with second guide end, and second guide end is to guide the camera to slide into the sliding recess.
19. Self-shooting bar according to claim 18, which is characterized in that the width of the sliding recess gradually becomes smaller from second guide end to second joint end；

    And/or the depth of the sliding recess gradually becomes smaller from second guide end to second joint end；

    The camera slides to second joint end from second guide end, and the gap between the camera and the sliding recess gradually becomes smaller；The camera slides to second joint end, and the sliding recess and camera clamping connect.
20. The described in any item self-shooting bars of 5-19 according to claim 1, which is characterized in that the joint end is equipped with accommodation groove, and the limit assembly includes stop plunger, and the stop plunger is at least partially housed in the accommodation groove.
21. Self-shooting bar according to claim 20, which is characterized in that the limit assembly further includes the first elastic portion being connected with the stop plunger, and first elastic portion is contained in the accommodation groove；

    When the limit assembly switches to the lock state, the stop plunger partially protrudes from the accommodation groove under the resilient force of first elastic portion and is caught in the camera；

    When the limit assembly switches to the unlocked state, the stop plunger is contained in the accommodation groove completely under the action of the elastic force of first elastic portion and separates with the camera.
22. Self-shooting bar according to claim 20, which is characterized in that the connection component further includes the solution lock set matched with the stop plunger；

    The solution lock set is optionally in the lock state or the unlocked state for controlling the limit assembly.
23. Self-shooting bar according to claim 22, which is characterized in that the solution lock set includes operation portion, the second elastic portion and the press section matched with the stop plunger, and second elastic portion one end connects the operation portion, and the other end connects the press section；

    Towards close to the movement of the direction of the stop plunger, the press section drives the stop plunger to move to the stop plunger towards the direction far from the camera and is contained in the accommodation groove completely the operation portion；

    The operation portion is mobile towards the direction far from the stop plunger, and the press section drives the stop plunger to move to the stop plunger part towards the direction close to the camera and protrudes from the accommodation groove.
24. Self-shooting bar according to claim 23, which is characterized in that the press section includes the first inclined-plane, and the stop plunger includes the second inclined-plane with first inclined-plane cooperation；

    The operation portion is towards close to the movement of the direction of the stop plunger, and first inclined-plane drives the described second direction movement for tiltedly facing away from the camera, so that the stop plunger is contained in completely in the accommodation groove；

    The operation portion is mobile towards the direction far from the stop plunger, and first inclined-plane drives second inclined-plane to move towards the direction close to the camera, so that the stop plunger part protrudes from the accommodation groove.
25. Self-shooting bar according to claim 14, which is characterized in that the connection component further includes the electrical contact end on the sliding part；

    One end of the electrical contact end is electrically connected with the phase mechatronics, the other end with carrying structure.
26. Self-shooting bar according to claim 25, which is characterized in that the electrical contact end includes to multiple contacts with the phase mechatronics.
27. The described in any item self-shooting bars of 4-26 according to claim 1, it is characterized in that, the handle is equipped with control unit, the self-shooting bar further includes conducting wire, one end of the conducting wire is electrically connected with the control unit, the other end is electrically connected with the electrical contact end of the connection component, and when the camera is fixed to the connection component, the electrical contact end of the connection component is with the phase mechatronics so that the conducting wire is electrically connected with camera realization；Or,

    The conducting wire is contained in the inside of the body of rod, and the body of rod is telescopic rod, and the conducting wire is fish line conductor；Or,

    The connection component is arranged by a shaft in the body of rod other end.
28. A kind of filming apparatus, it is characterized in that, including camera and connection component, the connection component is to the fixation camera, the connection component includes ontology, and the connection component further includes on the ontology to the sliding part being slidably matched with the camera and the limit assembly being at least partially housed in the sliding part；Wherein, the limit assembly can be selectively in lock state or unlocked state；When the limit assembly switches to the lock state, the limit assembly part is caught in the camera and the camera is locked on the sliding part；When the limit assembly switches to the unlocked state, the limit assembly is loosened in the camera, and the camera is removed from the sliding part.
29. Filming apparatus according to claim 28, it is characterized in that, the sliding part is slide protrusion, and the slide protrusion includes the first guide end and first joint end opposite with first guide end, and first guide end is to guide the camera to slide into the slide protrusion.
30. Filming apparatus according to claim 29, which is characterized in that the width of the slide protrusion becomes larger from first guide end to first joint end；

    And/or the height of the slide protrusion becomes larger from first guide end to first joint end；

    The camera slides to first joint end from first guide end, and the gap between the camera and the slide protrusion gradually becomes smaller；The camera slides to first joint end, and the slide protrusion and camera clamping connect.
31. Filming apparatus according to claim 30, which is characterized in that two sliding surface of slide protrusion angle formed by the glide direction is 2 degree；And/or

    Angle formed by the top surface of the slide protrusion and horizontal plane is 0.5 degree.
32. Filming apparatus according to claim 28, it is characterized in that, the sliding part is sliding recess, and the sliding recess includes the second guide end and second joint end opposite with second guide end, and second guide end is to guide the camera to slide into the sliding recess.
33. Filming apparatus according to claim 32, which is characterized in that the width of the sliding recess gradually becomes smaller from second guide end to second joint end；

    And/or the depth of the sliding recess gradually becomes smaller from second guide end to second joint end；

    The camera slides to second joint end from second guide end, and the camera and the sliding are recessed Gap between slot gradually becomes smaller；The camera slides to second joint end, and the sliding recess and camera clamping connect.
34. According to the described in any item filming apparatus of claim 29-33, which is characterized in that the joint end is equipped with accommodation groove, and the limit assembly includes stop plunger, and the stop plunger is at least partially housed in the accommodation groove.
35. Filming apparatus according to claim 34, which is characterized in that the limit assembly further includes the first elastic portion being connected with the stop plunger, and first elastic portion is contained in the accommodation groove；

    When the limit assembly switches to the lock state, the stop plunger partially protrudes from the accommodation groove under the resilient force of first elastic portion and is caught in the camera；

    When the limit assembly switches to the unlocked state, the stop plunger is contained in the accommodation groove completely under the action of the elastic force of first elastic portion and separates with the camera.
36. Filming apparatus according to claim 34, which is characterized in that the connection component further includes the solution lock set matched with the stop plunger；

    The solution lock set is optionally in the lock state or the unlocked state for controlling the limit assembly.
37. Filming apparatus according to claim 36, it is characterized in that, the solution lock set includes operation portion, the second elastic portion and the press section matched with the stop plunger, and second elastic portion one end connects the operation portion, and the other end connects the press section；

    Towards close to the movement of the direction of the stop plunger, the press section drives the stop plunger to move to the stop plunger towards the direction far from the camera and is contained in the accommodation groove completely the operation portion；

    The operation portion is mobile towards the direction far from the stop plunger, and the press section drives the stop plunger to move to the stop plunger part towards the direction close to the camera and protrudes from the accommodation groove.
38. The filming apparatus according to claim 37, which is characterized in that the press section includes the first inclined-plane, and the stop plunger includes the second inclined-plane with first inclined-plane cooperation；

    The operation portion is towards close to the movement of the direction of the stop plunger, and first inclined-plane drives the described second direction movement for tiltedly facing away from the camera, so that the stop plunger is contained in the appearance completely It sets in slot；

    The operation portion is mobile towards the direction far from the stop plunger, and first inclined-plane drives second inclined-plane to move towards the direction close to the camera, so that the stop plunger part protrudes from the accommodation groove.
39. Filming apparatus according to claim 28, which is characterized in that the connection component further includes the electrical contact end on the sliding part；

    One end of the electrical contact end is electrically connected with the phase mechatronics, the other end with carrying structure.
40. Filming apparatus according to claim 39, which is characterized in that the electrical contact end includes to multiple contacts with the phase mechatronics.
41. According to the described in any item filming apparatus of claim 28-40, it is characterized in that, the handle is equipped with control unit, the self-shooting bar further includes conducting wire, one end of the conducting wire is electrically connected with the control unit, the other end is electrically connected with the electrical contact end of the connection component, and when the camera is fixed to the connection component, the electrical contact end of the connection component is with the phase mechatronics so that the conducting wire is electrically connected with camera realization；Or,

    The conducting wire is contained in the inside of the body of rod, and the body of rod is telescopic rod, and the conducting wire is fish line conductor；Or,

    The connection component is arranged by a shaft in the body of rod other end.
42. According to the described in any item filming apparatus of claim 28-41, it is characterized in that, the camera be equipped with the auxiliary section that is slidably matched with the sliding part in the connection component and on the auxiliary section to the plunger hole with the limit assembly cooperation in the connection component；

    When the limit assembly switches to the lock state, the limit assembly part is caught in the plunger hole and the camera is locked on the sliding part；

    When the limit assembly switches to the unlocked state, the limit assembly is loosened in the plunger hole, and the camera is removed from the sliding part；Or,

    The auxiliary section is equipped with multiple camera contacts, and the camera contact with multiple contacts in the connection component electrically to cooperate.